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Added 12x12 FPGA design with SKY130_SC_HD cells

This commit is contained in:
Ganesh Gore 2020-10-28 12:41:37 -06:00
parent 934abfac9b
commit ec9a02f9e0
164 changed files with 1439864 additions and 0 deletions
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56
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/OpenFPGAEngine.info Normal file
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commit 48b2bff0d909e2c6d0740d2a5386123eb238349f
Author: tangxifan <tangxifan@gmail.com>
Date: Sun Sep 27 20:08:11 2020 -0600
[OpenFPGA Tool] Update fabric key data structure to support regions
commit bbdea4a46b7aadd8a6f0fc45abdd39d1cc6d3057
Author: tangxifan <tangxifan@gmail.com>
Date: Sun Sep 27 19:23:13 2020 -0600
[Regression Test] Remove out-of-update sub modules
commit e95eacfbd9ec5e8d9aecab7572d4bad5265d9590
Merge: 32c43ffb 94047037
Author: tangxifan <tangxifan@gmail.com>
Date: Sun Sep 27 17:01:57 2020 -0600
Merge branch 'dev' into ganesh_dev
commit 94047037c570b6a432fea8f363a5147df9bc918d
Author: tangxifan <tangxifan@gmail.com>
Date: Sun Sep 27 14:33:14 2020 -0600
[OpenFPGA Tool] Streamline codes in openfpga arch parser
commit 94a1324f0527276546c3b2571b1a1b7700a473f7
Author: tangxifan <tangxifan@gmail.com>
Date: Sat Sep 26 14:31:57 2020 -0600
[Documentation] Remove deprecated XML syntax
On branch dev
Your branch is up to date with 'origin/dev'.
Untracked files:
(use "git add <file>..." to include in what will be committed)
openfpga/openfpga
openfpga_flow/tasks/FPGA1212_FC_HD_SKY_task
openfpga_flow/tasks/FPGA128128_FLAT_task
openfpga_flow/tasks/FPGA1616_FLAT_task
openfpga_flow/tasks/FPGA22_FLAT_task
openfpga_flow/tasks/FPGA22_FRAME_task
openfpga_flow/tasks/FPGA22_HIER_SKY_task
openfpga_flow/tasks/FPGA22_HIER_task
openfpga_flow/tasks/FPGA22_MB_task
openfpga_flow/tasks/FPGA22_MODULAR_task
openfpga_flow/tasks/FPGA22_SPY_task
openfpga_flow/tasks/FPGA3232_FLAT_task
openfpga_flow/tasks/FPGA44_FLAT_task
openfpga_flow/tasks/FPGA6464_FLAT_task
openfpga_flow/tasks/FPGA66_FLAT_task
openfpga_flow/tasks/FPGA88_FLAT_task
openfpga_flow/tasks/routing_test/
openfpga_flow/tasks/skywater_openfpga_task
vpr/vpr
nothing added to commit but untracked files present (use "git add" to track)

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FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/define_simulation.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
`define INITIAL_SIMULATION 1
`define AUTOCHECKED_SIMULATION 1
`define ENABLE_FORMAL_VERIFICATION 1
`define FORMAL_SIMULATION 1

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
`include "./SRC/fpga_defines.v"
//
`include "/research/ece/lnis/USERS/DARPA_ERI/Tapeout/May2020/OpenFPGA_for_Chip/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/inv/sky130_fd_sc_hd__inv_1.v"
`include "/research/ece/lnis/USERS/DARPA_ERI/Tapeout/May2020/OpenFPGA_for_Chip/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/buf/sky130_fd_sc_hd__buf_2.v"
`include "/research/ece/lnis/USERS/DARPA_ERI/Tapeout/May2020/OpenFPGA_for_Chip/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/buf/sky130_fd_sc_hd__buf_4.v"
`include "/research/ece/lnis/USERS/DARPA_ERI/Tapeout/May2020/OpenFPGA_for_Chip/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/inv/sky130_fd_sc_hd__inv_2.v"
`include "/research/ece/lnis/USERS/DARPA_ERI/Tapeout/May2020/OpenFPGA_for_Chip/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/or2/sky130_fd_sc_hd__or2_1.v"
`include "/research/ece/lnis/USERS/DARPA_ERI/Tapeout/May2020/OpenFPGA_for_Chip/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/mux2/sky130_fd_sc_hd__mux2_1.v"
`include "/research/ece/lnis/USERS/DARPA_ERI/Tapeout/May2020/OpenFPGA_for_Chip/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/sdfxbp/sky130_fd_sc_hd__sdfxbp_1.v"
`include "/research/ece/lnis/USERS/DARPA_ERI/Tapeout/May2020/OpenFPGA_for_Chip/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/dfrbp/sky130_fd_sc_hd__dfxbp_1.v"
`include "/research/ece/lnis/USERS/DARPA_ERI/Tapeout/May2020/OpenFPGA_for_Chip/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/sc_verilog/std_cell_extract.v"
//
`include "./SRC/sub_module/inv_buf_passgate.v"
`include "./SRC/sub_module/arch_encoder.v"
`include "./SRC/sub_module/local_encoder.v"
`include "./SRC/sub_module/muxes.v"
`include "./SRC/sub_module/luts.v"
`include "./SRC/sub_module/wires.v"
`include "./SRC/sub_module/memories.v"
//
`include "./SRC/lb/logical_tile_io_mode_physical__iopad.v"
`include "./SRC/lb/logical_tile_io_mode_io_.v"
`include "./SRC/lb/logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4.v"
`include "./SRC/lb/logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic.v"
`include "./SRC/lb/logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff.v"
`include "./SRC/lb/logical_tile_clb_mode_default__fle_mode_physical__fabric.v"
`include "./SRC/lb/logical_tile_clb_mode_default__fle.v"
`include "./SRC/lb/logical_tile_clb_mode_clb_.v"
`include "./SRC/lb/grid_io_top.v"
`include "./SRC/lb/grid_io_right.v"
`include "./SRC/lb/grid_io_bottom.v"
`include "./SRC/lb/grid_io_left.v"
`include "./SRC/lb/grid_clb.v"
//
`include "./SRC/routing/sb_0__0_.v"
`include "./SRC/routing/sb_0__1_.v"
`include "./SRC/routing/sb_0__12_.v"
`include "./SRC/routing/sb_1__0_.v"
`include "./SRC/routing/sb_1__1_.v"
`include "./SRC/routing/sb_1__12_.v"
`include "./SRC/routing/sb_12__0_.v"
`include "./SRC/routing/sb_12__1_.v"
`include "./SRC/routing/sb_12__12_.v"
`include "./SRC/routing/cbx_1__0_.v"
`include "./SRC/routing/cbx_1__1_.v"
`include "./SRC/routing/cbx_1__12_.v"
`include "./SRC/routing/cby_0__1_.v"
`include "./SRC/routing/cby_1__1_.v"
//
`include "./SRC/fpga_top.v"

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
`define ENABLE_TIMING 1
`define ENABLE_SIGNAL_INITIALIZATION 1
`define ICARUS_SIMULATOR 1

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
//
module grid_clb(prog_clk,
Test_en,
clk,
top_width_0_height_0__pin_32_,
top_width_0_height_0__pin_33_,
right_width_0_height_0__pin_0_,
right_width_0_height_0__pin_1_,
right_width_0_height_0__pin_2_,
right_width_0_height_0__pin_3_,
right_width_0_height_0__pin_4_,
right_width_0_height_0__pin_5_,
right_width_0_height_0__pin_6_,
right_width_0_height_0__pin_7_,
right_width_0_height_0__pin_8_,
right_width_0_height_0__pin_9_,
right_width_0_height_0__pin_10_,
right_width_0_height_0__pin_11_,
right_width_0_height_0__pin_12_,
right_width_0_height_0__pin_13_,
right_width_0_height_0__pin_14_,
right_width_0_height_0__pin_15_,
bottom_width_0_height_0__pin_16_,
bottom_width_0_height_0__pin_17_,
bottom_width_0_height_0__pin_18_,
bottom_width_0_height_0__pin_19_,
bottom_width_0_height_0__pin_20_,
bottom_width_0_height_0__pin_21_,
bottom_width_0_height_0__pin_22_,
bottom_width_0_height_0__pin_23_,
bottom_width_0_height_0__pin_24_,
bottom_width_0_height_0__pin_25_,
bottom_width_0_height_0__pin_26_,
bottom_width_0_height_0__pin_27_,
bottom_width_0_height_0__pin_28_,
bottom_width_0_height_0__pin_29_,
bottom_width_0_height_0__pin_30_,
bottom_width_0_height_0__pin_31_,
left_width_0_height_0__pin_52_,
ccff_head,
right_width_0_height_0__pin_34_upper,
right_width_0_height_0__pin_34_lower,
right_width_0_height_0__pin_35_upper,
right_width_0_height_0__pin_35_lower,
right_width_0_height_0__pin_36_upper,
right_width_0_height_0__pin_36_lower,
right_width_0_height_0__pin_37_upper,
right_width_0_height_0__pin_37_lower,
right_width_0_height_0__pin_38_upper,
right_width_0_height_0__pin_38_lower,
right_width_0_height_0__pin_39_upper,
right_width_0_height_0__pin_39_lower,
right_width_0_height_0__pin_40_upper,
right_width_0_height_0__pin_40_lower,
right_width_0_height_0__pin_41_upper,
right_width_0_height_0__pin_41_lower,
bottom_width_0_height_0__pin_42_upper,
bottom_width_0_height_0__pin_42_lower,
bottom_width_0_height_0__pin_43_upper,
bottom_width_0_height_0__pin_43_lower,
bottom_width_0_height_0__pin_44_upper,
bottom_width_0_height_0__pin_44_lower,
bottom_width_0_height_0__pin_45_upper,
bottom_width_0_height_0__pin_45_lower,
bottom_width_0_height_0__pin_46_upper,
bottom_width_0_height_0__pin_46_lower,
bottom_width_0_height_0__pin_47_upper,
bottom_width_0_height_0__pin_47_lower,
bottom_width_0_height_0__pin_48_upper,
bottom_width_0_height_0__pin_48_lower,
bottom_width_0_height_0__pin_49_upper,
bottom_width_0_height_0__pin_49_lower,
bottom_width_0_height_0__pin_50_,
bottom_width_0_height_0__pin_51_,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:0] Test_en;
//
input [0:0] clk;
//
input [0:0] top_width_0_height_0__pin_32_;
//
input [0:0] top_width_0_height_0__pin_33_;
//
input [0:0] right_width_0_height_0__pin_0_;
//
input [0:0] right_width_0_height_0__pin_1_;
//
input [0:0] right_width_0_height_0__pin_2_;
//
input [0:0] right_width_0_height_0__pin_3_;
//
input [0:0] right_width_0_height_0__pin_4_;
//
input [0:0] right_width_0_height_0__pin_5_;
//
input [0:0] right_width_0_height_0__pin_6_;
//
input [0:0] right_width_0_height_0__pin_7_;
//
input [0:0] right_width_0_height_0__pin_8_;
//
input [0:0] right_width_0_height_0__pin_9_;
//
input [0:0] right_width_0_height_0__pin_10_;
//
input [0:0] right_width_0_height_0__pin_11_;
//
input [0:0] right_width_0_height_0__pin_12_;
//
input [0:0] right_width_0_height_0__pin_13_;
//
input [0:0] right_width_0_height_0__pin_14_;
//
input [0:0] right_width_0_height_0__pin_15_;
//
input [0:0] bottom_width_0_height_0__pin_16_;
//
input [0:0] bottom_width_0_height_0__pin_17_;
//
input [0:0] bottom_width_0_height_0__pin_18_;
//
input [0:0] bottom_width_0_height_0__pin_19_;
//
input [0:0] bottom_width_0_height_0__pin_20_;
//
input [0:0] bottom_width_0_height_0__pin_21_;
//
input [0:0] bottom_width_0_height_0__pin_22_;
//
input [0:0] bottom_width_0_height_0__pin_23_;
//
input [0:0] bottom_width_0_height_0__pin_24_;
//
input [0:0] bottom_width_0_height_0__pin_25_;
//
input [0:0] bottom_width_0_height_0__pin_26_;
//
input [0:0] bottom_width_0_height_0__pin_27_;
//
input [0:0] bottom_width_0_height_0__pin_28_;
//
input [0:0] bottom_width_0_height_0__pin_29_;
//
input [0:0] bottom_width_0_height_0__pin_30_;
//
input [0:0] bottom_width_0_height_0__pin_31_;
//
input [0:0] left_width_0_height_0__pin_52_;
//
input [0:0] ccff_head;
//
output [0:0] right_width_0_height_0__pin_34_upper;
//
output [0:0] right_width_0_height_0__pin_34_lower;
//
output [0:0] right_width_0_height_0__pin_35_upper;
//
output [0:0] right_width_0_height_0__pin_35_lower;
//
output [0:0] right_width_0_height_0__pin_36_upper;
//
output [0:0] right_width_0_height_0__pin_36_lower;
//
output [0:0] right_width_0_height_0__pin_37_upper;
//
output [0:0] right_width_0_height_0__pin_37_lower;
//
output [0:0] right_width_0_height_0__pin_38_upper;
//
output [0:0] right_width_0_height_0__pin_38_lower;
//
output [0:0] right_width_0_height_0__pin_39_upper;
//
output [0:0] right_width_0_height_0__pin_39_lower;
//
output [0:0] right_width_0_height_0__pin_40_upper;
//
output [0:0] right_width_0_height_0__pin_40_lower;
//
output [0:0] right_width_0_height_0__pin_41_upper;
//
output [0:0] right_width_0_height_0__pin_41_lower;
//
output [0:0] bottom_width_0_height_0__pin_42_upper;
//
output [0:0] bottom_width_0_height_0__pin_42_lower;
//
output [0:0] bottom_width_0_height_0__pin_43_upper;
//
output [0:0] bottom_width_0_height_0__pin_43_lower;
//
output [0:0] bottom_width_0_height_0__pin_44_upper;
//
output [0:0] bottom_width_0_height_0__pin_44_lower;
//
output [0:0] bottom_width_0_height_0__pin_45_upper;
//
output [0:0] bottom_width_0_height_0__pin_45_lower;
//
output [0:0] bottom_width_0_height_0__pin_46_upper;
//
output [0:0] bottom_width_0_height_0__pin_46_lower;
//
output [0:0] bottom_width_0_height_0__pin_47_upper;
//
output [0:0] bottom_width_0_height_0__pin_47_lower;
//
output [0:0] bottom_width_0_height_0__pin_48_upper;
//
output [0:0] bottom_width_0_height_0__pin_48_lower;
//
output [0:0] bottom_width_0_height_0__pin_49_upper;
//
output [0:0] bottom_width_0_height_0__pin_49_lower;
//
output [0:0] bottom_width_0_height_0__pin_50_;
//
output [0:0] bottom_width_0_height_0__pin_51_;
//
output [0:0] ccff_tail;
//
//
//
//
//
//
//
assign right_width_0_height_0__pin_34_lower[0] = right_width_0_height_0__pin_34_upper[0];
assign right_width_0_height_0__pin_35_lower[0] = right_width_0_height_0__pin_35_upper[0];
assign right_width_0_height_0__pin_36_lower[0] = right_width_0_height_0__pin_36_upper[0];
assign right_width_0_height_0__pin_37_lower[0] = right_width_0_height_0__pin_37_upper[0];
assign right_width_0_height_0__pin_38_lower[0] = right_width_0_height_0__pin_38_upper[0];
assign right_width_0_height_0__pin_39_lower[0] = right_width_0_height_0__pin_39_upper[0];
assign right_width_0_height_0__pin_40_lower[0] = right_width_0_height_0__pin_40_upper[0];
assign right_width_0_height_0__pin_41_lower[0] = right_width_0_height_0__pin_41_upper[0];
assign bottom_width_0_height_0__pin_42_lower[0] = bottom_width_0_height_0__pin_42_upper[0];
assign bottom_width_0_height_0__pin_43_lower[0] = bottom_width_0_height_0__pin_43_upper[0];
assign bottom_width_0_height_0__pin_44_lower[0] = bottom_width_0_height_0__pin_44_upper[0];
assign bottom_width_0_height_0__pin_45_lower[0] = bottom_width_0_height_0__pin_45_upper[0];
assign bottom_width_0_height_0__pin_46_lower[0] = bottom_width_0_height_0__pin_46_upper[0];
assign bottom_width_0_height_0__pin_47_lower[0] = bottom_width_0_height_0__pin_47_upper[0];
assign bottom_width_0_height_0__pin_48_lower[0] = bottom_width_0_height_0__pin_48_upper[0];
assign bottom_width_0_height_0__pin_49_lower[0] = bottom_width_0_height_0__pin_49_upper[0];
//
logical_tile_clb_mode_clb_ logical_tile_clb_mode_clb__0 (
.prog_clk(prog_clk[0]),
.Test_en(Test_en[0]),
.clk(clk[0]),
.clb_I0({right_width_0_height_0__pin_0_[0], right_width_0_height_0__pin_1_[0], right_width_0_height_0__pin_2_[0], right_width_0_height_0__pin_3_[0]}),
.clb_I1({right_width_0_height_0__pin_4_[0], right_width_0_height_0__pin_5_[0], right_width_0_height_0__pin_6_[0], right_width_0_height_0__pin_7_[0]}),
.clb_I2({right_width_0_height_0__pin_8_[0], right_width_0_height_0__pin_9_[0], right_width_0_height_0__pin_10_[0], right_width_0_height_0__pin_11_[0]}),
.clb_I3({right_width_0_height_0__pin_12_[0], right_width_0_height_0__pin_13_[0], right_width_0_height_0__pin_14_[0], right_width_0_height_0__pin_15_[0]}),
.clb_I4({bottom_width_0_height_0__pin_16_[0], bottom_width_0_height_0__pin_17_[0], bottom_width_0_height_0__pin_18_[0], bottom_width_0_height_0__pin_19_[0]}),
.clb_I5({bottom_width_0_height_0__pin_20_[0], bottom_width_0_height_0__pin_21_[0], bottom_width_0_height_0__pin_22_[0], bottom_width_0_height_0__pin_23_[0]}),
.clb_I6({bottom_width_0_height_0__pin_24_[0], bottom_width_0_height_0__pin_25_[0], bottom_width_0_height_0__pin_26_[0], bottom_width_0_height_0__pin_27_[0]}),
.clb_I7({bottom_width_0_height_0__pin_28_[0], bottom_width_0_height_0__pin_29_[0], bottom_width_0_height_0__pin_30_[0], bottom_width_0_height_0__pin_31_[0]}),
.clb_regin(top_width_0_height_0__pin_32_[0]),
.clb_scin(top_width_0_height_0__pin_33_[0]),
.clb_clk(left_width_0_height_0__pin_52_[0]),
.ccff_head(ccff_head[0]),
.clb_O({right_width_0_height_0__pin_34_upper[0], right_width_0_height_0__pin_35_upper[0], right_width_0_height_0__pin_36_upper[0], right_width_0_height_0__pin_37_upper[0], right_width_0_height_0__pin_38_upper[0], right_width_0_height_0__pin_39_upper[0], right_width_0_height_0__pin_40_upper[0], right_width_0_height_0__pin_41_upper[0], bottom_width_0_height_0__pin_42_upper[0], bottom_width_0_height_0__pin_43_upper[0], bottom_width_0_height_0__pin_44_upper[0], bottom_width_0_height_0__pin_45_upper[0], bottom_width_0_height_0__pin_46_upper[0], bottom_width_0_height_0__pin_47_upper[0], bottom_width_0_height_0__pin_48_upper[0], bottom_width_0_height_0__pin_49_upper[0]}),
.clb_regout(bottom_width_0_height_0__pin_50_[0]),
.clb_scout(bottom_width_0_height_0__pin_51_[0]),
.ccff_tail(ccff_tail[0]));
endmodule
//
//

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
//
module grid_io_bottom(prog_clk,
gfpga_pad_GPIO_A,
gfpga_pad_GPIO_IE,
gfpga_pad_GPIO_OE,
gfpga_pad_GPIO_Y,
top_width_0_height_0__pin_0_,
ccff_head,
top_width_0_height_0__pin_1_upper,
top_width_0_height_0__pin_1_lower,
ccff_tail);
//
input [0:0] prog_clk;
//
output [0:0] gfpga_pad_GPIO_A;
//
output [0:0] gfpga_pad_GPIO_IE;
//
output [0:0] gfpga_pad_GPIO_OE;
//
inout [0:0] gfpga_pad_GPIO_Y;
//
input [0:0] top_width_0_height_0__pin_0_;
//
input [0:0] ccff_head;
//
output [0:0] top_width_0_height_0__pin_1_upper;
//
output [0:0] top_width_0_height_0__pin_1_lower;
//
output [0:0] ccff_tail;
//
//
//
//
//
//
//
assign top_width_0_height_0__pin_1_lower[0] = top_width_0_height_0__pin_1_upper[0];
//
logical_tile_io_mode_io_ logical_tile_io_mode_io__0 (
.prog_clk(prog_clk[0]),
.gfpga_pad_GPIO_A(gfpga_pad_GPIO_A[0]),
.gfpga_pad_GPIO_IE(gfpga_pad_GPIO_IE[0]),
.gfpga_pad_GPIO_OE(gfpga_pad_GPIO_OE[0]),
.gfpga_pad_GPIO_Y(gfpga_pad_GPIO_Y[0]),
.io_outpad(top_width_0_height_0__pin_0_[0]),
.ccff_head(ccff_head[0]),
.io_inpad(top_width_0_height_0__pin_1_upper[0]),
.ccff_tail(ccff_tail[0]));
endmodule
//
//

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
//
module grid_io_left(prog_clk,
gfpga_pad_GPIO_A,
gfpga_pad_GPIO_IE,
gfpga_pad_GPIO_OE,
gfpga_pad_GPIO_Y,
right_width_0_height_0__pin_0_,
ccff_head,
right_width_0_height_0__pin_1_upper,
right_width_0_height_0__pin_1_lower,
ccff_tail);
//
input [0:0] prog_clk;
//
output [0:0] gfpga_pad_GPIO_A;
//
output [0:0] gfpga_pad_GPIO_IE;
//
output [0:0] gfpga_pad_GPIO_OE;
//
inout [0:0] gfpga_pad_GPIO_Y;
//
input [0:0] right_width_0_height_0__pin_0_;
//
input [0:0] ccff_head;
//
output [0:0] right_width_0_height_0__pin_1_upper;
//
output [0:0] right_width_0_height_0__pin_1_lower;
//
output [0:0] ccff_tail;
//
//
//
//
//
//
//
assign right_width_0_height_0__pin_1_lower[0] = right_width_0_height_0__pin_1_upper[0];
//
logical_tile_io_mode_io_ logical_tile_io_mode_io__0 (
.prog_clk(prog_clk[0]),
.gfpga_pad_GPIO_A(gfpga_pad_GPIO_A[0]),
.gfpga_pad_GPIO_IE(gfpga_pad_GPIO_IE[0]),
.gfpga_pad_GPIO_OE(gfpga_pad_GPIO_OE[0]),
.gfpga_pad_GPIO_Y(gfpga_pad_GPIO_Y[0]),
.io_outpad(right_width_0_height_0__pin_0_[0]),
.ccff_head(ccff_head[0]),
.io_inpad(right_width_0_height_0__pin_1_upper[0]),
.ccff_tail(ccff_tail[0]));
endmodule
//
//

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
//
module grid_io_right(prog_clk,
gfpga_pad_GPIO_A,
gfpga_pad_GPIO_IE,
gfpga_pad_GPIO_OE,
gfpga_pad_GPIO_Y,
left_width_0_height_0__pin_0_,
ccff_head,
left_width_0_height_0__pin_1_upper,
left_width_0_height_0__pin_1_lower,
ccff_tail);
//
input [0:0] prog_clk;
//
output [0:0] gfpga_pad_GPIO_A;
//
output [0:0] gfpga_pad_GPIO_IE;
//
output [0:0] gfpga_pad_GPIO_OE;
//
inout [0:0] gfpga_pad_GPIO_Y;
//
input [0:0] left_width_0_height_0__pin_0_;
//
input [0:0] ccff_head;
//
output [0:0] left_width_0_height_0__pin_1_upper;
//
output [0:0] left_width_0_height_0__pin_1_lower;
//
output [0:0] ccff_tail;
//
//
//
//
//
//
//
assign left_width_0_height_0__pin_1_lower[0] = left_width_0_height_0__pin_1_upper[0];
//
logical_tile_io_mode_io_ logical_tile_io_mode_io__0 (
.prog_clk(prog_clk[0]),
.gfpga_pad_GPIO_A(gfpga_pad_GPIO_A[0]),
.gfpga_pad_GPIO_IE(gfpga_pad_GPIO_IE[0]),
.gfpga_pad_GPIO_OE(gfpga_pad_GPIO_OE[0]),
.gfpga_pad_GPIO_Y(gfpga_pad_GPIO_Y[0]),
.io_outpad(left_width_0_height_0__pin_0_[0]),
.ccff_head(ccff_head[0]),
.io_inpad(left_width_0_height_0__pin_1_upper[0]),
.ccff_tail(ccff_tail[0]));
endmodule
//
//

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
//
module grid_io_top(prog_clk,
gfpga_pad_GPIO_A,
gfpga_pad_GPIO_IE,
gfpga_pad_GPIO_OE,
gfpga_pad_GPIO_Y,
bottom_width_0_height_0__pin_0_,
ccff_head,
bottom_width_0_height_0__pin_1_upper,
bottom_width_0_height_0__pin_1_lower,
ccff_tail);
//
input [0:0] prog_clk;
//
output [0:0] gfpga_pad_GPIO_A;
//
output [0:0] gfpga_pad_GPIO_IE;
//
output [0:0] gfpga_pad_GPIO_OE;
//
inout [0:0] gfpga_pad_GPIO_Y;
//
input [0:0] bottom_width_0_height_0__pin_0_;
//
input [0:0] ccff_head;
//
output [0:0] bottom_width_0_height_0__pin_1_upper;
//
output [0:0] bottom_width_0_height_0__pin_1_lower;
//
output [0:0] ccff_tail;
//
//
//
//
//
//
//
assign bottom_width_0_height_0__pin_1_lower[0] = bottom_width_0_height_0__pin_1_upper[0];
//
logical_tile_io_mode_io_ logical_tile_io_mode_io__0 (
.prog_clk(prog_clk[0]),
.gfpga_pad_GPIO_A(gfpga_pad_GPIO_A[0]),
.gfpga_pad_GPIO_IE(gfpga_pad_GPIO_IE[0]),
.gfpga_pad_GPIO_OE(gfpga_pad_GPIO_OE[0]),
.gfpga_pad_GPIO_Y(gfpga_pad_GPIO_Y[0]),
.io_outpad(bottom_width_0_height_0__pin_0_[0]),
.ccff_head(ccff_head[0]),
.io_inpad(bottom_width_0_height_0__pin_1_upper[0]),
.ccff_tail(ccff_tail[0]));
endmodule
//
//

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
//
module logical_tile_clb_mode_clb_(prog_clk,
Test_en,
clk,
clb_I0,
clb_I1,
clb_I2,
clb_I3,
clb_I4,
clb_I5,
clb_I6,
clb_I7,
clb_regin,
clb_scin,
clb_clk,
ccff_head,
clb_O,
clb_regout,
clb_scout,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:0] Test_en;
//
input [0:0] clk;
//
input [0:3] clb_I0;
//
input [0:3] clb_I1;
//
input [0:3] clb_I2;
//
input [0:3] clb_I3;
//
input [0:3] clb_I4;
//
input [0:3] clb_I5;
//
input [0:3] clb_I6;
//
input [0:3] clb_I7;
//
input [0:0] clb_regin;
//
input [0:0] clb_scin;
//
input [0:0] clb_clk;
//
input [0:0] ccff_head;
//
output [0:15] clb_O;
//
output [0:0] clb_regout;
//
output [0:0] clb_scout;
//
output [0:0] ccff_tail;
//
wire [0:3] clb_I0;
wire [0:3] clb_I1;
wire [0:3] clb_I2;
wire [0:3] clb_I3;
wire [0:3] clb_I4;
wire [0:3] clb_I5;
wire [0:3] clb_I6;
wire [0:3] clb_I7;
wire [0:0] clb_regin;
wire [0:0] clb_scin;
wire [0:0] clb_clk;
wire [0:15] clb_O;
wire [0:0] clb_regout;
wire [0:0] clb_scout;
//
//
//
wire [0:0] direct_interc_18_out;
wire [0:0] direct_interc_19_out;
wire [0:0] direct_interc_20_out;
wire [0:0] direct_interc_21_out;
wire [0:0] direct_interc_22_out;
wire [0:0] direct_interc_23_out;
wire [0:0] direct_interc_24_out;
wire [0:0] direct_interc_25_out;
wire [0:0] direct_interc_26_out;
wire [0:0] direct_interc_27_out;
wire [0:0] direct_interc_28_out;
wire [0:0] direct_interc_29_out;
wire [0:0] direct_interc_30_out;
wire [0:0] direct_interc_31_out;
wire [0:0] direct_interc_32_out;
wire [0:0] direct_interc_33_out;
wire [0:0] direct_interc_34_out;
wire [0:0] direct_interc_35_out;
wire [0:0] direct_interc_36_out;
wire [0:0] direct_interc_37_out;
wire [0:0] direct_interc_38_out;
wire [0:0] direct_interc_39_out;
wire [0:0] direct_interc_40_out;
wire [0:0] direct_interc_41_out;
wire [0:0] direct_interc_42_out;
wire [0:0] direct_interc_43_out;
wire [0:0] direct_interc_44_out;
wire [0:0] direct_interc_45_out;
wire [0:0] direct_interc_46_out;
wire [0:0] direct_interc_47_out;
wire [0:0] direct_interc_48_out;
wire [0:0] direct_interc_49_out;
wire [0:0] direct_interc_50_out;
wire [0:0] direct_interc_51_out;
wire [0:0] direct_interc_52_out;
wire [0:0] direct_interc_53_out;
wire [0:0] direct_interc_54_out;
wire [0:0] direct_interc_55_out;
wire [0:0] direct_interc_56_out;
wire [0:0] direct_interc_57_out;
wire [0:0] direct_interc_58_out;
wire [0:0] direct_interc_59_out;
wire [0:0] direct_interc_60_out;
wire [0:0] direct_interc_61_out;
wire [0:0] direct_interc_62_out;
wire [0:0] direct_interc_63_out;
wire [0:0] direct_interc_64_out;
wire [0:0] direct_interc_65_out;
wire [0:0] direct_interc_66_out;
wire [0:0] direct_interc_67_out;
wire [0:0] direct_interc_68_out;
wire [0:0] direct_interc_69_out;
wire [0:0] direct_interc_70_out;
wire [0:0] direct_interc_71_out;
wire [0:0] direct_interc_72_out;
wire [0:0] direct_interc_73_out;
wire [0:0] logical_tile_clb_mode_default__fle_0_ccff_tail;
wire [0:1] logical_tile_clb_mode_default__fle_0_fle_out;
wire [0:0] logical_tile_clb_mode_default__fle_0_fle_regout;
wire [0:0] logical_tile_clb_mode_default__fle_0_fle_scout;
wire [0:0] logical_tile_clb_mode_default__fle_1_ccff_tail;
wire [0:1] logical_tile_clb_mode_default__fle_1_fle_out;
wire [0:0] logical_tile_clb_mode_default__fle_1_fle_regout;
wire [0:0] logical_tile_clb_mode_default__fle_1_fle_scout;
wire [0:0] logical_tile_clb_mode_default__fle_2_ccff_tail;
wire [0:1] logical_tile_clb_mode_default__fle_2_fle_out;
wire [0:0] logical_tile_clb_mode_default__fle_2_fle_regout;
wire [0:0] logical_tile_clb_mode_default__fle_2_fle_scout;
wire [0:0] logical_tile_clb_mode_default__fle_3_ccff_tail;
wire [0:1] logical_tile_clb_mode_default__fle_3_fle_out;
wire [0:0] logical_tile_clb_mode_default__fle_3_fle_regout;
wire [0:0] logical_tile_clb_mode_default__fle_3_fle_scout;
wire [0:0] logical_tile_clb_mode_default__fle_4_ccff_tail;
wire [0:1] logical_tile_clb_mode_default__fle_4_fle_out;
wire [0:0] logical_tile_clb_mode_default__fle_4_fle_regout;
wire [0:0] logical_tile_clb_mode_default__fle_4_fle_scout;
wire [0:0] logical_tile_clb_mode_default__fle_5_ccff_tail;
wire [0:1] logical_tile_clb_mode_default__fle_5_fle_out;
wire [0:0] logical_tile_clb_mode_default__fle_5_fle_regout;
wire [0:0] logical_tile_clb_mode_default__fle_5_fle_scout;
wire [0:0] logical_tile_clb_mode_default__fle_6_ccff_tail;
wire [0:1] logical_tile_clb_mode_default__fle_6_fle_out;
wire [0:0] logical_tile_clb_mode_default__fle_6_fle_regout;
wire [0:0] logical_tile_clb_mode_default__fle_6_fle_scout;
wire [0:1] logical_tile_clb_mode_default__fle_7_fle_out;
wire [0:0] logical_tile_clb_mode_default__fle_7_fle_regout;
wire [0:0] logical_tile_clb_mode_default__fle_7_fle_scout;
//
//
//
//
logical_tile_clb_mode_default__fle logical_tile_clb_mode_default__fle_0 (
.prog_clk(prog_clk[0]),
.Test_en(Test_en[0]),
.clk(clk[0]),
.fle_in({direct_interc_18_out[0], direct_interc_19_out[0], direct_interc_20_out[0], direct_interc_21_out[0]}),
.fle_regin(direct_interc_22_out[0]),
.fle_scin(direct_interc_23_out[0]),
.fle_clk(direct_interc_24_out[0]),
.ccff_head(ccff_head[0]),
.fle_out(logical_tile_clb_mode_default__fle_0_fle_out[0:1]),
.fle_regout(logical_tile_clb_mode_default__fle_0_fle_regout[0]),
.fle_scout(logical_tile_clb_mode_default__fle_0_fle_scout[0]),
.ccff_tail(logical_tile_clb_mode_default__fle_0_ccff_tail[0]));
logical_tile_clb_mode_default__fle logical_tile_clb_mode_default__fle_1 (
.prog_clk(prog_clk[0]),
.Test_en(Test_en[0]),
.clk(clk[0]),
.fle_in({direct_interc_25_out[0], direct_interc_26_out[0], direct_interc_27_out[0], direct_interc_28_out[0]}),
.fle_regin(direct_interc_29_out[0]),
.fle_scin(direct_interc_30_out[0]),
.fle_clk(direct_interc_31_out[0]),
.ccff_head(logical_tile_clb_mode_default__fle_0_ccff_tail[0]),
.fle_out(logical_tile_clb_mode_default__fle_1_fle_out[0:1]),
.fle_regout(logical_tile_clb_mode_default__fle_1_fle_regout[0]),
.fle_scout(logical_tile_clb_mode_default__fle_1_fle_scout[0]),
.ccff_tail(logical_tile_clb_mode_default__fle_1_ccff_tail[0]));
logical_tile_clb_mode_default__fle logical_tile_clb_mode_default__fle_2 (
.prog_clk(prog_clk[0]),
.Test_en(Test_en[0]),
.clk(clk[0]),
.fle_in({direct_interc_32_out[0], direct_interc_33_out[0], direct_interc_34_out[0], direct_interc_35_out[0]}),
.fle_regin(direct_interc_36_out[0]),
.fle_scin(direct_interc_37_out[0]),
.fle_clk(direct_interc_38_out[0]),
.ccff_head(logical_tile_clb_mode_default__fle_1_ccff_tail[0]),
.fle_out(logical_tile_clb_mode_default__fle_2_fle_out[0:1]),
.fle_regout(logical_tile_clb_mode_default__fle_2_fle_regout[0]),
.fle_scout(logical_tile_clb_mode_default__fle_2_fle_scout[0]),
.ccff_tail(logical_tile_clb_mode_default__fle_2_ccff_tail[0]));
logical_tile_clb_mode_default__fle logical_tile_clb_mode_default__fle_3 (
.prog_clk(prog_clk[0]),
.Test_en(Test_en[0]),
.clk(clk[0]),
.fle_in({direct_interc_39_out[0], direct_interc_40_out[0], direct_interc_41_out[0], direct_interc_42_out[0]}),
.fle_regin(direct_interc_43_out[0]),
.fle_scin(direct_interc_44_out[0]),
.fle_clk(direct_interc_45_out[0]),
.ccff_head(logical_tile_clb_mode_default__fle_2_ccff_tail[0]),
.fle_out(logical_tile_clb_mode_default__fle_3_fle_out[0:1]),
.fle_regout(logical_tile_clb_mode_default__fle_3_fle_regout[0]),
.fle_scout(logical_tile_clb_mode_default__fle_3_fle_scout[0]),
.ccff_tail(logical_tile_clb_mode_default__fle_3_ccff_tail[0]));
logical_tile_clb_mode_default__fle logical_tile_clb_mode_default__fle_4 (
.prog_clk(prog_clk[0]),
.Test_en(Test_en[0]),
.clk(clk[0]),
.fle_in({direct_interc_46_out[0], direct_interc_47_out[0], direct_interc_48_out[0], direct_interc_49_out[0]}),
.fle_regin(direct_interc_50_out[0]),
.fle_scin(direct_interc_51_out[0]),
.fle_clk(direct_interc_52_out[0]),
.ccff_head(logical_tile_clb_mode_default__fle_3_ccff_tail[0]),
.fle_out(logical_tile_clb_mode_default__fle_4_fle_out[0:1]),
.fle_regout(logical_tile_clb_mode_default__fle_4_fle_regout[0]),
.fle_scout(logical_tile_clb_mode_default__fle_4_fle_scout[0]),
.ccff_tail(logical_tile_clb_mode_default__fle_4_ccff_tail[0]));
logical_tile_clb_mode_default__fle logical_tile_clb_mode_default__fle_5 (
.prog_clk(prog_clk[0]),
.Test_en(Test_en[0]),
.clk(clk[0]),
.fle_in({direct_interc_53_out[0], direct_interc_54_out[0], direct_interc_55_out[0], direct_interc_56_out[0]}),
.fle_regin(direct_interc_57_out[0]),
.fle_scin(direct_interc_58_out[0]),
.fle_clk(direct_interc_59_out[0]),
.ccff_head(logical_tile_clb_mode_default__fle_4_ccff_tail[0]),
.fle_out(logical_tile_clb_mode_default__fle_5_fle_out[0:1]),
.fle_regout(logical_tile_clb_mode_default__fle_5_fle_regout[0]),
.fle_scout(logical_tile_clb_mode_default__fle_5_fle_scout[0]),
.ccff_tail(logical_tile_clb_mode_default__fle_5_ccff_tail[0]));
logical_tile_clb_mode_default__fle logical_tile_clb_mode_default__fle_6 (
.prog_clk(prog_clk[0]),
.Test_en(Test_en[0]),
.clk(clk[0]),
.fle_in({direct_interc_60_out[0], direct_interc_61_out[0], direct_interc_62_out[0], direct_interc_63_out[0]}),
.fle_regin(direct_interc_64_out[0]),
.fle_scin(direct_interc_65_out[0]),
.fle_clk(direct_interc_66_out[0]),
.ccff_head(logical_tile_clb_mode_default__fle_5_ccff_tail[0]),
.fle_out(logical_tile_clb_mode_default__fle_6_fle_out[0:1]),
.fle_regout(logical_tile_clb_mode_default__fle_6_fle_regout[0]),
.fle_scout(logical_tile_clb_mode_default__fle_6_fle_scout[0]),
.ccff_tail(logical_tile_clb_mode_default__fle_6_ccff_tail[0]));
logical_tile_clb_mode_default__fle logical_tile_clb_mode_default__fle_7 (
.prog_clk(prog_clk[0]),
.Test_en(Test_en[0]),
.clk(clk[0]),
.fle_in({direct_interc_67_out[0], direct_interc_68_out[0], direct_interc_69_out[0], direct_interc_70_out[0]}),
.fle_regin(direct_interc_71_out[0]),
.fle_scin(direct_interc_72_out[0]),
.fle_clk(direct_interc_73_out[0]),
.ccff_head(logical_tile_clb_mode_default__fle_6_ccff_tail[0]),
.fle_out(logical_tile_clb_mode_default__fle_7_fle_out[0:1]),
.fle_regout(logical_tile_clb_mode_default__fle_7_fle_regout[0]),
.fle_scout(logical_tile_clb_mode_default__fle_7_fle_scout[0]),
.ccff_tail(ccff_tail[0]));
direct_interc direct_interc_0_ (
.in(logical_tile_clb_mode_default__fle_0_fle_out[1]),
.out(clb_O[0]));
direct_interc direct_interc_1_ (
.in(logical_tile_clb_mode_default__fle_0_fle_out[0]),
.out(clb_O[1]));
direct_interc direct_interc_2_ (
.in(logical_tile_clb_mode_default__fle_1_fle_out[1]),
.out(clb_O[2]));
direct_interc direct_interc_3_ (
.in(logical_tile_clb_mode_default__fle_1_fle_out[0]),
.out(clb_O[3]));
direct_interc direct_interc_4_ (
.in(logical_tile_clb_mode_default__fle_2_fle_out[1]),
.out(clb_O[4]));
direct_interc direct_interc_5_ (
.in(logical_tile_clb_mode_default__fle_2_fle_out[0]),
.out(clb_O[5]));
direct_interc direct_interc_6_ (
.in(logical_tile_clb_mode_default__fle_3_fle_out[1]),
.out(clb_O[6]));
direct_interc direct_interc_7_ (
.in(logical_tile_clb_mode_default__fle_3_fle_out[0]),
.out(clb_O[7]));
direct_interc direct_interc_8_ (
.in(logical_tile_clb_mode_default__fle_4_fle_out[1]),
.out(clb_O[8]));
direct_interc direct_interc_9_ (
.in(logical_tile_clb_mode_default__fle_4_fle_out[0]),
.out(clb_O[9]));
direct_interc direct_interc_10_ (
.in(logical_tile_clb_mode_default__fle_5_fle_out[1]),
.out(clb_O[10]));
direct_interc direct_interc_11_ (
.in(logical_tile_clb_mode_default__fle_5_fle_out[0]),
.out(clb_O[11]));
direct_interc direct_interc_12_ (
.in(logical_tile_clb_mode_default__fle_6_fle_out[1]),
.out(clb_O[12]));
direct_interc direct_interc_13_ (
.in(logical_tile_clb_mode_default__fle_6_fle_out[0]),
.out(clb_O[13]));
direct_interc direct_interc_14_ (
.in(logical_tile_clb_mode_default__fle_7_fle_out[1]),
.out(clb_O[14]));
direct_interc direct_interc_15_ (
.in(logical_tile_clb_mode_default__fle_7_fle_out[0]),
.out(clb_O[15]));
direct_interc direct_interc_16_ (
.in(logical_tile_clb_mode_default__fle_7_fle_regout[0]),
.out(clb_regout[0]));
direct_interc direct_interc_17_ (
.in(logical_tile_clb_mode_default__fle_7_fle_scout[0]),
.out(clb_scout[0]));
direct_interc direct_interc_18_ (
.in(clb_I0[0]),
.out(direct_interc_18_out[0]));
direct_interc direct_interc_19_ (
.in(clb_I0[1]),
.out(direct_interc_19_out[0]));
direct_interc direct_interc_20_ (
.in(clb_I0[2]),
.out(direct_interc_20_out[0]));
direct_interc direct_interc_21_ (
.in(clb_I0[3]),
.out(direct_interc_21_out[0]));
direct_interc direct_interc_22_ (
.in(clb_regin[0]),
.out(direct_interc_22_out[0]));
direct_interc direct_interc_23_ (
.in(clb_scin[0]),
.out(direct_interc_23_out[0]));
direct_interc direct_interc_24_ (
.in(clb_clk[0]),
.out(direct_interc_24_out[0]));
direct_interc direct_interc_25_ (
.in(clb_I1[0]),
.out(direct_interc_25_out[0]));
direct_interc direct_interc_26_ (
.in(clb_I1[1]),
.out(direct_interc_26_out[0]));
direct_interc direct_interc_27_ (
.in(clb_I1[2]),
.out(direct_interc_27_out[0]));
direct_interc direct_interc_28_ (
.in(clb_I1[3]),
.out(direct_interc_28_out[0]));
direct_interc direct_interc_29_ (
.in(logical_tile_clb_mode_default__fle_0_fle_regout[0]),
.out(direct_interc_29_out[0]));
direct_interc direct_interc_30_ (
.in(logical_tile_clb_mode_default__fle_0_fle_scout[0]),
.out(direct_interc_30_out[0]));
direct_interc direct_interc_31_ (
.in(clb_clk[0]),
.out(direct_interc_31_out[0]));
direct_interc direct_interc_32_ (
.in(clb_I2[0]),
.out(direct_interc_32_out[0]));
direct_interc direct_interc_33_ (
.in(clb_I2[1]),
.out(direct_interc_33_out[0]));
direct_interc direct_interc_34_ (
.in(clb_I2[2]),
.out(direct_interc_34_out[0]));
direct_interc direct_interc_35_ (
.in(clb_I2[3]),
.out(direct_interc_35_out[0]));
direct_interc direct_interc_36_ (
.in(logical_tile_clb_mode_default__fle_1_fle_regout[0]),
.out(direct_interc_36_out[0]));
direct_interc direct_interc_37_ (
.in(logical_tile_clb_mode_default__fle_1_fle_scout[0]),
.out(direct_interc_37_out[0]));
direct_interc direct_interc_38_ (
.in(clb_clk[0]),
.out(direct_interc_38_out[0]));
direct_interc direct_interc_39_ (
.in(clb_I3[0]),
.out(direct_interc_39_out[0]));
direct_interc direct_interc_40_ (
.in(clb_I3[1]),
.out(direct_interc_40_out[0]));
direct_interc direct_interc_41_ (
.in(clb_I3[2]),
.out(direct_interc_41_out[0]));
direct_interc direct_interc_42_ (
.in(clb_I3[3]),
.out(direct_interc_42_out[0]));
direct_interc direct_interc_43_ (
.in(logical_tile_clb_mode_default__fle_2_fle_regout[0]),
.out(direct_interc_43_out[0]));
direct_interc direct_interc_44_ (
.in(logical_tile_clb_mode_default__fle_2_fle_scout[0]),
.out(direct_interc_44_out[0]));
direct_interc direct_interc_45_ (
.in(clb_clk[0]),
.out(direct_interc_45_out[0]));
direct_interc direct_interc_46_ (
.in(clb_I4[0]),
.out(direct_interc_46_out[0]));
direct_interc direct_interc_47_ (
.in(clb_I4[1]),
.out(direct_interc_47_out[0]));
direct_interc direct_interc_48_ (
.in(clb_I4[2]),
.out(direct_interc_48_out[0]));
direct_interc direct_interc_49_ (
.in(clb_I4[3]),
.out(direct_interc_49_out[0]));
direct_interc direct_interc_50_ (
.in(logical_tile_clb_mode_default__fle_3_fle_regout[0]),
.out(direct_interc_50_out[0]));
direct_interc direct_interc_51_ (
.in(logical_tile_clb_mode_default__fle_3_fle_scout[0]),
.out(direct_interc_51_out[0]));
direct_interc direct_interc_52_ (
.in(clb_clk[0]),
.out(direct_interc_52_out[0]));
direct_interc direct_interc_53_ (
.in(clb_I5[0]),
.out(direct_interc_53_out[0]));
direct_interc direct_interc_54_ (
.in(clb_I5[1]),
.out(direct_interc_54_out[0]));
direct_interc direct_interc_55_ (
.in(clb_I5[2]),
.out(direct_interc_55_out[0]));
direct_interc direct_interc_56_ (
.in(clb_I5[3]),
.out(direct_interc_56_out[0]));
direct_interc direct_interc_57_ (
.in(logical_tile_clb_mode_default__fle_4_fle_regout[0]),
.out(direct_interc_57_out[0]));
direct_interc direct_interc_58_ (
.in(logical_tile_clb_mode_default__fle_4_fle_scout[0]),
.out(direct_interc_58_out[0]));
direct_interc direct_interc_59_ (
.in(clb_clk[0]),
.out(direct_interc_59_out[0]));
direct_interc direct_interc_60_ (
.in(clb_I6[0]),
.out(direct_interc_60_out[0]));
direct_interc direct_interc_61_ (
.in(clb_I6[1]),
.out(direct_interc_61_out[0]));
direct_interc direct_interc_62_ (
.in(clb_I6[2]),
.out(direct_interc_62_out[0]));
direct_interc direct_interc_63_ (
.in(clb_I6[3]),
.out(direct_interc_63_out[0]));
direct_interc direct_interc_64_ (
.in(logical_tile_clb_mode_default__fle_5_fle_regout[0]),
.out(direct_interc_64_out[0]));
direct_interc direct_interc_65_ (
.in(logical_tile_clb_mode_default__fle_5_fle_scout[0]),
.out(direct_interc_65_out[0]));
direct_interc direct_interc_66_ (
.in(clb_clk[0]),
.out(direct_interc_66_out[0]));
direct_interc direct_interc_67_ (
.in(clb_I7[0]),
.out(direct_interc_67_out[0]));
direct_interc direct_interc_68_ (
.in(clb_I7[1]),
.out(direct_interc_68_out[0]));
direct_interc direct_interc_69_ (
.in(clb_I7[2]),
.out(direct_interc_69_out[0]));
direct_interc direct_interc_70_ (
.in(clb_I7[3]),
.out(direct_interc_70_out[0]));
direct_interc direct_interc_71_ (
.in(logical_tile_clb_mode_default__fle_6_fle_regout[0]),
.out(direct_interc_71_out[0]));
direct_interc direct_interc_72_ (
.in(logical_tile_clb_mode_default__fle_6_fle_scout[0]),
.out(direct_interc_72_out[0]));
direct_interc direct_interc_73_ (
.in(clb_clk[0]),
.out(direct_interc_73_out[0]));
endmodule
//
//

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
//
module logical_tile_clb_mode_default__fle(prog_clk,
Test_en,
clk,
fle_in,
fle_regin,
fle_scin,
fle_clk,
ccff_head,
fle_out,
fle_regout,
fle_scout,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:0] Test_en;
//
input [0:0] clk;
//
input [0:3] fle_in;
//
input [0:0] fle_regin;
//
input [0:0] fle_scin;
//
input [0:0] fle_clk;
//
input [0:0] ccff_head;
//
output [0:1] fle_out;
//
output [0:0] fle_regout;
//
output [0:0] fle_scout;
//
output [0:0] ccff_tail;
//
wire [0:3] fle_in;
wire [0:0] fle_regin;
wire [0:0] fle_scin;
wire [0:0] fle_clk;
wire [0:1] fle_out;
wire [0:0] fle_regout;
wire [0:0] fle_scout;
//
//
//
wire [0:0] direct_interc_10_out;
wire [0:0] direct_interc_4_out;
wire [0:0] direct_interc_5_out;
wire [0:0] direct_interc_6_out;
wire [0:0] direct_interc_7_out;
wire [0:0] direct_interc_8_out;
wire [0:0] direct_interc_9_out;
wire [0:1] logical_tile_clb_mode_default__fle_mode_physical__fabric_0_fabric_out;
wire [0:0] logical_tile_clb_mode_default__fle_mode_physical__fabric_0_fabric_regout;
wire [0:0] logical_tile_clb_mode_default__fle_mode_physical__fabric_0_fabric_scout;
//
//
//
//
logical_tile_clb_mode_default__fle_mode_physical__fabric logical_tile_clb_mode_default__fle_mode_physical__fabric_0 (
.prog_clk(prog_clk[0]),
.Test_en(Test_en[0]),
.clk(clk[0]),
.fabric_in({direct_interc_4_out[0], direct_interc_5_out[0], direct_interc_6_out[0], direct_interc_7_out[0]}),
.fabric_regin(direct_interc_8_out[0]),
.fabric_scin(direct_interc_9_out[0]),
.fabric_clk(direct_interc_10_out[0]),
.ccff_head(ccff_head[0]),
.fabric_out(logical_tile_clb_mode_default__fle_mode_physical__fabric_0_fabric_out[0:1]),
.fabric_regout(logical_tile_clb_mode_default__fle_mode_physical__fabric_0_fabric_regout[0]),
.fabric_scout(logical_tile_clb_mode_default__fle_mode_physical__fabric_0_fabric_scout[0]),
.ccff_tail(ccff_tail[0]));
direct_interc direct_interc_0_ (
.in(logical_tile_clb_mode_default__fle_mode_physical__fabric_0_fabric_out[0]),
.out(fle_out[0]));
direct_interc direct_interc_1_ (
.in(logical_tile_clb_mode_default__fle_mode_physical__fabric_0_fabric_out[1]),
.out(fle_out[1]));
direct_interc direct_interc_2_ (
.in(logical_tile_clb_mode_default__fle_mode_physical__fabric_0_fabric_regout[0]),
.out(fle_regout[0]));
direct_interc direct_interc_3_ (
.in(logical_tile_clb_mode_default__fle_mode_physical__fabric_0_fabric_scout[0]),
.out(fle_scout[0]));
direct_interc direct_interc_4_ (
.in(fle_in[0]),
.out(direct_interc_4_out[0]));
direct_interc direct_interc_5_ (
.in(fle_in[1]),
.out(direct_interc_5_out[0]));
direct_interc direct_interc_6_ (
.in(fle_in[2]),
.out(direct_interc_6_out[0]));
direct_interc direct_interc_7_ (
.in(fle_in[3]),
.out(direct_interc_7_out[0]));
direct_interc direct_interc_8_ (
.in(fle_regin[0]),
.out(direct_interc_8_out[0]));
direct_interc direct_interc_9_ (
.in(fle_scin[0]),
.out(direct_interc_9_out[0]));
direct_interc direct_interc_10_ (
.in(fle_clk[0]),
.out(direct_interc_10_out[0]));
endmodule
//
//

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
//
module logical_tile_clb_mode_default__fle_mode_physical__fabric(prog_clk,
Test_en,
clk,
fabric_in,
fabric_regin,
fabric_scin,
fabric_clk,
ccff_head,
fabric_out,
fabric_regout,
fabric_scout,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:0] Test_en;
//
input [0:0] clk;
//
input [0:3] fabric_in;
//
input [0:0] fabric_regin;
//
input [0:0] fabric_scin;
//
input [0:0] fabric_clk;
//
input [0:0] ccff_head;
//
output [0:1] fabric_out;
//
output [0:0] fabric_regout;
//
output [0:0] fabric_scout;
//
output [0:0] ccff_tail;
//
wire [0:3] fabric_in;
wire [0:0] fabric_regin;
wire [0:0] fabric_scin;
wire [0:0] fabric_clk;
wire [0:1] fabric_out;
wire [0:0] fabric_regout;
wire [0:0] fabric_scout;
//
//
//
wire [0:0] direct_interc_10_out;
wire [0:0] direct_interc_2_out;
wire [0:0] direct_interc_3_out;
wire [0:0] direct_interc_4_out;
wire [0:0] direct_interc_5_out;
wire [0:0] direct_interc_6_out;
wire [0:0] direct_interc_7_out;
wire [0:0] direct_interc_8_out;
wire [0:0] direct_interc_9_out;
wire [0:0] logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_0_ff_Q;
wire [0:0] logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_1_ff_Q;
wire [0:0] logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_0_ccff_tail;
wire [0:1] logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_0_frac_logic_out;
wire [0:1] mux_tree_size2_0_sram;
wire [0:1] mux_tree_size2_0_sram_inv;
wire [0:1] mux_tree_size2_1_sram;
wire [0:1] mux_tree_size2_1_sram_inv;
wire [0:0] mux_tree_size2_2_out;
wire [0:1] mux_tree_size2_2_sram;
wire [0:1] mux_tree_size2_2_sram_inv;
wire [0:0] mux_tree_size2_mem_0_ccff_tail;
wire [0:0] mux_tree_size2_mem_1_ccff_tail;
//
//
//
//
logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_0 (
.prog_clk(prog_clk[0]),
.frac_logic_in({direct_interc_2_out[0], direct_interc_3_out[0], direct_interc_4_out[0], direct_interc_5_out[0]}),
.ccff_head(ccff_head[0]),
.frac_logic_out(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_0_frac_logic_out[0:1]),
.ccff_tail(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_0_ccff_tail[0]));
logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_0 (
.Test_en(Test_en[0]),
.clk(clk[0]),
.ff_D(mux_tree_size2_2_out[0]),
.ff_DI(direct_interc_6_out[0]),
.ff_Q(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_0_ff_Q[0]),
.ff_clk(direct_interc_7_out[0]));
logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_1 (
.Test_en(Test_en[0]),
.clk(clk[0]),
.ff_D(direct_interc_8_out[0]),
.ff_DI(direct_interc_9_out[0]),
.ff_Q(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_1_ff_Q[0]),
.ff_clk(direct_interc_10_out[0]));
mux_tree_size2 mux_fabric_out_0 (
.in({logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_0_ff_Q[0], logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_0_frac_logic_out[0]}),
.sram(mux_tree_size2_0_sram[0:1]),
.sram_inv(mux_tree_size2_0_sram_inv[0:1]),
.out(fabric_out[0]));
mux_tree_size2 mux_fabric_out_1 (
.in({logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_1_ff_Q[0], logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_0_frac_logic_out[1]}),
.sram(mux_tree_size2_1_sram[0:1]),
.sram_inv(mux_tree_size2_1_sram_inv[0:1]),
.out(fabric_out[1]));
mux_tree_size2 mux_ff_0_D_0 (
.in({logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_0_frac_logic_out[0], fabric_regin[0]}),
.sram(mux_tree_size2_2_sram[0:1]),
.sram_inv(mux_tree_size2_2_sram_inv[0:1]),
.out(mux_tree_size2_2_out[0]));
mux_tree_size2_mem mem_fabric_out_0 (
.prog_clk(prog_clk[0]),
.ccff_head(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_0_ccff_tail[0]),
.ccff_tail(mux_tree_size2_mem_0_ccff_tail[0]),
.mem_out(mux_tree_size2_0_sram[0:1]),
.mem_outb(mux_tree_size2_0_sram_inv[0:1]));
mux_tree_size2_mem mem_fabric_out_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_size2_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_size2_mem_1_ccff_tail[0]),
.mem_out(mux_tree_size2_1_sram[0:1]),
.mem_outb(mux_tree_size2_1_sram_inv[0:1]));
mux_tree_size2_mem mem_ff_0_D_0 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_size2_mem_1_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_size2_2_sram[0:1]),
.mem_outb(mux_tree_size2_2_sram_inv[0:1]));
direct_interc direct_interc_0_ (
.in(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_1_ff_Q[0]),
.out(fabric_regout[0]));
direct_interc direct_interc_1_ (
.in(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_1_ff_Q[0]),
.out(fabric_scout[0]));
direct_interc direct_interc_2_ (
.in(fabric_in[0]),
.out(direct_interc_2_out[0]));
direct_interc direct_interc_3_ (
.in(fabric_in[1]),
.out(direct_interc_3_out[0]));
direct_interc direct_interc_4_ (
.in(fabric_in[2]),
.out(direct_interc_4_out[0]));
direct_interc direct_interc_5_ (
.in(fabric_in[3]),
.out(direct_interc_5_out[0]));
direct_interc direct_interc_6_ (
.in(fabric_scin[0]),
.out(direct_interc_6_out[0]));
direct_interc direct_interc_7_ (
.in(fabric_clk[0]),
.out(direct_interc_7_out[0]));
direct_interc direct_interc_8_ (
.in(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_0_frac_logic_out[1]),
.out(direct_interc_8_out[0]));
direct_interc direct_interc_9_ (
.in(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_0_ff_Q[0]),
.out(direct_interc_9_out[0]));
direct_interc direct_interc_10_ (
.in(fabric_clk[0]),
.out(direct_interc_10_out[0]));
endmodule
//
//

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff(Test_en,
clk,
ff_D,
ff_DI,
ff_Q,
ff_clk);
//
input [0:0] Test_en;
//
input [0:0] clk;
//
input [0:0] ff_D;
//
input [0:0] ff_DI;
//
output [0:0] ff_Q;
//
input [0:0] ff_clk;
//
wire [0:0] ff_D;
wire [0:0] ff_DI;
wire [0:0] ff_Q;
wire [0:0] ff_clk;
//
//
//
//
//
//
//
sky130_fd_sc_hd__sdfxbp_1 sky130_fd_sc_hd__sdfxbp_1_0_ (
.SCE(Test_en[0]),
.CLK(clk[0]),
.D(ff_D[0]),
.SCD(ff_DI[0]),
.Q(ff_Q[0]));
endmodule
//

99
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
//
module logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic(prog_clk,
frac_logic_in,
ccff_head,
frac_logic_out,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:3] frac_logic_in;
//
input [0:0] ccff_head;
//
output [0:1] frac_logic_out;
//
output [0:0] ccff_tail;
//
wire [0:3] frac_logic_in;
wire [0:1] frac_logic_out;
//
//
//
wire [0:0] direct_interc_1_out;
wire [0:0] direct_interc_2_out;
wire [0:0] direct_interc_3_out;
wire [0:0] direct_interc_4_out;
wire [0:0] logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4_0_ccff_tail;
wire [0:1] logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4_0_frac_lut4_lut3_out;
wire [0:0] logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4_0_frac_lut4_lut4_out;
wire [0:1] mux_tree_size2_0_sram;
wire [0:1] mux_tree_size2_0_sram_inv;
//
//
//
//
logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4 logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4_0 (
.prog_clk(prog_clk[0]),
.frac_lut4_in({direct_interc_1_out[0], direct_interc_2_out[0], direct_interc_3_out[0], direct_interc_4_out[0]}),
.ccff_head(ccff_head[0]),
.frac_lut4_lut3_out(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4_0_frac_lut4_lut3_out[0:1]),
.frac_lut4_lut4_out(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4_0_frac_lut4_lut4_out[0]),
.ccff_tail(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4_0_ccff_tail[0]));
mux_tree_size2 mux_frac_logic_out_0 (
.in({logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4_0_frac_lut4_lut4_out[0], logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4_0_frac_lut4_lut3_out[0]}),
.sram(mux_tree_size2_0_sram[0:1]),
.sram_inv(mux_tree_size2_0_sram_inv[0:1]),
.out(frac_logic_out[0]));
mux_tree_size2_mem mem_frac_logic_out_0 (
.prog_clk(prog_clk[0]),
.ccff_head(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4_0_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_size2_0_sram[0:1]),
.mem_outb(mux_tree_size2_0_sram_inv[0:1]));
direct_interc direct_interc_0_ (
.in(logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4_0_frac_lut4_lut3_out[1]),
.out(frac_logic_out[1]));
direct_interc direct_interc_1_ (
.in(frac_logic_in[0]),
.out(direct_interc_1_out[0]));
direct_interc direct_interc_2_ (
.in(frac_logic_in[1]),
.out(direct_interc_2_out[0]));
direct_interc direct_interc_3_ (
.in(frac_logic_in[2]),
.out(direct_interc_3_out[0]));
direct_interc direct_interc_4_ (
.in(frac_logic_in[3]),
.out(direct_interc_4_out[0]));
endmodule
//
//

71
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__frac_logic_mode_default__frac_lut4(prog_clk,
frac_lut4_in,
ccff_head,
frac_lut4_lut3_out,
frac_lut4_lut4_out,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:3] frac_lut4_in;
//
input [0:0] ccff_head;
//
output [0:1] frac_lut4_lut3_out;
//
output [0:0] frac_lut4_lut4_out;
//
output [0:0] ccff_tail;
//
wire [0:3] frac_lut4_in;
wire [0:1] frac_lut4_lut3_out;
wire [0:0] frac_lut4_lut4_out;
//
//
//
wire [0:0] frac_lut4_0_mode;
wire [0:0] frac_lut4_0_mode_inv;
wire [0:15] frac_lut4_0_sram;
wire [0:15] frac_lut4_0_sram_inv;
//
//
//
//
frac_lut4 frac_lut4_0_ (
.in(frac_lut4_in[0:3]),
.sram(frac_lut4_0_sram[0:15]),
.sram_inv(frac_lut4_0_sram_inv[0:15]),
.mode(frac_lut4_0_mode[0]),
.mode_inv(frac_lut4_0_mode_inv[0]),
.lut3_out(frac_lut4_lut3_out[0:1]),
.lut4_out(frac_lut4_lut4_out[0]));
frac_lut4_sky130_fd_sc_hd__dfxbp_1_mem frac_lut4_sky130_fd_sc_hd__dfxbp_1_mem (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(ccff_tail[0]),
.mem_out({frac_lut4_0_sram[0:15], frac_lut4_0_mode[0]}),
.mem_outb({frac_lut4_0_sram_inv[0:15], frac_lut4_0_mode_inv[0]}));
endmodule
//

82
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
//
module logical_tile_io_mode_io_(prog_clk,
gfpga_pad_GPIO_A,
gfpga_pad_GPIO_IE,
gfpga_pad_GPIO_OE,
gfpga_pad_GPIO_Y,
io_outpad,
ccff_head,
io_inpad,
ccff_tail);
//
input [0:0] prog_clk;
//
output [0:0] gfpga_pad_GPIO_A;
//
output [0:0] gfpga_pad_GPIO_IE;
//
output [0:0] gfpga_pad_GPIO_OE;
//
inout [0:0] gfpga_pad_GPIO_Y;
//
input [0:0] io_outpad;
//
input [0:0] ccff_head;
//
output [0:0] io_inpad;
//
output [0:0] ccff_tail;
//
wire [0:0] io_outpad;
wire [0:0] io_inpad;
//
//
//
wire [0:0] direct_interc_1_out;
wire [0:0] logical_tile_io_mode_physical__iopad_0_iopad_inpad;
//
//
//
//
logical_tile_io_mode_physical__iopad logical_tile_io_mode_physical__iopad_0 (
.prog_clk(prog_clk[0]),
.gfpga_pad_GPIO_A(gfpga_pad_GPIO_A[0]),
.gfpga_pad_GPIO_IE(gfpga_pad_GPIO_IE[0]),
.gfpga_pad_GPIO_OE(gfpga_pad_GPIO_OE[0]),
.gfpga_pad_GPIO_Y(gfpga_pad_GPIO_Y[0]),
.iopad_outpad(direct_interc_1_out[0]),
.ccff_head(ccff_head[0]),
.iopad_inpad(logical_tile_io_mode_physical__iopad_0_iopad_inpad[0]),
.ccff_tail(ccff_tail[0]));
direct_interc direct_interc_0_ (
.in(logical_tile_io_mode_physical__iopad_0_iopad_inpad[0]),
.out(io_inpad[0]));
direct_interc direct_interc_1_ (
.in(io_outpad[0]),
.out(direct_interc_1_out[0]));
endmodule
//
//

77
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module logical_tile_io_mode_physical__iopad(prog_clk,
gfpga_pad_GPIO_A,
gfpga_pad_GPIO_IE,
gfpga_pad_GPIO_OE,
gfpga_pad_GPIO_Y,
iopad_outpad,
ccff_head,
iopad_inpad,
ccff_tail);
//
input [0:0] prog_clk;
//
output [0:0] gfpga_pad_GPIO_A;
//
output [0:0] gfpga_pad_GPIO_IE;
//
output [0:0] gfpga_pad_GPIO_OE;
//
inout [0:0] gfpga_pad_GPIO_Y;
//
input [0:0] iopad_outpad;
//
input [0:0] ccff_head;
//
output [0:0] iopad_inpad;
//
output [0:0] ccff_tail;
//
wire [0:0] iopad_outpad;
wire [0:0] iopad_inpad;
//
//
//
wire [0:0] GPIO_0_en;
wire [0:0] GPIO_sky130_fd_sc_hd__dfxbp_1_mem_undriven_mem_outb;
//
//
//
//
GPIO GPIO_0_ (
.A(gfpga_pad_GPIO_A[0]),
.IE(gfpga_pad_GPIO_IE[0]),
.OE(gfpga_pad_GPIO_OE[0]),
.Y(gfpga_pad_GPIO_Y[0]),
.in(iopad_outpad[0]),
.mem_out(GPIO_0_en[0]),
.out(iopad_inpad[0]));
GPIO_sky130_fd_sc_hd__dfxbp_1_mem GPIO_sky130_fd_sc_hd__dfxbp_1_mem (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(GPIO_0_en[0]),
.mem_outb(GPIO_sky130_fd_sc_hd__dfxbp_1_mem_undriven_mem_outb[0]));
endmodule
//

534
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module cbx_1__0_(prog_clk,
chanx_left_in,
chanx_right_in,
ccff_head,
chanx_left_out,
chanx_right_out,
top_grid_pin_16_,
top_grid_pin_17_,
top_grid_pin_18_,
top_grid_pin_19_,
top_grid_pin_20_,
top_grid_pin_21_,
top_grid_pin_22_,
top_grid_pin_23_,
top_grid_pin_24_,
top_grid_pin_25_,
top_grid_pin_26_,
top_grid_pin_27_,
top_grid_pin_28_,
top_grid_pin_29_,
top_grid_pin_30_,
top_grid_pin_31_,
bottom_grid_pin_0_,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chanx_left_in;
//
input [0:19] chanx_right_in;
//
input [0:0] ccff_head;
//
output [0:19] chanx_left_out;
//
output [0:19] chanx_right_out;
//
output [0:0] top_grid_pin_16_;
//
output [0:0] top_grid_pin_17_;
//
output [0:0] top_grid_pin_18_;
//
output [0:0] top_grid_pin_19_;
//
output [0:0] top_grid_pin_20_;
//
output [0:0] top_grid_pin_21_;
//
output [0:0] top_grid_pin_22_;
//
output [0:0] top_grid_pin_23_;
//
output [0:0] top_grid_pin_24_;
//
output [0:0] top_grid_pin_25_;
//
output [0:0] top_grid_pin_26_;
//
output [0:0] top_grid_pin_27_;
//
output [0:0] top_grid_pin_28_;
//
output [0:0] top_grid_pin_29_;
//
output [0:0] top_grid_pin_30_;
//
output [0:0] top_grid_pin_31_;
//
output [0:0] bottom_grid_pin_0_;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:3] mux_tree_tapbuf_size10_0_sram;
wire [0:3] mux_tree_tapbuf_size10_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_1_sram;
wire [0:3] mux_tree_tapbuf_size10_1_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_2_sram;
wire [0:3] mux_tree_tapbuf_size10_2_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_3_sram;
wire [0:3] mux_tree_tapbuf_size10_3_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_4_sram;
wire [0:3] mux_tree_tapbuf_size10_4_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_5_sram;
wire [0:3] mux_tree_tapbuf_size10_5_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_6_sram;
wire [0:3] mux_tree_tapbuf_size10_6_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_7_sram;
wire [0:3] mux_tree_tapbuf_size10_7_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_8_sram;
wire [0:3] mux_tree_tapbuf_size10_8_sram_inv;
wire [0:0] mux_tree_tapbuf_size10_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_6_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_7_ccff_tail;
wire [0:3] mux_tree_tapbuf_size8_0_sram;
wire [0:3] mux_tree_tapbuf_size8_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_1_sram;
wire [0:3] mux_tree_tapbuf_size8_1_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_2_sram;
wire [0:3] mux_tree_tapbuf_size8_2_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_3_sram;
wire [0:3] mux_tree_tapbuf_size8_3_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_4_sram;
wire [0:3] mux_tree_tapbuf_size8_4_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_5_sram;
wire [0:3] mux_tree_tapbuf_size8_5_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_6_sram;
wire [0:3] mux_tree_tapbuf_size8_6_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_7_sram;
wire [0:3] mux_tree_tapbuf_size8_7_sram_inv;
wire [0:0] mux_tree_tapbuf_size8_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_6_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_7_ccff_tail;
//
//
//
//
assign chanx_right_out[0] = chanx_left_in[0];
//
//
//
assign chanx_right_out[1] = chanx_left_in[1];
//
//
//
assign chanx_right_out[2] = chanx_left_in[2];
//
//
//
assign chanx_right_out[3] = chanx_left_in[3];
//
//
//
assign chanx_right_out[4] = chanx_left_in[4];
//
//
//
assign chanx_right_out[5] = chanx_left_in[5];
//
//
//
assign chanx_right_out[6] = chanx_left_in[6];
//
//
//
assign chanx_right_out[7] = chanx_left_in[7];
//
//
//
assign chanx_right_out[8] = chanx_left_in[8];
//
//
//
assign chanx_right_out[9] = chanx_left_in[9];
//
//
//
assign chanx_right_out[10] = chanx_left_in[10];
//
//
//
assign chanx_right_out[11] = chanx_left_in[11];
//
//
//
assign chanx_right_out[12] = chanx_left_in[12];
//
//
//
assign chanx_right_out[13] = chanx_left_in[13];
//
//
//
assign chanx_right_out[14] = chanx_left_in[14];
//
//
//
assign chanx_right_out[15] = chanx_left_in[15];
//
//
//
assign chanx_right_out[16] = chanx_left_in[16];
//
//
//
assign chanx_right_out[17] = chanx_left_in[17];
//
//
//
assign chanx_right_out[18] = chanx_left_in[18];
//
//
//
assign chanx_right_out[19] = chanx_left_in[19];
//
//
//
assign chanx_left_out[0] = chanx_right_in[0];
//
//
//
assign chanx_left_out[1] = chanx_right_in[1];
//
//
//
assign chanx_left_out[2] = chanx_right_in[2];
//
//
//
assign chanx_left_out[3] = chanx_right_in[3];
//
//
//
assign chanx_left_out[4] = chanx_right_in[4];
//
//
//
assign chanx_left_out[5] = chanx_right_in[5];
//
//
//
assign chanx_left_out[6] = chanx_right_in[6];
//
//
//
assign chanx_left_out[7] = chanx_right_in[7];
//
//
//
assign chanx_left_out[8] = chanx_right_in[8];
//
//
//
assign chanx_left_out[9] = chanx_right_in[9];
//
//
//
assign chanx_left_out[10] = chanx_right_in[10];
//
//
//
assign chanx_left_out[11] = chanx_right_in[11];
//
//
//
assign chanx_left_out[12] = chanx_right_in[12];
//
//
//
assign chanx_left_out[13] = chanx_right_in[13];
//
//
//
assign chanx_left_out[14] = chanx_right_in[14];
//
//
//
assign chanx_left_out[15] = chanx_right_in[15];
//
//
//
assign chanx_left_out[16] = chanx_right_in[16];
//
//
//
assign chanx_left_out[17] = chanx_right_in[17];
//
//
//
assign chanx_left_out[18] = chanx_right_in[18];
//
//
//
assign chanx_left_out[19] = chanx_right_in[19];
//
//
//
mux_tree_tapbuf_size10 mux_bottom_ipin_0 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[4], chanx_right_in[4], chanx_left_in[10], chanx_right_in[10], chanx_left_in[16], chanx_right_in[16]}),
.sram(mux_tree_tapbuf_size10_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_0_sram_inv[0:3]),
.out(top_grid_pin_16_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_1 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[5], chanx_right_in[5], chanx_left_in[11], chanx_right_in[11], chanx_left_in[17], chanx_right_in[17]}),
.sram(mux_tree_tapbuf_size10_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_1_sram_inv[0:3]),
.out(top_grid_pin_17_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_4 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[4], chanx_right_in[4], chanx_left_in[8], chanx_right_in[8], chanx_left_in[14], chanx_right_in[14]}),
.sram(mux_tree_tapbuf_size10_2_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_2_sram_inv[0:3]),
.out(top_grid_pin_20_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_5 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[5], chanx_right_in[5], chanx_left_in[9], chanx_right_in[9], chanx_left_in[15], chanx_right_in[15]}),
.sram(mux_tree_tapbuf_size10_3_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_3_sram_inv[0:3]),
.out(top_grid_pin_21_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_8 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[8], chanx_right_in[8], chanx_left_in[12], chanx_right_in[12], chanx_left_in[18], chanx_right_in[18]}),
.sram(mux_tree_tapbuf_size10_4_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_4_sram_inv[0:3]),
.out(top_grid_pin_24_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_9 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[9], chanx_right_in[9], chanx_left_in[13], chanx_right_in[13], chanx_left_in[19], chanx_right_in[19]}),
.sram(mux_tree_tapbuf_size10_5_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_5_sram_inv[0:3]),
.out(top_grid_pin_25_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_12 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[6], chanx_right_in[6], chanx_left_in[12], chanx_right_in[12], chanx_left_in[16], chanx_right_in[16]}),
.sram(mux_tree_tapbuf_size10_6_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_6_sram_inv[0:3]),
.out(top_grid_pin_28_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_13 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[7], chanx_right_in[7], chanx_left_in[13], chanx_right_in[13], chanx_left_in[17], chanx_right_in[17]}),
.sram(mux_tree_tapbuf_size10_7_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_7_sram_inv[0:3]),
.out(top_grid_pin_29_[0]));
mux_tree_tapbuf_size10 mux_top_ipin_0 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[4], chanx_right_in[4], chanx_left_in[10], chanx_right_in[10], chanx_left_in[16], chanx_right_in[16]}),
.sram(mux_tree_tapbuf_size10_8_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_8_sram_inv[0:3]),
.out(bottom_grid_pin_0_[0]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_0_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_1_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_2_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_2_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_3_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_3_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_4_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_4_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_5_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_5_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_12 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_6_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_6_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_13 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_7_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_7_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_7_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_top_ipin_0 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_7_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_8_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_8_sram_inv[0:3]));
mux_tree_tapbuf_size8 mux_bottom_ipin_2 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[6], chanx_right_in[6], chanx_left_in[14], chanx_right_in[14]}),
.sram(mux_tree_tapbuf_size8_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_0_sram_inv[0:3]),
.out(top_grid_pin_18_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_3 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[7], chanx_right_in[7], chanx_left_in[15], chanx_right_in[15]}),
.sram(mux_tree_tapbuf_size8_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_1_sram_inv[0:3]),
.out(top_grid_pin_19_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_6 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[10], chanx_right_in[10], chanx_left_in[18], chanx_right_in[18]}),
.sram(mux_tree_tapbuf_size8_2_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_2_sram_inv[0:3]),
.out(top_grid_pin_22_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_7 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[11], chanx_right_in[11], chanx_left_in[19], chanx_right_in[19]}),
.sram(mux_tree_tapbuf_size8_3_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_3_sram_inv[0:3]),
.out(top_grid_pin_23_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_10 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[6], chanx_right_in[6], chanx_left_in[14], chanx_right_in[14]}),
.sram(mux_tree_tapbuf_size8_4_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_4_sram_inv[0:3]),
.out(top_grid_pin_26_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_11 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[7], chanx_right_in[7], chanx_left_in[15], chanx_right_in[15]}),
.sram(mux_tree_tapbuf_size8_5_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_5_sram_inv[0:3]),
.out(top_grid_pin_27_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_14 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[10], chanx_right_in[10], chanx_left_in[18], chanx_right_in[18]}),
.sram(mux_tree_tapbuf_size8_6_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_6_sram_inv[0:3]),
.out(top_grid_pin_30_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_15 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[11], chanx_right_in[11], chanx_left_in[19], chanx_right_in[19]}),
.sram(mux_tree_tapbuf_size8_7_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_7_sram_inv[0:3]),
.out(top_grid_pin_31_[0]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_0_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_1_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_6 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_2_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_2_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_7 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_3_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_3_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_10 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_4_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_4_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_11 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_5_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_5_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_14 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_7_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_6_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_6_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_15 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_7_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_7_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_7_sram_inv[0:3]));
endmodule
//

515
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/cbx_1__1_.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module cbx_1__1_(prog_clk,
chanx_left_in,
chanx_right_in,
ccff_head,
chanx_left_out,
chanx_right_out,
top_grid_pin_16_,
top_grid_pin_17_,
top_grid_pin_18_,
top_grid_pin_19_,
top_grid_pin_20_,
top_grid_pin_21_,
top_grid_pin_22_,
top_grid_pin_23_,
top_grid_pin_24_,
top_grid_pin_25_,
top_grid_pin_26_,
top_grid_pin_27_,
top_grid_pin_28_,
top_grid_pin_29_,
top_grid_pin_30_,
top_grid_pin_31_,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chanx_left_in;
//
input [0:19] chanx_right_in;
//
input [0:0] ccff_head;
//
output [0:19] chanx_left_out;
//
output [0:19] chanx_right_out;
//
output [0:0] top_grid_pin_16_;
//
output [0:0] top_grid_pin_17_;
//
output [0:0] top_grid_pin_18_;
//
output [0:0] top_grid_pin_19_;
//
output [0:0] top_grid_pin_20_;
//
output [0:0] top_grid_pin_21_;
//
output [0:0] top_grid_pin_22_;
//
output [0:0] top_grid_pin_23_;
//
output [0:0] top_grid_pin_24_;
//
output [0:0] top_grid_pin_25_;
//
output [0:0] top_grid_pin_26_;
//
output [0:0] top_grid_pin_27_;
//
output [0:0] top_grid_pin_28_;
//
output [0:0] top_grid_pin_29_;
//
output [0:0] top_grid_pin_30_;
//
output [0:0] top_grid_pin_31_;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:3] mux_tree_tapbuf_size10_0_sram;
wire [0:3] mux_tree_tapbuf_size10_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_1_sram;
wire [0:3] mux_tree_tapbuf_size10_1_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_2_sram;
wire [0:3] mux_tree_tapbuf_size10_2_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_3_sram;
wire [0:3] mux_tree_tapbuf_size10_3_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_4_sram;
wire [0:3] mux_tree_tapbuf_size10_4_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_5_sram;
wire [0:3] mux_tree_tapbuf_size10_5_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_6_sram;
wire [0:3] mux_tree_tapbuf_size10_6_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_7_sram;
wire [0:3] mux_tree_tapbuf_size10_7_sram_inv;
wire [0:0] mux_tree_tapbuf_size10_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_6_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_7_ccff_tail;
wire [0:3] mux_tree_tapbuf_size8_0_sram;
wire [0:3] mux_tree_tapbuf_size8_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_1_sram;
wire [0:3] mux_tree_tapbuf_size8_1_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_2_sram;
wire [0:3] mux_tree_tapbuf_size8_2_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_3_sram;
wire [0:3] mux_tree_tapbuf_size8_3_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_4_sram;
wire [0:3] mux_tree_tapbuf_size8_4_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_5_sram;
wire [0:3] mux_tree_tapbuf_size8_5_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_6_sram;
wire [0:3] mux_tree_tapbuf_size8_6_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_7_sram;
wire [0:3] mux_tree_tapbuf_size8_7_sram_inv;
wire [0:0] mux_tree_tapbuf_size8_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_6_ccff_tail;
//
//
//
//
assign chanx_right_out[0] = chanx_left_in[0];
//
//
//
assign chanx_right_out[1] = chanx_left_in[1];
//
//
//
assign chanx_right_out[2] = chanx_left_in[2];
//
//
//
assign chanx_right_out[3] = chanx_left_in[3];
//
//
//
assign chanx_right_out[4] = chanx_left_in[4];
//
//
//
assign chanx_right_out[5] = chanx_left_in[5];
//
//
//
assign chanx_right_out[6] = chanx_left_in[6];
//
//
//
assign chanx_right_out[7] = chanx_left_in[7];
//
//
//
assign chanx_right_out[8] = chanx_left_in[8];
//
//
//
assign chanx_right_out[9] = chanx_left_in[9];
//
//
//
assign chanx_right_out[10] = chanx_left_in[10];
//
//
//
assign chanx_right_out[11] = chanx_left_in[11];
//
//
//
assign chanx_right_out[12] = chanx_left_in[12];
//
//
//
assign chanx_right_out[13] = chanx_left_in[13];
//
//
//
assign chanx_right_out[14] = chanx_left_in[14];
//
//
//
assign chanx_right_out[15] = chanx_left_in[15];
//
//
//
assign chanx_right_out[16] = chanx_left_in[16];
//
//
//
assign chanx_right_out[17] = chanx_left_in[17];
//
//
//
assign chanx_right_out[18] = chanx_left_in[18];
//
//
//
assign chanx_right_out[19] = chanx_left_in[19];
//
//
//
assign chanx_left_out[0] = chanx_right_in[0];
//
//
//
assign chanx_left_out[1] = chanx_right_in[1];
//
//
//
assign chanx_left_out[2] = chanx_right_in[2];
//
//
//
assign chanx_left_out[3] = chanx_right_in[3];
//
//
//
assign chanx_left_out[4] = chanx_right_in[4];
//
//
//
assign chanx_left_out[5] = chanx_right_in[5];
//
//
//
assign chanx_left_out[6] = chanx_right_in[6];
//
//
//
assign chanx_left_out[7] = chanx_right_in[7];
//
//
//
assign chanx_left_out[8] = chanx_right_in[8];
//
//
//
assign chanx_left_out[9] = chanx_right_in[9];
//
//
//
assign chanx_left_out[10] = chanx_right_in[10];
//
//
//
assign chanx_left_out[11] = chanx_right_in[11];
//
//
//
assign chanx_left_out[12] = chanx_right_in[12];
//
//
//
assign chanx_left_out[13] = chanx_right_in[13];
//
//
//
assign chanx_left_out[14] = chanx_right_in[14];
//
//
//
assign chanx_left_out[15] = chanx_right_in[15];
//
//
//
assign chanx_left_out[16] = chanx_right_in[16];
//
//
//
assign chanx_left_out[17] = chanx_right_in[17];
//
//
//
assign chanx_left_out[18] = chanx_right_in[18];
//
//
//
assign chanx_left_out[19] = chanx_right_in[19];
//
//
//
mux_tree_tapbuf_size10 mux_bottom_ipin_0 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[4], chanx_right_in[4], chanx_left_in[10], chanx_right_in[10], chanx_left_in[16], chanx_right_in[16]}),
.sram(mux_tree_tapbuf_size10_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_0_sram_inv[0:3]),
.out(top_grid_pin_16_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_1 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[5], chanx_right_in[5], chanx_left_in[11], chanx_right_in[11], chanx_left_in[17], chanx_right_in[17]}),
.sram(mux_tree_tapbuf_size10_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_1_sram_inv[0:3]),
.out(top_grid_pin_17_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_4 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[4], chanx_right_in[4], chanx_left_in[8], chanx_right_in[8], chanx_left_in[14], chanx_right_in[14]}),
.sram(mux_tree_tapbuf_size10_2_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_2_sram_inv[0:3]),
.out(top_grid_pin_20_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_5 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[5], chanx_right_in[5], chanx_left_in[9], chanx_right_in[9], chanx_left_in[15], chanx_right_in[15]}),
.sram(mux_tree_tapbuf_size10_3_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_3_sram_inv[0:3]),
.out(top_grid_pin_21_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_8 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[8], chanx_right_in[8], chanx_left_in[12], chanx_right_in[12], chanx_left_in[18], chanx_right_in[18]}),
.sram(mux_tree_tapbuf_size10_4_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_4_sram_inv[0:3]),
.out(top_grid_pin_24_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_9 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[9], chanx_right_in[9], chanx_left_in[13], chanx_right_in[13], chanx_left_in[19], chanx_right_in[19]}),
.sram(mux_tree_tapbuf_size10_5_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_5_sram_inv[0:3]),
.out(top_grid_pin_25_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_12 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[6], chanx_right_in[6], chanx_left_in[12], chanx_right_in[12], chanx_left_in[16], chanx_right_in[16]}),
.sram(mux_tree_tapbuf_size10_6_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_6_sram_inv[0:3]),
.out(top_grid_pin_28_[0]));
mux_tree_tapbuf_size10 mux_bottom_ipin_13 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[7], chanx_right_in[7], chanx_left_in[13], chanx_right_in[13], chanx_left_in[17], chanx_right_in[17]}),
.sram(mux_tree_tapbuf_size10_7_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_7_sram_inv[0:3]),
.out(top_grid_pin_29_[0]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_0_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_1_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_2_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_2_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_3_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_3_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_4_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_4_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_5_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_5_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_12 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_6_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_6_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_13 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_7_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_7_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_7_sram_inv[0:3]));
mux_tree_tapbuf_size8 mux_bottom_ipin_2 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[6], chanx_right_in[6], chanx_left_in[14], chanx_right_in[14]}),
.sram(mux_tree_tapbuf_size8_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_0_sram_inv[0:3]),
.out(top_grid_pin_18_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_3 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[7], chanx_right_in[7], chanx_left_in[15], chanx_right_in[15]}),
.sram(mux_tree_tapbuf_size8_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_1_sram_inv[0:3]),
.out(top_grid_pin_19_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_6 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[10], chanx_right_in[10], chanx_left_in[18], chanx_right_in[18]}),
.sram(mux_tree_tapbuf_size8_2_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_2_sram_inv[0:3]),
.out(top_grid_pin_22_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_7 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[11], chanx_right_in[11], chanx_left_in[19], chanx_right_in[19]}),
.sram(mux_tree_tapbuf_size8_3_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_3_sram_inv[0:3]),
.out(top_grid_pin_23_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_10 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[6], chanx_right_in[6], chanx_left_in[14], chanx_right_in[14]}),
.sram(mux_tree_tapbuf_size8_4_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_4_sram_inv[0:3]),
.out(top_grid_pin_26_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_11 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[7], chanx_right_in[7], chanx_left_in[15], chanx_right_in[15]}),
.sram(mux_tree_tapbuf_size8_5_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_5_sram_inv[0:3]),
.out(top_grid_pin_27_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_14 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[10], chanx_right_in[10], chanx_left_in[18], chanx_right_in[18]}),
.sram(mux_tree_tapbuf_size8_6_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_6_sram_inv[0:3]),
.out(top_grid_pin_30_[0]));
mux_tree_tapbuf_size8 mux_bottom_ipin_15 (
.in({chanx_left_in[1], chanx_right_in[1], chanx_left_in[3], chanx_right_in[3], chanx_left_in[11], chanx_right_in[11], chanx_left_in[19], chanx_right_in[19]}),
.sram(mux_tree_tapbuf_size8_7_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_7_sram_inv[0:3]),
.out(top_grid_pin_31_[0]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_0_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_1_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_6 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_2_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_2_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_7 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_3_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_3_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_10 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_4_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_4_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_11 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_5_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_5_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_14 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_7_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_6_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_6_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_ipin_15 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_6_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_7_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_7_sram_inv[0:3]));
endmodule
//

230
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/cbx_1__2_.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module cbx_1__2_(prog_clk,
chanx_left_in,
chanx_right_in,
ccff_head,
chanx_left_out,
chanx_right_out,
top_grid_pin_0_,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chanx_left_in;
//
input [0:19] chanx_right_in;
//
input [0:0] ccff_head;
//
output [0:19] chanx_left_out;
//
output [0:19] chanx_right_out;
//
output [0:0] top_grid_pin_0_;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:3] mux_tree_tapbuf_size10_0_sram;
wire [0:3] mux_tree_tapbuf_size10_0_sram_inv;
//
//
//
//
assign chanx_right_out[0] = chanx_left_in[0];
//
//
//
assign chanx_right_out[1] = chanx_left_in[1];
//
//
//
assign chanx_right_out[2] = chanx_left_in[2];
//
//
//
assign chanx_right_out[3] = chanx_left_in[3];
//
//
//
assign chanx_right_out[4] = chanx_left_in[4];
//
//
//
assign chanx_right_out[5] = chanx_left_in[5];
//
//
//
assign chanx_right_out[6] = chanx_left_in[6];
//
//
//
assign chanx_right_out[7] = chanx_left_in[7];
//
//
//
assign chanx_right_out[8] = chanx_left_in[8];
//
//
//
assign chanx_right_out[9] = chanx_left_in[9];
//
//
//
assign chanx_right_out[10] = chanx_left_in[10];
//
//
//
assign chanx_right_out[11] = chanx_left_in[11];
//
//
//
assign chanx_right_out[12] = chanx_left_in[12];
//
//
//
assign chanx_right_out[13] = chanx_left_in[13];
//
//
//
assign chanx_right_out[14] = chanx_left_in[14];
//
//
//
assign chanx_right_out[15] = chanx_left_in[15];
//
//
//
assign chanx_right_out[16] = chanx_left_in[16];
//
//
//
assign chanx_right_out[17] = chanx_left_in[17];
//
//
//
assign chanx_right_out[18] = chanx_left_in[18];
//
//
//
assign chanx_right_out[19] = chanx_left_in[19];
//
//
//
assign chanx_left_out[0] = chanx_right_in[0];
//
//
//
assign chanx_left_out[1] = chanx_right_in[1];
//
//
//
assign chanx_left_out[2] = chanx_right_in[2];
//
//
//
assign chanx_left_out[3] = chanx_right_in[3];
//
//
//
assign chanx_left_out[4] = chanx_right_in[4];
//
//
//
assign chanx_left_out[5] = chanx_right_in[5];
//
//
//
assign chanx_left_out[6] = chanx_right_in[6];
//
//
//
assign chanx_left_out[7] = chanx_right_in[7];
//
//
//
assign chanx_left_out[8] = chanx_right_in[8];
//
//
//
assign chanx_left_out[9] = chanx_right_in[9];
//
//
//
assign chanx_left_out[10] = chanx_right_in[10];
//
//
//
assign chanx_left_out[11] = chanx_right_in[11];
//
//
//
assign chanx_left_out[12] = chanx_right_in[12];
//
//
//
assign chanx_left_out[13] = chanx_right_in[13];
//
//
//
assign chanx_left_out[14] = chanx_right_in[14];
//
//
//
assign chanx_left_out[15] = chanx_right_in[15];
//
//
//
assign chanx_left_out[16] = chanx_right_in[16];
//
//
//
assign chanx_left_out[17] = chanx_right_in[17];
//
//
//
assign chanx_left_out[18] = chanx_right_in[18];
//
//
//
assign chanx_left_out[19] = chanx_right_in[19];
//
//
//
mux_tree_tapbuf_size10 mux_bottom_ipin_0 (
.in({chanx_left_in[0], chanx_right_in[0], chanx_left_in[2], chanx_right_in[2], chanx_left_in[4], chanx_right_in[4], chanx_left_in[10], chanx_right_in[10], chanx_left_in[16], chanx_right_in[16]}),
.sram(mux_tree_tapbuf_size10_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_0_sram_inv[0:3]),
.out(top_grid_pin_0_[0]));
mux_tree_tapbuf_size10_mem mem_bottom_ipin_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_0_sram_inv[0:3]));
endmodule
//

249
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/cby_0__1_.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module cby_0__1_(prog_clk,
chany_bottom_in,
chany_top_in,
ccff_head,
chany_bottom_out,
chany_top_out,
right_grid_pin_52_,
left_grid_pin_0_,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chany_bottom_in;
//
input [0:19] chany_top_in;
//
input [0:0] ccff_head;
//
output [0:19] chany_bottom_out;
//
output [0:19] chany_top_out;
//
output [0:0] right_grid_pin_52_;
//
output [0:0] left_grid_pin_0_;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:3] mux_tree_tapbuf_size10_0_sram;
wire [0:3] mux_tree_tapbuf_size10_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_1_sram;
wire [0:3] mux_tree_tapbuf_size10_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size10_mem_0_ccff_tail;
//
//
//
//
assign chany_top_out[0] = chany_bottom_in[0];
//
//
//
assign chany_top_out[1] = chany_bottom_in[1];
//
//
//
assign chany_top_out[2] = chany_bottom_in[2];
//
//
//
assign chany_top_out[3] = chany_bottom_in[3];
//
//
//
assign chany_top_out[4] = chany_bottom_in[4];
//
//
//
assign chany_top_out[5] = chany_bottom_in[5];
//
//
//
assign chany_top_out[6] = chany_bottom_in[6];
//
//
//
assign chany_top_out[7] = chany_bottom_in[7];
//
//
//
assign chany_top_out[8] = chany_bottom_in[8];
//
//
//
assign chany_top_out[9] = chany_bottom_in[9];
//
//
//
assign chany_top_out[10] = chany_bottom_in[10];
//
//
//
assign chany_top_out[11] = chany_bottom_in[11];
//
//
//
assign chany_top_out[12] = chany_bottom_in[12];
//
//
//
assign chany_top_out[13] = chany_bottom_in[13];
//
//
//
assign chany_top_out[14] = chany_bottom_in[14];
//
//
//
assign chany_top_out[15] = chany_bottom_in[15];
//
//
//
assign chany_top_out[16] = chany_bottom_in[16];
//
//
//
assign chany_top_out[17] = chany_bottom_in[17];
//
//
//
assign chany_top_out[18] = chany_bottom_in[18];
//
//
//
assign chany_top_out[19] = chany_bottom_in[19];
//
//
//
assign chany_bottom_out[0] = chany_top_in[0];
//
//
//
assign chany_bottom_out[1] = chany_top_in[1];
//
//
//
assign chany_bottom_out[2] = chany_top_in[2];
//
//
//
assign chany_bottom_out[3] = chany_top_in[3];
//
//
//
assign chany_bottom_out[4] = chany_top_in[4];
//
//
//
assign chany_bottom_out[5] = chany_top_in[5];
//
//
//
assign chany_bottom_out[6] = chany_top_in[6];
//
//
//
assign chany_bottom_out[7] = chany_top_in[7];
//
//
//
assign chany_bottom_out[8] = chany_top_in[8];
//
//
//
assign chany_bottom_out[9] = chany_top_in[9];
//
//
//
assign chany_bottom_out[10] = chany_top_in[10];
//
//
//
assign chany_bottom_out[11] = chany_top_in[11];
//
//
//
assign chany_bottom_out[12] = chany_top_in[12];
//
//
//
assign chany_bottom_out[13] = chany_top_in[13];
//
//
//
assign chany_bottom_out[14] = chany_top_in[14];
//
//
//
assign chany_bottom_out[15] = chany_top_in[15];
//
//
//
assign chany_bottom_out[16] = chany_top_in[16];
//
//
//
assign chany_bottom_out[17] = chany_top_in[17];
//
//
//
assign chany_bottom_out[18] = chany_top_in[18];
//
//
//
assign chany_bottom_out[19] = chany_top_in[19];
//
//
//
mux_tree_tapbuf_size10 mux_left_ipin_0 (
.in({chany_bottom_in[0], chany_top_in[0], chany_bottom_in[2], chany_top_in[2], chany_bottom_in[4], chany_top_in[4], chany_bottom_in[10], chany_top_in[10], chany_bottom_in[16], chany_top_in[16]}),
.sram(mux_tree_tapbuf_size10_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_0_sram_inv[0:3]),
.out(right_grid_pin_52_[0]));
mux_tree_tapbuf_size10 mux_right_ipin_0 (
.in({chany_bottom_in[1], chany_top_in[1], chany_bottom_in[3], chany_top_in[3], chany_bottom_in[5], chany_top_in[5], chany_bottom_in[11], chany_top_in[11], chany_bottom_in[17], chany_top_in[17]}),
.sram(mux_tree_tapbuf_size10_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_1_sram_inv[0:3]),
.out(left_grid_pin_0_[0]));
mux_tree_tapbuf_size10_mem mem_left_ipin_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_0_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_right_ipin_0 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_1_sram_inv[0:3]));
endmodule
//

534
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/cby_1__1_.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module cby_1__1_(prog_clk,
chany_bottom_in,
chany_top_in,
ccff_head,
chany_bottom_out,
chany_top_out,
right_grid_pin_52_,
left_grid_pin_0_,
left_grid_pin_1_,
left_grid_pin_2_,
left_grid_pin_3_,
left_grid_pin_4_,
left_grid_pin_5_,
left_grid_pin_6_,
left_grid_pin_7_,
left_grid_pin_8_,
left_grid_pin_9_,
left_grid_pin_10_,
left_grid_pin_11_,
left_grid_pin_12_,
left_grid_pin_13_,
left_grid_pin_14_,
left_grid_pin_15_,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chany_bottom_in;
//
input [0:19] chany_top_in;
//
input [0:0] ccff_head;
//
output [0:19] chany_bottom_out;
//
output [0:19] chany_top_out;
//
output [0:0] right_grid_pin_52_;
//
output [0:0] left_grid_pin_0_;
//
output [0:0] left_grid_pin_1_;
//
output [0:0] left_grid_pin_2_;
//
output [0:0] left_grid_pin_3_;
//
output [0:0] left_grid_pin_4_;
//
output [0:0] left_grid_pin_5_;
//
output [0:0] left_grid_pin_6_;
//
output [0:0] left_grid_pin_7_;
//
output [0:0] left_grid_pin_8_;
//
output [0:0] left_grid_pin_9_;
//
output [0:0] left_grid_pin_10_;
//
output [0:0] left_grid_pin_11_;
//
output [0:0] left_grid_pin_12_;
//
output [0:0] left_grid_pin_13_;
//
output [0:0] left_grid_pin_14_;
//
output [0:0] left_grid_pin_15_;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:3] mux_tree_tapbuf_size10_0_sram;
wire [0:3] mux_tree_tapbuf_size10_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_1_sram;
wire [0:3] mux_tree_tapbuf_size10_1_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_2_sram;
wire [0:3] mux_tree_tapbuf_size10_2_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_3_sram;
wire [0:3] mux_tree_tapbuf_size10_3_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_4_sram;
wire [0:3] mux_tree_tapbuf_size10_4_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_5_sram;
wire [0:3] mux_tree_tapbuf_size10_5_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_6_sram;
wire [0:3] mux_tree_tapbuf_size10_6_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_7_sram;
wire [0:3] mux_tree_tapbuf_size10_7_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_8_sram;
wire [0:3] mux_tree_tapbuf_size10_8_sram_inv;
wire [0:0] mux_tree_tapbuf_size10_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_6_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_7_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_8_ccff_tail;
wire [0:3] mux_tree_tapbuf_size8_0_sram;
wire [0:3] mux_tree_tapbuf_size8_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_1_sram;
wire [0:3] mux_tree_tapbuf_size8_1_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_2_sram;
wire [0:3] mux_tree_tapbuf_size8_2_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_3_sram;
wire [0:3] mux_tree_tapbuf_size8_3_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_4_sram;
wire [0:3] mux_tree_tapbuf_size8_4_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_5_sram;
wire [0:3] mux_tree_tapbuf_size8_5_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_6_sram;
wire [0:3] mux_tree_tapbuf_size8_6_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_7_sram;
wire [0:3] mux_tree_tapbuf_size8_7_sram_inv;
wire [0:0] mux_tree_tapbuf_size8_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_6_ccff_tail;
//
//
//
//
assign chany_top_out[0] = chany_bottom_in[0];
//
//
//
assign chany_top_out[1] = chany_bottom_in[1];
//
//
//
assign chany_top_out[2] = chany_bottom_in[2];
//
//
//
assign chany_top_out[3] = chany_bottom_in[3];
//
//
//
assign chany_top_out[4] = chany_bottom_in[4];
//
//
//
assign chany_top_out[5] = chany_bottom_in[5];
//
//
//
assign chany_top_out[6] = chany_bottom_in[6];
//
//
//
assign chany_top_out[7] = chany_bottom_in[7];
//
//
//
assign chany_top_out[8] = chany_bottom_in[8];
//
//
//
assign chany_top_out[9] = chany_bottom_in[9];
//
//
//
assign chany_top_out[10] = chany_bottom_in[10];
//
//
//
assign chany_top_out[11] = chany_bottom_in[11];
//
//
//
assign chany_top_out[12] = chany_bottom_in[12];
//
//
//
assign chany_top_out[13] = chany_bottom_in[13];
//
//
//
assign chany_top_out[14] = chany_bottom_in[14];
//
//
//
assign chany_top_out[15] = chany_bottom_in[15];
//
//
//
assign chany_top_out[16] = chany_bottom_in[16];
//
//
//
assign chany_top_out[17] = chany_bottom_in[17];
//
//
//
assign chany_top_out[18] = chany_bottom_in[18];
//
//
//
assign chany_top_out[19] = chany_bottom_in[19];
//
//
//
assign chany_bottom_out[0] = chany_top_in[0];
//
//
//
assign chany_bottom_out[1] = chany_top_in[1];
//
//
//
assign chany_bottom_out[2] = chany_top_in[2];
//
//
//
assign chany_bottom_out[3] = chany_top_in[3];
//
//
//
assign chany_bottom_out[4] = chany_top_in[4];
//
//
//
assign chany_bottom_out[5] = chany_top_in[5];
//
//
//
assign chany_bottom_out[6] = chany_top_in[6];
//
//
//
assign chany_bottom_out[7] = chany_top_in[7];
//
//
//
assign chany_bottom_out[8] = chany_top_in[8];
//
//
//
assign chany_bottom_out[9] = chany_top_in[9];
//
//
//
assign chany_bottom_out[10] = chany_top_in[10];
//
//
//
assign chany_bottom_out[11] = chany_top_in[11];
//
//
//
assign chany_bottom_out[12] = chany_top_in[12];
//
//
//
assign chany_bottom_out[13] = chany_top_in[13];
//
//
//
assign chany_bottom_out[14] = chany_top_in[14];
//
//
//
assign chany_bottom_out[15] = chany_top_in[15];
//
//
//
assign chany_bottom_out[16] = chany_top_in[16];
//
//
//
assign chany_bottom_out[17] = chany_top_in[17];
//
//
//
assign chany_bottom_out[18] = chany_top_in[18];
//
//
//
assign chany_bottom_out[19] = chany_top_in[19];
//
//
//
mux_tree_tapbuf_size10 mux_left_ipin_0 (
.in({chany_bottom_in[0], chany_top_in[0], chany_bottom_in[2], chany_top_in[2], chany_bottom_in[4], chany_top_in[4], chany_bottom_in[10], chany_top_in[10], chany_bottom_in[16], chany_top_in[16]}),
.sram(mux_tree_tapbuf_size10_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_0_sram_inv[0:3]),
.out(right_grid_pin_52_[0]));
mux_tree_tapbuf_size10 mux_right_ipin_0 (
.in({chany_bottom_in[1], chany_top_in[1], chany_bottom_in[3], chany_top_in[3], chany_bottom_in[5], chany_top_in[5], chany_bottom_in[11], chany_top_in[11], chany_bottom_in[17], chany_top_in[17]}),
.sram(mux_tree_tapbuf_size10_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_1_sram_inv[0:3]),
.out(left_grid_pin_0_[0]));
mux_tree_tapbuf_size10 mux_right_ipin_1 (
.in({chany_bottom_in[0], chany_top_in[0], chany_bottom_in[2], chany_top_in[2], chany_bottom_in[6], chany_top_in[6], chany_bottom_in[12], chany_top_in[12], chany_bottom_in[18], chany_top_in[18]}),
.sram(mux_tree_tapbuf_size10_2_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_2_sram_inv[0:3]),
.out(left_grid_pin_1_[0]));
mux_tree_tapbuf_size10 mux_right_ipin_4 (
.in({chany_bottom_in[1], chany_top_in[1], chany_bottom_in[3], chany_top_in[3], chany_bottom_in[5], chany_top_in[5], chany_bottom_in[9], chany_top_in[9], chany_bottom_in[15], chany_top_in[15]}),
.sram(mux_tree_tapbuf_size10_3_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_3_sram_inv[0:3]),
.out(left_grid_pin_4_[0]));
mux_tree_tapbuf_size10 mux_right_ipin_5 (
.in({chany_bottom_in[0], chany_top_in[0], chany_bottom_in[2], chany_top_in[2], chany_bottom_in[6], chany_top_in[6], chany_bottom_in[10], chany_top_in[10], chany_bottom_in[16], chany_top_in[16]}),
.sram(mux_tree_tapbuf_size10_4_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_4_sram_inv[0:3]),
.out(left_grid_pin_5_[0]));
mux_tree_tapbuf_size10 mux_right_ipin_8 (
.in({chany_bottom_in[1], chany_top_in[1], chany_bottom_in[3], chany_top_in[3], chany_bottom_in[9], chany_top_in[9], chany_bottom_in[13], chany_top_in[13], chany_bottom_in[19], chany_top_in[19]}),
.sram(mux_tree_tapbuf_size10_5_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_5_sram_inv[0:3]),
.out(left_grid_pin_8_[0]));
mux_tree_tapbuf_size10 mux_right_ipin_9 (
.in({chany_bottom_in[0], chany_top_in[0], chany_bottom_in[2], chany_top_in[2], chany_bottom_in[4], chany_top_in[4], chany_bottom_in[10], chany_top_in[10], chany_bottom_in[14], chany_top_in[14]}),
.sram(mux_tree_tapbuf_size10_6_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_6_sram_inv[0:3]),
.out(left_grid_pin_9_[0]));
mux_tree_tapbuf_size10 mux_right_ipin_12 (
.in({chany_bottom_in[1], chany_top_in[1], chany_bottom_in[3], chany_top_in[3], chany_bottom_in[7], chany_top_in[7], chany_bottom_in[13], chany_top_in[13], chany_bottom_in[17], chany_top_in[17]}),
.sram(mux_tree_tapbuf_size10_7_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_7_sram_inv[0:3]),
.out(left_grid_pin_12_[0]));
mux_tree_tapbuf_size10 mux_right_ipin_13 (
.in({chany_bottom_in[0], chany_top_in[0], chany_bottom_in[2], chany_top_in[2], chany_bottom_in[8], chany_top_in[8], chany_bottom_in[14], chany_top_in[14], chany_bottom_in[18], chany_top_in[18]}),
.sram(mux_tree_tapbuf_size10_8_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_8_sram_inv[0:3]),
.out(left_grid_pin_13_[0]));
mux_tree_tapbuf_size10_mem mem_left_ipin_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_0_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_right_ipin_0 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_1_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_right_ipin_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_2_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_2_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_right_ipin_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_3_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_3_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_right_ipin_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_4_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_4_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_right_ipin_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_5_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_5_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_right_ipin_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_6_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_6_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_right_ipin_12 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_7_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_7_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_7_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_right_ipin_13 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_7_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_8_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_8_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_8_sram_inv[0:3]));
mux_tree_tapbuf_size8 mux_right_ipin_2 (
.in({chany_bottom_in[1], chany_top_in[1], chany_bottom_in[3], chany_top_in[3], chany_bottom_in[7], chany_top_in[7], chany_bottom_in[15], chany_top_in[15]}),
.sram(mux_tree_tapbuf_size8_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_0_sram_inv[0:3]),
.out(left_grid_pin_2_[0]));
mux_tree_tapbuf_size8 mux_right_ipin_3 (
.in({chany_bottom_in[0], chany_top_in[0], chany_bottom_in[2], chany_top_in[2], chany_bottom_in[8], chany_top_in[8], chany_bottom_in[16], chany_top_in[16]}),
.sram(mux_tree_tapbuf_size8_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_1_sram_inv[0:3]),
.out(left_grid_pin_3_[0]));
mux_tree_tapbuf_size8 mux_right_ipin_6 (
.in({chany_bottom_in[1], chany_top_in[1], chany_bottom_in[3], chany_top_in[3], chany_bottom_in[11], chany_top_in[11], chany_bottom_in[19], chany_top_in[19]}),
.sram(mux_tree_tapbuf_size8_2_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_2_sram_inv[0:3]),
.out(left_grid_pin_6_[0]));
mux_tree_tapbuf_size8 mux_right_ipin_7 (
.in({chany_bottom_in[0], chany_top_in[0], chany_bottom_in[2], chany_top_in[2], chany_bottom_in[4], chany_top_in[4], chany_bottom_in[12], chany_top_in[12]}),
.sram(mux_tree_tapbuf_size8_3_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_3_sram_inv[0:3]),
.out(left_grid_pin_7_[0]));
mux_tree_tapbuf_size8 mux_right_ipin_10 (
.in({chany_bottom_in[1], chany_top_in[1], chany_bottom_in[3], chany_top_in[3], chany_bottom_in[7], chany_top_in[7], chany_bottom_in[15], chany_top_in[15]}),
.sram(mux_tree_tapbuf_size8_4_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_4_sram_inv[0:3]),
.out(left_grid_pin_10_[0]));
mux_tree_tapbuf_size8 mux_right_ipin_11 (
.in({chany_bottom_in[0], chany_top_in[0], chany_bottom_in[2], chany_top_in[2], chany_bottom_in[8], chany_top_in[8], chany_bottom_in[16], chany_top_in[16]}),
.sram(mux_tree_tapbuf_size8_5_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_5_sram_inv[0:3]),
.out(left_grid_pin_11_[0]));
mux_tree_tapbuf_size8 mux_right_ipin_14 (
.in({chany_bottom_in[1], chany_top_in[1], chany_bottom_in[3], chany_top_in[3], chany_bottom_in[11], chany_top_in[11], chany_bottom_in[19], chany_top_in[19]}),
.sram(mux_tree_tapbuf_size8_6_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_6_sram_inv[0:3]),
.out(left_grid_pin_14_[0]));
mux_tree_tapbuf_size8 mux_right_ipin_15 (
.in({chany_bottom_in[0], chany_top_in[0], chany_bottom_in[2], chany_top_in[2], chany_bottom_in[4], chany_top_in[4], chany_bottom_in[12], chany_top_in[12]}),
.sram(mux_tree_tapbuf_size8_7_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_7_sram_inv[0:3]),
.out(left_grid_pin_15_[0]));
mux_tree_tapbuf_size8_mem mem_right_ipin_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_0_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_right_ipin_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_1_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_right_ipin_6 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_2_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_2_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_right_ipin_7 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_3_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_3_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_right_ipin_10 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_4_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_4_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_right_ipin_11 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_5_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_5_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_right_ipin_14 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_8_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_6_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_6_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_right_ipin_15 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_6_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_7_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_7_sram_inv[0:3]));
endmodule
//

456
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/sb_0__0_.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module sb_0__0_(prog_clk,
chany_top_in,
top_left_grid_pin_1_,
chanx_right_in,
right_top_grid_pin_42_,
right_top_grid_pin_43_,
right_top_grid_pin_44_,
right_top_grid_pin_45_,
right_top_grid_pin_46_,
right_top_grid_pin_47_,
right_top_grid_pin_48_,
right_top_grid_pin_49_,
right_bottom_grid_pin_1_,
ccff_head,
chany_top_out,
chanx_right_out,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chany_top_in;
//
input [0:0] top_left_grid_pin_1_;
//
input [0:19] chanx_right_in;
//
input [0:0] right_top_grid_pin_42_;
//
input [0:0] right_top_grid_pin_43_;
//
input [0:0] right_top_grid_pin_44_;
//
input [0:0] right_top_grid_pin_45_;
//
input [0:0] right_top_grid_pin_46_;
//
input [0:0] right_top_grid_pin_47_;
//
input [0:0] right_top_grid_pin_48_;
//
input [0:0] right_top_grid_pin_49_;
//
input [0:0] right_bottom_grid_pin_1_;
//
input [0:0] ccff_head;
//
output [0:19] chany_top_out;
//
output [0:19] chanx_right_out;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:1] mux_tree_tapbuf_size2_0_sram;
wire [0:1] mux_tree_tapbuf_size2_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_10_sram;
wire [0:1] mux_tree_tapbuf_size2_10_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_11_sram;
wire [0:1] mux_tree_tapbuf_size2_11_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_1_sram;
wire [0:1] mux_tree_tapbuf_size2_1_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_2_sram;
wire [0:1] mux_tree_tapbuf_size2_2_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_3_sram;
wire [0:1] mux_tree_tapbuf_size2_3_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_4_sram;
wire [0:1] mux_tree_tapbuf_size2_4_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_5_sram;
wire [0:1] mux_tree_tapbuf_size2_5_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_6_sram;
wire [0:1] mux_tree_tapbuf_size2_6_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_7_sram;
wire [0:1] mux_tree_tapbuf_size2_7_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_8_sram;
wire [0:1] mux_tree_tapbuf_size2_8_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_9_sram;
wire [0:1] mux_tree_tapbuf_size2_9_sram_inv;
wire [0:0] mux_tree_tapbuf_size2_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_10_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_6_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_7_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_8_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_9_ccff_tail;
wire [0:1] mux_tree_tapbuf_size3_0_sram;
wire [0:1] mux_tree_tapbuf_size3_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_1_sram;
wire [0:1] mux_tree_tapbuf_size3_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size3_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_1_ccff_tail;
wire [0:2] mux_tree_tapbuf_size5_0_sram;
wire [0:2] mux_tree_tapbuf_size5_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_1_sram;
wire [0:2] mux_tree_tapbuf_size5_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size5_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_1_ccff_tail;
wire [0:2] mux_tree_tapbuf_size6_0_sram;
wire [0:2] mux_tree_tapbuf_size6_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_1_sram;
wire [0:2] mux_tree_tapbuf_size6_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size6_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_1_ccff_tail;
//
//
//
//
assign chanx_right_out[14] = chany_top_in[13];
//
//
//
assign chanx_right_out[15] = chany_top_in[14];
//
//
//
assign chanx_right_out[16] = chany_top_in[15];
//
//
//
assign chanx_right_out[17] = chany_top_in[16];
//
//
//
assign chanx_right_out[18] = chany_top_in[17];
//
//
//
assign chanx_right_out[19] = chany_top_in[18];
//
//
//
assign chany_top_out[19] = chanx_right_in[0];
//
//
//
assign chany_top_out[1] = chanx_right_in[2];
//
//
//
assign chany_top_out[3] = chanx_right_in[4];
//
//
//
assign chany_top_out[5] = chanx_right_in[6];
//
//
//
assign chany_top_out[6] = chanx_right_in[7];
//
//
//
assign chany_top_out[7] = chanx_right_in[8];
//
//
//
assign chany_top_out[8] = chanx_right_in[9];
//
//
//
assign chany_top_out[9] = chanx_right_in[10];
//
//
//
assign chany_top_out[10] = chanx_right_in[11];
//
//
//
assign chany_top_out[11] = chanx_right_in[12];
//
//
//
assign chany_top_out[13] = chanx_right_in[14];
//
//
//
assign chany_top_out[14] = chanx_right_in[15];
//
//
//
assign chany_top_out[15] = chanx_right_in[16];
//
//
//
assign chany_top_out[16] = chanx_right_in[17];
//
//
//
assign chany_top_out[17] = chanx_right_in[18];
//
//
//
assign chany_top_out[18] = chanx_right_in[19];
//
//
//
mux_tree_tapbuf_size2 mux_top_track_0 (
.in({top_left_grid_pin_1_[0], chanx_right_in[1]}),
.sram(mux_tree_tapbuf_size2_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_0_sram_inv[0:1]),
.out(chany_top_out[0]));
mux_tree_tapbuf_size2 mux_top_track_4 (
.in({top_left_grid_pin_1_[0], chanx_right_in[3]}),
.sram(mux_tree_tapbuf_size2_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_1_sram_inv[0:1]),
.out(chany_top_out[2]));
mux_tree_tapbuf_size2 mux_top_track_8 (
.in({top_left_grid_pin_1_[0], chanx_right_in[5]}),
.sram(mux_tree_tapbuf_size2_2_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_2_sram_inv[0:1]),
.out(chany_top_out[4]));
mux_tree_tapbuf_size2 mux_top_track_24 (
.in({top_left_grid_pin_1_[0], chanx_right_in[13]}),
.sram(mux_tree_tapbuf_size2_3_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_3_sram_inv[0:1]),
.out(chany_top_out[12]));
mux_tree_tapbuf_size2 mux_right_track_10 (
.in({chany_top_in[4], right_top_grid_pin_43_[0]}),
.sram(mux_tree_tapbuf_size2_4_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_4_sram_inv[0:1]),
.out(chanx_right_out[5]));
mux_tree_tapbuf_size2 mux_right_track_12 (
.in({chany_top_in[5], right_top_grid_pin_44_[0]}),
.sram(mux_tree_tapbuf_size2_5_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_5_sram_inv[0:1]),
.out(chanx_right_out[6]));
mux_tree_tapbuf_size2 mux_right_track_14 (
.in({chany_top_in[6], right_top_grid_pin_45_[0]}),
.sram(mux_tree_tapbuf_size2_6_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_6_sram_inv[0:1]),
.out(chanx_right_out[7]));
mux_tree_tapbuf_size2 mux_right_track_16 (
.in({chany_top_in[7], right_top_grid_pin_46_[0]}),
.sram(mux_tree_tapbuf_size2_7_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_7_sram_inv[0:1]),
.out(chanx_right_out[8]));
mux_tree_tapbuf_size2 mux_right_track_18 (
.in({chany_top_in[8], right_top_grid_pin_47_[0]}),
.sram(mux_tree_tapbuf_size2_8_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_8_sram_inv[0:1]),
.out(chanx_right_out[9]));
mux_tree_tapbuf_size2 mux_right_track_20 (
.in({chany_top_in[9], right_top_grid_pin_48_[0]}),
.sram(mux_tree_tapbuf_size2_9_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_9_sram_inv[0:1]),
.out(chanx_right_out[10]));
mux_tree_tapbuf_size2 mux_right_track_22 (
.in({chany_top_in[10], right_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size2_10_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_10_sram_inv[0:1]),
.out(chanx_right_out[11]));
mux_tree_tapbuf_size2 mux_right_track_26 (
.in({chany_top_in[12], right_top_grid_pin_43_[0]}),
.sram(mux_tree_tapbuf_size2_11_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_11_sram_inv[0:1]),
.out(chanx_right_out[13]));
mux_tree_tapbuf_size2_mem mem_top_track_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_0_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_1_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_2_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_2_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_24 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_3_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_3_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_right_track_10 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_4_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_4_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_right_track_12 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_5_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_5_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_right_track_14 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_6_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_6_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_right_track_16 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_7_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_7_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_7_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_right_track_18 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_7_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_8_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_8_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_8_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_right_track_20 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_8_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_9_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_9_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_9_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_right_track_22 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_9_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_10_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_10_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_10_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_right_track_26 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_11_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_11_sram_inv[0:1]));
mux_tree_tapbuf_size6 mux_right_track_0 (
.in({chany_top_in[19], right_top_grid_pin_42_[0], right_top_grid_pin_44_[0], right_top_grid_pin_46_[0], right_top_grid_pin_48_[0], right_bottom_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size6_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_0_sram_inv[0:2]),
.out(chanx_right_out[0]));
mux_tree_tapbuf_size6 mux_right_track_4 (
.in({chany_top_in[1], right_top_grid_pin_42_[0], right_top_grid_pin_44_[0], right_top_grid_pin_46_[0], right_top_grid_pin_48_[0], right_bottom_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size6_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_1_sram_inv[0:2]),
.out(chanx_right_out[2]));
mux_tree_tapbuf_size6_mem mem_right_track_0 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_0_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_right_track_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_1_sram_inv[0:2]));
mux_tree_tapbuf_size5 mux_right_track_2 (
.in({chany_top_in[0], right_top_grid_pin_43_[0], right_top_grid_pin_45_[0], right_top_grid_pin_47_[0], right_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size5_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_0_sram_inv[0:2]),
.out(chanx_right_out[1]));
mux_tree_tapbuf_size5 mux_right_track_6 (
.in({chany_top_in[2], right_top_grid_pin_43_[0], right_top_grid_pin_45_[0], right_top_grid_pin_47_[0], right_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size5_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_1_sram_inv[0:2]),
.out(chanx_right_out[3]));
mux_tree_tapbuf_size5_mem mem_right_track_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_0_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_right_track_6 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_1_sram_inv[0:2]));
mux_tree_tapbuf_size3 mux_right_track_8 (
.in({chany_top_in[3], right_top_grid_pin_42_[0], right_bottom_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size3_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_0_sram_inv[0:1]),
.out(chanx_right_out[4]));
mux_tree_tapbuf_size3 mux_right_track_24 (
.in({chany_top_in[11], right_top_grid_pin_42_[0], right_bottom_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size3_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_1_sram_inv[0:1]),
.out(chanx_right_out[12]));
mux_tree_tapbuf_size3_mem mem_right_track_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_0_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_right_track_24 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_10_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_1_sram_inv[0:1]));
endmodule
//

658
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/sb_0__1_.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module sb_0__1_(prog_clk,
chany_top_in,
top_left_grid_pin_1_,
chanx_right_in,
right_top_grid_pin_42_,
right_top_grid_pin_43_,
right_top_grid_pin_44_,
right_top_grid_pin_45_,
right_top_grid_pin_46_,
right_top_grid_pin_47_,
right_top_grid_pin_48_,
right_top_grid_pin_49_,
chany_bottom_in,
bottom_left_grid_pin_1_,
ccff_head,
chany_top_out,
chanx_right_out,
chany_bottom_out,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chany_top_in;
//
input [0:0] top_left_grid_pin_1_;
//
input [0:19] chanx_right_in;
//
input [0:0] right_top_grid_pin_42_;
//
input [0:0] right_top_grid_pin_43_;
//
input [0:0] right_top_grid_pin_44_;
//
input [0:0] right_top_grid_pin_45_;
//
input [0:0] right_top_grid_pin_46_;
//
input [0:0] right_top_grid_pin_47_;
//
input [0:0] right_top_grid_pin_48_;
//
input [0:0] right_top_grid_pin_49_;
//
input [0:19] chany_bottom_in;
//
input [0:0] bottom_left_grid_pin_1_;
//
input [0:0] ccff_head;
//
output [0:19] chany_top_out;
//
output [0:19] chanx_right_out;
//
output [0:19] chany_bottom_out;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:1] mux_tree_tapbuf_size2_0_sram;
wire [0:1] mux_tree_tapbuf_size2_0_sram_inv;
wire [0:0] mux_tree_tapbuf_size2_mem_0_ccff_tail;
wire [0:1] mux_tree_tapbuf_size3_0_sram;
wire [0:1] mux_tree_tapbuf_size3_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_1_sram;
wire [0:1] mux_tree_tapbuf_size3_1_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_2_sram;
wire [0:1] mux_tree_tapbuf_size3_2_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_3_sram;
wire [0:1] mux_tree_tapbuf_size3_3_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_4_sram;
wire [0:1] mux_tree_tapbuf_size3_4_sram_inv;
wire [0:0] mux_tree_tapbuf_size3_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_3_ccff_tail;
wire [0:2] mux_tree_tapbuf_size4_0_sram;
wire [0:2] mux_tree_tapbuf_size4_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_1_sram;
wire [0:2] mux_tree_tapbuf_size4_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_2_sram;
wire [0:2] mux_tree_tapbuf_size4_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_3_sram;
wire [0:2] mux_tree_tapbuf_size4_3_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_4_sram;
wire [0:2] mux_tree_tapbuf_size4_4_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_5_sram;
wire [0:2] mux_tree_tapbuf_size4_5_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_6_sram;
wire [0:2] mux_tree_tapbuf_size4_6_sram_inv;
wire [0:0] mux_tree_tapbuf_size4_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size4_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size4_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size4_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size4_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size4_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size4_mem_6_ccff_tail;
wire [0:2] mux_tree_tapbuf_size5_0_sram;
wire [0:2] mux_tree_tapbuf_size5_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_1_sram;
wire [0:2] mux_tree_tapbuf_size5_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_2_sram;
wire [0:2] mux_tree_tapbuf_size5_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_3_sram;
wire [0:2] mux_tree_tapbuf_size5_3_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_4_sram;
wire [0:2] mux_tree_tapbuf_size5_4_sram_inv;
wire [0:0] mux_tree_tapbuf_size5_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_4_ccff_tail;
wire [0:2] mux_tree_tapbuf_size6_0_sram;
wire [0:2] mux_tree_tapbuf_size6_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_1_sram;
wire [0:2] mux_tree_tapbuf_size6_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_2_sram;
wire [0:2] mux_tree_tapbuf_size6_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_3_sram;
wire [0:2] mux_tree_tapbuf_size6_3_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_4_sram;
wire [0:2] mux_tree_tapbuf_size6_4_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_5_sram;
wire [0:2] mux_tree_tapbuf_size6_5_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_6_sram;
wire [0:2] mux_tree_tapbuf_size6_6_sram_inv;
wire [0:0] mux_tree_tapbuf_size6_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_6_ccff_tail;
wire [0:2] mux_tree_tapbuf_size7_0_sram;
wire [0:2] mux_tree_tapbuf_size7_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_1_sram;
wire [0:2] mux_tree_tapbuf_size7_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_2_sram;
wire [0:2] mux_tree_tapbuf_size7_2_sram_inv;
wire [0:0] mux_tree_tapbuf_size7_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_2_ccff_tail;
//
//
//
//
assign chany_bottom_out[3] = chany_top_in[2];
//
//
//
assign chany_bottom_out[5] = chany_top_in[4];
//
//
//
assign chany_bottom_out[6] = chany_top_in[5];
//
//
//
assign chany_bottom_out[7] = chany_top_in[6];
//
//
//
assign chany_bottom_out[9] = chany_top_in[8];
//
//
//
assign chany_bottom_out[10] = chany_top_in[9];
//
//
//
assign chany_bottom_out[11] = chany_top_in[10];
//
//
//
assign chany_bottom_out[13] = chany_top_in[12];
//
//
//
assign chany_bottom_out[14] = chany_top_in[13];
//
//
//
assign chany_bottom_out[15] = chany_top_in[14];
//
//
//
assign chany_bottom_out[17] = chany_top_in[16];
//
//
//
assign chany_bottom_out[18] = chany_top_in[17];
//
//
//
assign chany_bottom_out[19] = chany_top_in[18];
//
//
//
assign chanx_right_out[18] = chany_bottom_in[0];
//
//
//
assign chanx_right_out[17] = chany_bottom_in[1];
//
//
//
assign chany_top_out[3] = chany_bottom_in[2];
//
//
//
assign chanx_right_out[16] = chany_bottom_in[3];
//
//
//
assign chany_top_out[5] = chany_bottom_in[4];
//
//
//
assign chany_top_out[6] = chany_bottom_in[5];
//
//
//
assign chany_top_out[7] = chany_bottom_in[6];
//
//
//
assign chanx_right_out[15] = chany_bottom_in[7];
//
//
//
assign chany_top_out[9] = chany_bottom_in[8];
//
//
//
assign chany_top_out[10] = chany_bottom_in[9];
//
//
//
assign chany_top_out[11] = chany_bottom_in[10];
//
//
//
assign chanx_right_out[14] = chany_bottom_in[11];
//
//
//
assign chany_top_out[13] = chany_bottom_in[12];
//
//
//
assign chany_top_out[14] = chany_bottom_in[13];
//
//
//
assign chany_top_out[15] = chany_bottom_in[14];
//
//
//
assign chany_top_out[17] = chany_bottom_in[16];
//
//
//
assign chany_top_out[18] = chany_bottom_in[17];
//
//
//
assign chany_top_out[19] = chany_bottom_in[18];
//
//
//
mux_tree_tapbuf_size6 mux_top_track_0 (
.in({top_left_grid_pin_1_[0], chanx_right_in[1], chanx_right_in[8], chanx_right_in[15], chany_bottom_in[2], chany_bottom_in[12]}),
.sram(mux_tree_tapbuf_size6_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_0_sram_inv[0:2]),
.out(chany_top_out[0]));
mux_tree_tapbuf_size6 mux_top_track_4 (
.in({top_left_grid_pin_1_[0], chanx_right_in[3], chanx_right_in[10], chanx_right_in[17], chany_bottom_in[5], chany_bottom_in[14]}),
.sram(mux_tree_tapbuf_size6_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_1_sram_inv[0:2]),
.out(chany_top_out[2]));
mux_tree_tapbuf_size6 mux_top_track_8 (
.in({top_left_grid_pin_1_[0], chanx_right_in[4], chanx_right_in[11], chanx_right_in[18], chany_bottom_in[6], chany_bottom_in[16]}),
.sram(mux_tree_tapbuf_size6_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_2_sram_inv[0:2]),
.out(chany_top_out[4]));
mux_tree_tapbuf_size6 mux_right_track_0 (
.in({chany_top_in[2], right_top_grid_pin_42_[0], right_top_grid_pin_44_[0], right_top_grid_pin_46_[0], right_top_grid_pin_48_[0], chany_bottom_in[2]}),
.sram(mux_tree_tapbuf_size6_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_3_sram_inv[0:2]),
.out(chanx_right_out[0]));
mux_tree_tapbuf_size6 mux_bottom_track_1 (
.in({chany_top_in[2], chany_top_in[12], chanx_right_in[5], chanx_right_in[12], chanx_right_in[19], bottom_left_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size6_4_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_4_sram_inv[0:2]),
.out(chany_bottom_out[0]));
mux_tree_tapbuf_size6 mux_bottom_track_5 (
.in({chany_top_in[5], chany_top_in[14], chanx_right_in[3], chanx_right_in[10], chanx_right_in[17], bottom_left_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size6_5_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_5_sram_inv[0:2]),
.out(chany_bottom_out[2]));
mux_tree_tapbuf_size6 mux_bottom_track_9 (
.in({chany_top_in[6], chany_top_in[16], chanx_right_in[2], chanx_right_in[9], chanx_right_in[16], bottom_left_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size6_6_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_6_sram_inv[0:2]),
.out(chany_bottom_out[4]));
mux_tree_tapbuf_size6_mem mem_top_track_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_0_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_top_track_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_1_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_top_track_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_2_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_right_track_0 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_3_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_bottom_track_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_4_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_4_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_bottom_track_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_5_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_5_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_bottom_track_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_6_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_6_sram_inv[0:2]));
mux_tree_tapbuf_size5 mux_top_track_2 (
.in({chanx_right_in[2], chanx_right_in[9], chanx_right_in[16], chany_bottom_in[4], chany_bottom_in[13]}),
.sram(mux_tree_tapbuf_size5_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_0_sram_inv[0:2]),
.out(chany_top_out[1]));
mux_tree_tapbuf_size5 mux_top_track_16 (
.in({chanx_right_in[5], chanx_right_in[12], chanx_right_in[19], chany_bottom_in[8], chany_bottom_in[17]}),
.sram(mux_tree_tapbuf_size5_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_1_sram_inv[0:2]),
.out(chany_top_out[8]));
mux_tree_tapbuf_size5 mux_bottom_track_3 (
.in({chany_top_in[4], chany_top_in[13], chanx_right_in[4], chanx_right_in[11], chanx_right_in[18]}),
.sram(mux_tree_tapbuf_size5_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_2_sram_inv[0:2]),
.out(chany_bottom_out[1]));
mux_tree_tapbuf_size5 mux_bottom_track_17 (
.in({chany_top_in[8], chany_top_in[17], chanx_right_in[1], chanx_right_in[8], chanx_right_in[15]}),
.sram(mux_tree_tapbuf_size5_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_3_sram_inv[0:2]),
.out(chany_bottom_out[8]));
mux_tree_tapbuf_size5 mux_bottom_track_25 (
.in({chany_top_in[9], chany_top_in[18], chanx_right_in[0], chanx_right_in[7], chanx_right_in[14]}),
.sram(mux_tree_tapbuf_size5_4_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_4_sram_inv[0:2]),
.out(chany_bottom_out[12]));
mux_tree_tapbuf_size5_mem mem_top_track_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_0_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_top_track_16 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_1_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_bottom_track_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_2_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_bottom_track_17 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_3_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_bottom_track_25 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_4_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_4_sram_inv[0:2]));
mux_tree_tapbuf_size4 mux_top_track_24 (
.in({chanx_right_in[6], chanx_right_in[13], chany_bottom_in[9], chany_bottom_in[18]}),
.sram(mux_tree_tapbuf_size4_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_0_sram_inv[0:2]),
.out(chany_top_out[12]));
mux_tree_tapbuf_size4 mux_top_track_32 (
.in({chanx_right_in[0], chanx_right_in[7], chanx_right_in[14], chany_bottom_in[10]}),
.sram(mux_tree_tapbuf_size4_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_1_sram_inv[0:2]),
.out(chany_top_out[16]));
mux_tree_tapbuf_size4 mux_right_track_8 (
.in({chany_top_in[7:8], right_top_grid_pin_42_[0], chany_bottom_in[8]}),
.sram(mux_tree_tapbuf_size4_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_2_sram_inv[0:2]),
.out(chanx_right_out[4]));
mux_tree_tapbuf_size4 mux_right_track_10 (
.in({chany_top_in[9], chany_top_in[11], right_top_grid_pin_43_[0], chany_bottom_in[9]}),
.sram(mux_tree_tapbuf_size4_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_3_sram_inv[0:2]),
.out(chanx_right_out[5]));
mux_tree_tapbuf_size4 mux_right_track_12 (
.in({chany_top_in[10], chany_top_in[15], right_top_grid_pin_44_[0], chany_bottom_in[10]}),
.sram(mux_tree_tapbuf_size4_4_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_4_sram_inv[0:2]),
.out(chanx_right_out[6]));
mux_tree_tapbuf_size4 mux_right_track_14 (
.in({chany_top_in[12], chany_top_in[19], right_top_grid_pin_45_[0], chany_bottom_in[12]}),
.sram(mux_tree_tapbuf_size4_5_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_5_sram_inv[0:2]),
.out(chanx_right_out[7]));
mux_tree_tapbuf_size4 mux_right_track_24 (
.in({chany_top_in[18], right_top_grid_pin_42_[0], chany_bottom_in[18:19]}),
.sram(mux_tree_tapbuf_size4_6_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_6_sram_inv[0:2]),
.out(chanx_right_out[12]));
mux_tree_tapbuf_size4_mem mem_top_track_24 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_0_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_top_track_32 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_1_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_right_track_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_2_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_right_track_10 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_3_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_right_track_12 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_4_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_4_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_right_track_14 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_5_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_5_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_right_track_24 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_6_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_6_sram_inv[0:2]));
mux_tree_tapbuf_size7 mux_right_track_2 (
.in({chany_top_in[0], chany_top_in[4], right_top_grid_pin_43_[0], right_top_grid_pin_45_[0], right_top_grid_pin_47_[0], right_top_grid_pin_49_[0], chany_bottom_in[4]}),
.sram(mux_tree_tapbuf_size7_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_0_sram_inv[0:2]),
.out(chanx_right_out[1]));
mux_tree_tapbuf_size7 mux_right_track_4 (
.in({chany_top_in[1], chany_top_in[5], right_top_grid_pin_42_[0], right_top_grid_pin_44_[0], right_top_grid_pin_46_[0], right_top_grid_pin_48_[0], chany_bottom_in[5]}),
.sram(mux_tree_tapbuf_size7_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_1_sram_inv[0:2]),
.out(chanx_right_out[2]));
mux_tree_tapbuf_size7 mux_right_track_6 (
.in({chany_top_in[3], chany_top_in[6], right_top_grid_pin_43_[0], right_top_grid_pin_45_[0], right_top_grid_pin_47_[0], right_top_grid_pin_49_[0], chany_bottom_in[6]}),
.sram(mux_tree_tapbuf_size7_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_2_sram_inv[0:2]),
.out(chanx_right_out[3]));
mux_tree_tapbuf_size7_mem mem_right_track_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_0_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_right_track_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_1_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_right_track_6 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_2_sram_inv[0:2]));
mux_tree_tapbuf_size3 mux_right_track_16 (
.in({chany_top_in[13], right_top_grid_pin_46_[0], chany_bottom_in[13]}),
.sram(mux_tree_tapbuf_size3_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_0_sram_inv[0:1]),
.out(chanx_right_out[8]));
mux_tree_tapbuf_size3 mux_right_track_18 (
.in({chany_top_in[14], right_top_grid_pin_47_[0], chany_bottom_in[14]}),
.sram(mux_tree_tapbuf_size3_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_1_sram_inv[0:1]),
.out(chanx_right_out[9]));
mux_tree_tapbuf_size3 mux_right_track_20 (
.in({chany_top_in[16], right_top_grid_pin_48_[0], chany_bottom_in[16]}),
.sram(mux_tree_tapbuf_size3_2_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_2_sram_inv[0:1]),
.out(chanx_right_out[10]));
mux_tree_tapbuf_size3 mux_right_track_22 (
.in({chany_top_in[17], right_top_grid_pin_49_[0], chany_bottom_in[17]}),
.sram(mux_tree_tapbuf_size3_3_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_3_sram_inv[0:1]),
.out(chanx_right_out[11]));
mux_tree_tapbuf_size3 mux_bottom_track_33 (
.in({chany_top_in[10], chanx_right_in[6], chanx_right_in[13]}),
.sram(mux_tree_tapbuf_size3_4_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_4_sram_inv[0:1]),
.out(chany_bottom_out[16]));
mux_tree_tapbuf_size3_mem mem_right_track_16 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_0_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_right_track_18 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_1_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_right_track_20 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_2_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_2_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_right_track_22 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_3_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_3_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_bottom_track_33 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_4_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_4_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_4_sram_inv[0:1]));
mux_tree_tapbuf_size2 mux_right_track_26 (
.in({right_top_grid_pin_43_[0], chany_bottom_in[15]}),
.sram(mux_tree_tapbuf_size2_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_0_sram_inv[0:1]),
.out(chanx_right_out[13]));
mux_tree_tapbuf_size2_mem mem_right_track_26 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_0_sram_inv[0:1]));
endmodule
//

312
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/sb_0__2_.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module sb_0__2_(prog_clk,
chanx_right_in,
right_top_grid_pin_1_,
chany_bottom_in,
bottom_left_grid_pin_1_,
ccff_head,
chanx_right_out,
chany_bottom_out,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chanx_right_in;
//
input [0:0] right_top_grid_pin_1_;
//
input [0:19] chany_bottom_in;
//
input [0:0] bottom_left_grid_pin_1_;
//
input [0:0] ccff_head;
//
output [0:19] chanx_right_out;
//
output [0:19] chany_bottom_out;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:1] mux_tree_tapbuf_size2_0_sram;
wire [0:1] mux_tree_tapbuf_size2_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_1_sram;
wire [0:1] mux_tree_tapbuf_size2_1_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_2_sram;
wire [0:1] mux_tree_tapbuf_size2_2_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_3_sram;
wire [0:1] mux_tree_tapbuf_size2_3_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_4_sram;
wire [0:1] mux_tree_tapbuf_size2_4_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_5_sram;
wire [0:1] mux_tree_tapbuf_size2_5_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_6_sram;
wire [0:1] mux_tree_tapbuf_size2_6_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_7_sram;
wire [0:1] mux_tree_tapbuf_size2_7_sram_inv;
wire [0:0] mux_tree_tapbuf_size2_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_6_ccff_tail;
//
//
//
//
assign chany_bottom_out[18] = chanx_right_in[0];
//
//
//
assign chany_bottom_out[17] = chanx_right_in[1];
//
//
//
assign chany_bottom_out[16] = chanx_right_in[2];
//
//
//
assign chany_bottom_out[15] = chanx_right_in[3];
//
//
//
assign chany_bottom_out[14] = chanx_right_in[4];
//
//
//
assign chany_bottom_out[13] = chanx_right_in[5];
//
//
//
assign chany_bottom_out[11] = chanx_right_in[7];
//
//
//
assign chany_bottom_out[10] = chanx_right_in[8];
//
//
//
assign chany_bottom_out[9] = chanx_right_in[9];
//
//
//
assign chany_bottom_out[8] = chanx_right_in[10];
//
//
//
assign chany_bottom_out[7] = chanx_right_in[11];
//
//
//
assign chany_bottom_out[6] = chanx_right_in[12];
//
//
//
assign chany_bottom_out[5] = chanx_right_in[13];
//
//
//
assign chany_bottom_out[3] = chanx_right_in[15];
//
//
//
assign chany_bottom_out[1] = chanx_right_in[17];
//
//
//
assign chany_bottom_out[19] = chanx_right_in[19];
//
//
//
assign chanx_right_out[18] = chany_bottom_in[0];
//
//
//
assign chanx_right_out[17] = chany_bottom_in[1];
//
//
//
assign chanx_right_out[16] = chany_bottom_in[2];
//
//
//
assign chanx_right_out[15] = chany_bottom_in[3];
//
//
//
assign chanx_right_out[14] = chany_bottom_in[4];
//
//
//
assign chanx_right_out[13] = chany_bottom_in[5];
//
//
//
assign chanx_right_out[11] = chany_bottom_in[7];
//
//
//
assign chanx_right_out[10] = chany_bottom_in[8];
//
//
//
assign chanx_right_out[9] = chany_bottom_in[9];
//
//
//
assign chanx_right_out[8] = chany_bottom_in[10];
//
//
//
assign chanx_right_out[7] = chany_bottom_in[11];
//
//
//
assign chanx_right_out[6] = chany_bottom_in[12];
//
//
//
assign chanx_right_out[5] = chany_bottom_in[13];
//
//
//
assign chanx_right_out[3] = chany_bottom_in[15];
//
//
//
assign chanx_right_out[1] = chany_bottom_in[17];
//
//
//
assign chanx_right_out[19] = chany_bottom_in[19];
//
//
//
mux_tree_tapbuf_size2 mux_right_track_0 (
.in({right_top_grid_pin_1_[0], chany_bottom_in[18]}),
.sram(mux_tree_tapbuf_size2_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_0_sram_inv[0:1]),
.out(chanx_right_out[0]));
mux_tree_tapbuf_size2 mux_right_track_4 (
.in({right_top_grid_pin_1_[0], chany_bottom_in[16]}),
.sram(mux_tree_tapbuf_size2_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_1_sram_inv[0:1]),
.out(chanx_right_out[2]));
mux_tree_tapbuf_size2 mux_right_track_8 (
.in({right_top_grid_pin_1_[0], chany_bottom_in[14]}),
.sram(mux_tree_tapbuf_size2_2_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_2_sram_inv[0:1]),
.out(chanx_right_out[4]));
mux_tree_tapbuf_size2 mux_right_track_24 (
.in({right_top_grid_pin_1_[0], chany_bottom_in[6]}),
.sram(mux_tree_tapbuf_size2_3_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_3_sram_inv[0:1]),
.out(chanx_right_out[12]));
mux_tree_tapbuf_size2 mux_bottom_track_1 (
.in({chanx_right_in[18], bottom_left_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size2_4_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_4_sram_inv[0:1]),
.out(chany_bottom_out[0]));
mux_tree_tapbuf_size2 mux_bottom_track_5 (
.in({chanx_right_in[16], bottom_left_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size2_5_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_5_sram_inv[0:1]),
.out(chany_bottom_out[2]));
mux_tree_tapbuf_size2 mux_bottom_track_9 (
.in({chanx_right_in[14], bottom_left_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size2_6_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_6_sram_inv[0:1]),
.out(chany_bottom_out[4]));
mux_tree_tapbuf_size2 mux_bottom_track_25 (
.in({chanx_right_in[6], bottom_left_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size2_7_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_7_sram_inv[0:1]),
.out(chany_bottom_out[12]));
mux_tree_tapbuf_size2_mem mem_right_track_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_0_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_right_track_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_1_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_right_track_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_2_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_2_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_right_track_24 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_3_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_3_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_4_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_4_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_5_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_5_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_6_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_6_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_25 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_6_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_7_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_7_sram_inv[0:1]));
endmodule
//

770
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/sb_1__0_.v Normal file
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@ -0,0 +1,770 @@
//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module sb_1__0_(prog_clk,
chany_top_in,
top_left_grid_pin_34_,
top_left_grid_pin_35_,
top_left_grid_pin_36_,
top_left_grid_pin_37_,
top_left_grid_pin_38_,
top_left_grid_pin_39_,
top_left_grid_pin_40_,
top_left_grid_pin_41_,
chanx_right_in,
right_top_grid_pin_42_,
right_top_grid_pin_43_,
right_top_grid_pin_44_,
right_top_grid_pin_45_,
right_top_grid_pin_46_,
right_top_grid_pin_47_,
right_top_grid_pin_48_,
right_top_grid_pin_49_,
right_bottom_grid_pin_1_,
chanx_left_in,
left_top_grid_pin_42_,
left_top_grid_pin_43_,
left_top_grid_pin_44_,
left_top_grid_pin_45_,
left_top_grid_pin_46_,
left_top_grid_pin_47_,
left_top_grid_pin_48_,
left_top_grid_pin_49_,
left_bottom_grid_pin_1_,
ccff_head,
chany_top_out,
chanx_right_out,
chanx_left_out,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chany_top_in;
//
input [0:0] top_left_grid_pin_34_;
//
input [0:0] top_left_grid_pin_35_;
//
input [0:0] top_left_grid_pin_36_;
//
input [0:0] top_left_grid_pin_37_;
//
input [0:0] top_left_grid_pin_38_;
//
input [0:0] top_left_grid_pin_39_;
//
input [0:0] top_left_grid_pin_40_;
//
input [0:0] top_left_grid_pin_41_;
//
input [0:19] chanx_right_in;
//
input [0:0] right_top_grid_pin_42_;
//
input [0:0] right_top_grid_pin_43_;
//
input [0:0] right_top_grid_pin_44_;
//
input [0:0] right_top_grid_pin_45_;
//
input [0:0] right_top_grid_pin_46_;
//
input [0:0] right_top_grid_pin_47_;
//
input [0:0] right_top_grid_pin_48_;
//
input [0:0] right_top_grid_pin_49_;
//
input [0:0] right_bottom_grid_pin_1_;
//
input [0:19] chanx_left_in;
//
input [0:0] left_top_grid_pin_42_;
//
input [0:0] left_top_grid_pin_43_;
//
input [0:0] left_top_grid_pin_44_;
//
input [0:0] left_top_grid_pin_45_;
//
input [0:0] left_top_grid_pin_46_;
//
input [0:0] left_top_grid_pin_47_;
//
input [0:0] left_top_grid_pin_48_;
//
input [0:0] left_top_grid_pin_49_;
//
input [0:0] left_bottom_grid_pin_1_;
//
input [0:0] ccff_head;
//
output [0:19] chany_top_out;
//
output [0:19] chanx_right_out;
//
output [0:19] chanx_left_out;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:3] mux_tree_tapbuf_size10_0_sram;
wire [0:3] mux_tree_tapbuf_size10_0_sram_inv;
wire [0:0] mux_tree_tapbuf_size10_mem_0_ccff_tail;
wire [0:3] mux_tree_tapbuf_size14_0_sram;
wire [0:3] mux_tree_tapbuf_size14_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size14_1_sram;
wire [0:3] mux_tree_tapbuf_size14_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size14_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size14_mem_1_ccff_tail;
wire [0:1] mux_tree_tapbuf_size2_0_sram;
wire [0:1] mux_tree_tapbuf_size2_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_1_sram;
wire [0:1] mux_tree_tapbuf_size2_1_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_2_sram;
wire [0:1] mux_tree_tapbuf_size2_2_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_3_sram;
wire [0:1] mux_tree_tapbuf_size2_3_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_4_sram;
wire [0:1] mux_tree_tapbuf_size2_4_sram_inv;
wire [0:0] mux_tree_tapbuf_size2_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_4_ccff_tail;
wire [0:1] mux_tree_tapbuf_size3_0_sram;
wire [0:1] mux_tree_tapbuf_size3_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_1_sram;
wire [0:1] mux_tree_tapbuf_size3_1_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_2_sram;
wire [0:1] mux_tree_tapbuf_size3_2_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_3_sram;
wire [0:1] mux_tree_tapbuf_size3_3_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_4_sram;
wire [0:1] mux_tree_tapbuf_size3_4_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_5_sram;
wire [0:1] mux_tree_tapbuf_size3_5_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_6_sram;
wire [0:1] mux_tree_tapbuf_size3_6_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_7_sram;
wire [0:1] mux_tree_tapbuf_size3_7_sram_inv;
wire [0:0] mux_tree_tapbuf_size3_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_6_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_7_ccff_tail;
wire [0:2] mux_tree_tapbuf_size4_0_sram;
wire [0:2] mux_tree_tapbuf_size4_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_1_sram;
wire [0:2] mux_tree_tapbuf_size4_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size4_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size4_mem_1_ccff_tail;
wire [0:2] mux_tree_tapbuf_size6_0_sram;
wire [0:2] mux_tree_tapbuf_size6_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_1_sram;
wire [0:2] mux_tree_tapbuf_size6_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size6_mem_0_ccff_tail;
wire [0:2] mux_tree_tapbuf_size7_0_sram;
wire [0:2] mux_tree_tapbuf_size7_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_1_sram;
wire [0:2] mux_tree_tapbuf_size7_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_2_sram;
wire [0:2] mux_tree_tapbuf_size7_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_3_sram;
wire [0:2] mux_tree_tapbuf_size7_3_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_4_sram;
wire [0:2] mux_tree_tapbuf_size7_4_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_5_sram;
wire [0:2] mux_tree_tapbuf_size7_5_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_6_sram;
wire [0:2] mux_tree_tapbuf_size7_6_sram_inv;
wire [0:0] mux_tree_tapbuf_size7_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_6_ccff_tail;
wire [0:3] mux_tree_tapbuf_size8_0_sram;
wire [0:3] mux_tree_tapbuf_size8_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_1_sram;
wire [0:3] mux_tree_tapbuf_size8_1_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_2_sram;
wire [0:3] mux_tree_tapbuf_size8_2_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_3_sram;
wire [0:3] mux_tree_tapbuf_size8_3_sram_inv;
wire [0:0] mux_tree_tapbuf_size8_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_3_ccff_tail;
wire [0:3] mux_tree_tapbuf_size9_0_sram;
wire [0:3] mux_tree_tapbuf_size9_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size9_1_sram;
wire [0:3] mux_tree_tapbuf_size9_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size9_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size9_mem_1_ccff_tail;
//
//
//
//
assign chany_top_out[13] = top_left_grid_pin_35_[0];
//
//
//
assign chanx_left_out[3] = chanx_right_in[2];
//
//
//
assign chanx_left_out[5] = chanx_right_in[4];
//
//
//
assign chanx_left_out[6] = chanx_right_in[5];
//
//
//
assign chanx_left_out[7] = chanx_right_in[6];
//
//
//
assign chanx_left_out[9] = chanx_right_in[8];
//
//
//
assign chanx_left_out[10] = chanx_right_in[9];
//
//
//
assign chanx_left_out[11] = chanx_right_in[10];
//
//
//
assign chanx_left_out[13] = chanx_right_in[12];
//
//
//
assign chanx_left_out[14] = chanx_right_in[13];
//
//
//
assign chanx_left_out[15] = chanx_right_in[14];
//
//
//
assign chanx_left_out[17] = chanx_right_in[16];
//
//
//
assign chanx_left_out[18] = chanx_right_in[17];
//
//
//
assign chanx_left_out[19] = chanx_right_in[18];
//
//
//
assign chanx_right_out[3] = chanx_left_in[2];
//
//
//
assign chanx_right_out[5] = chanx_left_in[4];
//
//
//
assign chanx_right_out[6] = chanx_left_in[5];
//
//
//
assign chanx_right_out[7] = chanx_left_in[6];
//
//
//
assign chanx_right_out[9] = chanx_left_in[8];
//
//
//
assign chanx_right_out[10] = chanx_left_in[9];
//
//
//
assign chanx_right_out[11] = chanx_left_in[10];
//
//
//
assign chanx_right_out[13] = chanx_left_in[12];
//
//
//
assign chanx_right_out[14] = chanx_left_in[13];
//
//
//
assign chanx_right_out[15] = chanx_left_in[14];
//
//
//
assign chanx_right_out[17] = chanx_left_in[16];
//
//
//
assign chanx_right_out[18] = chanx_left_in[17];
//
//
//
assign chanx_right_out[19] = chanx_left_in[18];
//
//
//
mux_tree_tapbuf_size8 mux_top_track_0 (
.in({top_left_grid_pin_34_[0], top_left_grid_pin_36_[0], top_left_grid_pin_38_[0], top_left_grid_pin_40_[0], chanx_right_in[1:2], chanx_left_in[0], chanx_left_in[2]}),
.sram(mux_tree_tapbuf_size8_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_0_sram_inv[0:3]),
.out(chany_top_out[0]));
mux_tree_tapbuf_size8 mux_right_track_8 (
.in({chany_top_in[2], chany_top_in[9], chany_top_in[16], right_top_grid_pin_42_[0], right_top_grid_pin_46_[0], right_bottom_grid_pin_1_[0], chanx_left_in[6], chanx_left_in[16]}),
.sram(mux_tree_tapbuf_size8_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_1_sram_inv[0:3]),
.out(chanx_right_out[4]));
mux_tree_tapbuf_size8 mux_left_track_3 (
.in({chany_top_in[6], chany_top_in[13], chanx_right_in[4], chanx_right_in[13], left_top_grid_pin_43_[0], left_top_grid_pin_45_[0], left_top_grid_pin_47_[0], left_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size8_2_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_2_sram_inv[0:3]),
.out(chanx_left_out[1]));
mux_tree_tapbuf_size8 mux_left_track_9 (
.in({chany_top_in[4], chany_top_in[11], chany_top_in[18], chanx_right_in[6], chanx_right_in[16], left_top_grid_pin_42_[0], left_top_grid_pin_46_[0], left_bottom_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size8_3_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_3_sram_inv[0:3]),
.out(chanx_left_out[4]));
mux_tree_tapbuf_size8_mem mem_top_track_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_0_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_right_track_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size14_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_1_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_left_track_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_2_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_2_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_left_track_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size14_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_3_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_3_sram_inv[0:3]));
mux_tree_tapbuf_size7 mux_top_track_2 (
.in({top_left_grid_pin_35_[0], top_left_grid_pin_37_[0], top_left_grid_pin_39_[0], top_left_grid_pin_41_[0], chanx_right_in[3:4], chanx_left_in[4]}),
.sram(mux_tree_tapbuf_size7_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_0_sram_inv[0:2]),
.out(chany_top_out[1]));
mux_tree_tapbuf_size7 mux_top_track_4 (
.in({top_left_grid_pin_34_[0], top_left_grid_pin_36_[0], top_left_grid_pin_38_[0], top_left_grid_pin_40_[0], chanx_right_in[5], chanx_right_in[7], chanx_left_in[5]}),
.sram(mux_tree_tapbuf_size7_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_1_sram_inv[0:2]),
.out(chany_top_out[2]));
mux_tree_tapbuf_size7 mux_top_track_6 (
.in({top_left_grid_pin_35_[0], top_left_grid_pin_37_[0], top_left_grid_pin_39_[0], top_left_grid_pin_41_[0], chanx_right_in[6], chanx_right_in[11], chanx_left_in[6]}),
.sram(mux_tree_tapbuf_size7_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_2_sram_inv[0:2]),
.out(chany_top_out[3]));
mux_tree_tapbuf_size7 mux_right_track_16 (
.in({chany_top_in[3], chany_top_in[10], chany_top_in[17], right_top_grid_pin_43_[0], right_top_grid_pin_47_[0], chanx_left_in[8], chanx_left_in[17]}),
.sram(mux_tree_tapbuf_size7_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_3_sram_inv[0:2]),
.out(chanx_right_out[8]));
mux_tree_tapbuf_size7 mux_right_track_24 (
.in({chany_top_in[4], chany_top_in[11], chany_top_in[18], right_top_grid_pin_44_[0], right_top_grid_pin_48_[0], chanx_left_in[9], chanx_left_in[18]}),
.sram(mux_tree_tapbuf_size7_4_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_4_sram_inv[0:2]),
.out(chanx_right_out[12]));
mux_tree_tapbuf_size7 mux_left_track_17 (
.in({chany_top_in[3], chany_top_in[10], chany_top_in[17], chanx_right_in[8], chanx_right_in[17], left_top_grid_pin_43_[0], left_top_grid_pin_47_[0]}),
.sram(mux_tree_tapbuf_size7_5_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_5_sram_inv[0:2]),
.out(chanx_left_out[8]));
mux_tree_tapbuf_size7 mux_left_track_25 (
.in({chany_top_in[2], chany_top_in[9], chany_top_in[16], chanx_right_in[9], chanx_right_in[18], left_top_grid_pin_44_[0], left_top_grid_pin_48_[0]}),
.sram(mux_tree_tapbuf_size7_6_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_6_sram_inv[0:2]),
.out(chanx_left_out[12]));
mux_tree_tapbuf_size7_mem mem_top_track_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_0_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_top_track_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_1_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_top_track_6 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_2_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_right_track_16 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_3_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_right_track_24 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_4_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_4_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_left_track_17 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_5_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_5_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_left_track_25 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_6_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_6_sram_inv[0:2]));
mux_tree_tapbuf_size4 mux_top_track_8 (
.in({top_left_grid_pin_34_[0], chanx_right_in[8], chanx_right_in[15], chanx_left_in[8]}),
.sram(mux_tree_tapbuf_size4_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_0_sram_inv[0:2]),
.out(chany_top_out[4]));
mux_tree_tapbuf_size4 mux_top_track_10 (
.in({top_left_grid_pin_35_[0], chanx_right_in[9], chanx_right_in[19], chanx_left_in[9]}),
.sram(mux_tree_tapbuf_size4_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_1_sram_inv[0:2]),
.out(chany_top_out[5]));
mux_tree_tapbuf_size4_mem mem_top_track_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_0_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_top_track_10 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_1_sram_inv[0:2]));
mux_tree_tapbuf_size3 mux_top_track_12 (
.in({top_left_grid_pin_36_[0], chanx_right_in[10], chanx_left_in[10]}),
.sram(mux_tree_tapbuf_size3_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_0_sram_inv[0:1]),
.out(chany_top_out[6]));
mux_tree_tapbuf_size3 mux_top_track_14 (
.in({top_left_grid_pin_37_[0], chanx_right_in[12], chanx_left_in[12]}),
.sram(mux_tree_tapbuf_size3_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_1_sram_inv[0:1]),
.out(chany_top_out[7]));
mux_tree_tapbuf_size3 mux_top_track_16 (
.in({top_left_grid_pin_38_[0], chanx_right_in[13], chanx_left_in[13]}),
.sram(mux_tree_tapbuf_size3_2_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_2_sram_inv[0:1]),
.out(chany_top_out[8]));
mux_tree_tapbuf_size3 mux_top_track_18 (
.in({top_left_grid_pin_39_[0], chanx_right_in[14], chanx_left_in[14]}),
.sram(mux_tree_tapbuf_size3_3_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_3_sram_inv[0:1]),
.out(chany_top_out[9]));
mux_tree_tapbuf_size3 mux_top_track_20 (
.in({top_left_grid_pin_40_[0], chanx_right_in[16], chanx_left_in[16]}),
.sram(mux_tree_tapbuf_size3_4_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_4_sram_inv[0:1]),
.out(chany_top_out[10]));
mux_tree_tapbuf_size3 mux_top_track_22 (
.in({top_left_grid_pin_41_[0], chanx_right_in[17], chanx_left_in[17]}),
.sram(mux_tree_tapbuf_size3_5_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_5_sram_inv[0:1]),
.out(chany_top_out[11]));
mux_tree_tapbuf_size3 mux_top_track_24 (
.in({top_left_grid_pin_34_[0], chanx_right_in[18], chanx_left_in[18]}),
.sram(mux_tree_tapbuf_size3_6_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_6_sram_inv[0:1]),
.out(chany_top_out[12]));
mux_tree_tapbuf_size3 mux_top_track_38 (
.in({top_left_grid_pin_41_[0], chanx_right_in[0], chanx_left_in[1]}),
.sram(mux_tree_tapbuf_size3_7_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_7_sram_inv[0:1]),
.out(chany_top_out[19]));
mux_tree_tapbuf_size3_mem mem_top_track_12 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_0_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_top_track_14 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_1_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_top_track_16 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_2_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_2_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_top_track_18 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_3_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_3_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_top_track_20 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_4_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_4_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_top_track_22 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_5_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_5_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_top_track_24 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_6_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_6_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_top_track_38 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_7_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_7_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_7_sram_inv[0:1]));
mux_tree_tapbuf_size2 mux_top_track_28 (
.in({top_left_grid_pin_36_[0], chanx_left_in[19]}),
.sram(mux_tree_tapbuf_size2_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_0_sram_inv[0:1]),
.out(chany_top_out[14]));
mux_tree_tapbuf_size2 mux_top_track_30 (
.in({top_left_grid_pin_37_[0], chanx_left_in[15]}),
.sram(mux_tree_tapbuf_size2_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_1_sram_inv[0:1]),
.out(chany_top_out[15]));
mux_tree_tapbuf_size2 mux_top_track_32 (
.in({top_left_grid_pin_38_[0], chanx_left_in[11]}),
.sram(mux_tree_tapbuf_size2_2_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_2_sram_inv[0:1]),
.out(chany_top_out[16]));
mux_tree_tapbuf_size2 mux_top_track_34 (
.in({top_left_grid_pin_39_[0], chanx_left_in[7]}),
.sram(mux_tree_tapbuf_size2_3_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_3_sram_inv[0:1]),
.out(chany_top_out[17]));
mux_tree_tapbuf_size2 mux_top_track_36 (
.in({top_left_grid_pin_40_[0], chanx_left_in[3]}),
.sram(mux_tree_tapbuf_size2_4_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_4_sram_inv[0:1]),
.out(chany_top_out[18]));
mux_tree_tapbuf_size2_mem mem_top_track_28 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_0_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_30 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_1_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_32 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_2_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_2_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_34 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_3_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_3_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_36 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_4_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_4_sram_inv[0:1]));
mux_tree_tapbuf_size9 mux_right_track_0 (
.in({chany_top_in[6], chany_top_in[13], right_top_grid_pin_42_[0], right_top_grid_pin_44_[0], right_top_grid_pin_46_[0], right_top_grid_pin_48_[0], right_bottom_grid_pin_1_[0], chanx_left_in[2], chanx_left_in[12]}),
.sram(mux_tree_tapbuf_size9_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size9_0_sram_inv[0:3]),
.out(chanx_right_out[0]));
mux_tree_tapbuf_size9 mux_right_track_2 (
.in({chany_top_in[0], chany_top_in[7], chany_top_in[14], right_top_grid_pin_43_[0], right_top_grid_pin_45_[0], right_top_grid_pin_47_[0], right_top_grid_pin_49_[0], chanx_left_in[4], chanx_left_in[13]}),
.sram(mux_tree_tapbuf_size9_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size9_1_sram_inv[0:3]),
.out(chanx_right_out[1]));
mux_tree_tapbuf_size9_mem mem_right_track_0 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_7_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size9_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size9_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size9_0_sram_inv[0:3]));
mux_tree_tapbuf_size9_mem mem_right_track_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size9_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size9_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size9_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size9_1_sram_inv[0:3]));
mux_tree_tapbuf_size14 mux_right_track_4 (
.in({chany_top_in[1], chany_top_in[8], chany_top_in[15], right_top_grid_pin_42_[0], right_top_grid_pin_43_[0], right_top_grid_pin_44_[0], right_top_grid_pin_45_[0], right_top_grid_pin_46_[0], right_top_grid_pin_47_[0], right_top_grid_pin_48_[0], right_top_grid_pin_49_[0], right_bottom_grid_pin_1_[0], chanx_left_in[5], chanx_left_in[14]}),
.sram(mux_tree_tapbuf_size14_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size14_0_sram_inv[0:3]),
.out(chanx_right_out[2]));
mux_tree_tapbuf_size14 mux_left_track_5 (
.in({chany_top_in[5], chany_top_in[12], chany_top_in[19], chanx_right_in[5], chanx_right_in[14], left_top_grid_pin_42_[0], left_top_grid_pin_43_[0], left_top_grid_pin_44_[0], left_top_grid_pin_45_[0], left_top_grid_pin_46_[0], left_top_grid_pin_47_[0], left_top_grid_pin_48_[0], left_top_grid_pin_49_[0], left_bottom_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size14_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size14_1_sram_inv[0:3]),
.out(chanx_left_out[2]));
mux_tree_tapbuf_size14_mem mem_right_track_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size9_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size14_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size14_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size14_0_sram_inv[0:3]));
mux_tree_tapbuf_size14_mem mem_left_track_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size14_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size14_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size14_1_sram_inv[0:3]));
mux_tree_tapbuf_size6 mux_right_track_32 (
.in({chany_top_in[5], chany_top_in[12], chany_top_in[19], right_top_grid_pin_45_[0], right_top_grid_pin_49_[0], chanx_left_in[10]}),
.sram(mux_tree_tapbuf_size6_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_0_sram_inv[0:2]),
.out(chanx_right_out[16]));
mux_tree_tapbuf_size6 mux_left_track_33 (
.in({chany_top_in[1], chany_top_in[8], chany_top_in[15], chanx_right_in[10], left_top_grid_pin_45_[0], left_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size6_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_1_sram_inv[0:2]),
.out(chanx_left_out[16]));
mux_tree_tapbuf_size6_mem mem_right_track_32 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_0_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_left_track_33 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_6_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_1_sram_inv[0:2]));
mux_tree_tapbuf_size10 mux_left_track_1 (
.in({chany_top_in[0], chany_top_in[7], chany_top_in[14], chanx_right_in[2], chanx_right_in[12], left_top_grid_pin_42_[0], left_top_grid_pin_44_[0], left_top_grid_pin_46_[0], left_top_grid_pin_48_[0], left_bottom_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size10_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_0_sram_inv[0:3]),
.out(chanx_left_out[0]));
mux_tree_tapbuf_size10_mem mem_left_track_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_0_sram_inv[0:3]));
endmodule
//

814
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/sb_1__1_.v Normal file
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@ -0,0 +1,814 @@
//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module sb_1__1_(prog_clk,
chany_top_in,
top_left_grid_pin_34_,
top_left_grid_pin_35_,
top_left_grid_pin_36_,
top_left_grid_pin_37_,
top_left_grid_pin_38_,
top_left_grid_pin_39_,
top_left_grid_pin_40_,
top_left_grid_pin_41_,
chanx_right_in,
right_top_grid_pin_42_,
right_top_grid_pin_43_,
right_top_grid_pin_44_,
right_top_grid_pin_45_,
right_top_grid_pin_46_,
right_top_grid_pin_47_,
right_top_grid_pin_48_,
right_top_grid_pin_49_,
chany_bottom_in,
bottom_left_grid_pin_34_,
bottom_left_grid_pin_35_,
bottom_left_grid_pin_36_,
bottom_left_grid_pin_37_,
bottom_left_grid_pin_38_,
bottom_left_grid_pin_39_,
bottom_left_grid_pin_40_,
bottom_left_grid_pin_41_,
chanx_left_in,
left_top_grid_pin_42_,
left_top_grid_pin_43_,
left_top_grid_pin_44_,
left_top_grid_pin_45_,
left_top_grid_pin_46_,
left_top_grid_pin_47_,
left_top_grid_pin_48_,
left_top_grid_pin_49_,
ccff_head,
chany_top_out,
chanx_right_out,
chany_bottom_out,
chanx_left_out,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chany_top_in;
//
input [0:0] top_left_grid_pin_34_;
//
input [0:0] top_left_grid_pin_35_;
//
input [0:0] top_left_grid_pin_36_;
//
input [0:0] top_left_grid_pin_37_;
//
input [0:0] top_left_grid_pin_38_;
//
input [0:0] top_left_grid_pin_39_;
//
input [0:0] top_left_grid_pin_40_;
//
input [0:0] top_left_grid_pin_41_;
//
input [0:19] chanx_right_in;
//
input [0:0] right_top_grid_pin_42_;
//
input [0:0] right_top_grid_pin_43_;
//
input [0:0] right_top_grid_pin_44_;
//
input [0:0] right_top_grid_pin_45_;
//
input [0:0] right_top_grid_pin_46_;
//
input [0:0] right_top_grid_pin_47_;
//
input [0:0] right_top_grid_pin_48_;
//
input [0:0] right_top_grid_pin_49_;
//
input [0:19] chany_bottom_in;
//
input [0:0] bottom_left_grid_pin_34_;
//
input [0:0] bottom_left_grid_pin_35_;
//
input [0:0] bottom_left_grid_pin_36_;
//
input [0:0] bottom_left_grid_pin_37_;
//
input [0:0] bottom_left_grid_pin_38_;
//
input [0:0] bottom_left_grid_pin_39_;
//
input [0:0] bottom_left_grid_pin_40_;
//
input [0:0] bottom_left_grid_pin_41_;
//
input [0:19] chanx_left_in;
//
input [0:0] left_top_grid_pin_42_;
//
input [0:0] left_top_grid_pin_43_;
//
input [0:0] left_top_grid_pin_44_;
//
input [0:0] left_top_grid_pin_45_;
//
input [0:0] left_top_grid_pin_46_;
//
input [0:0] left_top_grid_pin_47_;
//
input [0:0] left_top_grid_pin_48_;
//
input [0:0] left_top_grid_pin_49_;
//
input [0:0] ccff_head;
//
output [0:19] chany_top_out;
//
output [0:19] chanx_right_out;
//
output [0:19] chany_bottom_out;
//
output [0:19] chanx_left_out;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:3] mux_tree_tapbuf_size10_0_sram;
wire [0:3] mux_tree_tapbuf_size10_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_10_sram;
wire [0:3] mux_tree_tapbuf_size10_10_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_11_sram;
wire [0:3] mux_tree_tapbuf_size10_11_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_1_sram;
wire [0:3] mux_tree_tapbuf_size10_1_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_2_sram;
wire [0:3] mux_tree_tapbuf_size10_2_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_3_sram;
wire [0:3] mux_tree_tapbuf_size10_3_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_4_sram;
wire [0:3] mux_tree_tapbuf_size10_4_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_5_sram;
wire [0:3] mux_tree_tapbuf_size10_5_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_6_sram;
wire [0:3] mux_tree_tapbuf_size10_6_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_7_sram;
wire [0:3] mux_tree_tapbuf_size10_7_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_8_sram;
wire [0:3] mux_tree_tapbuf_size10_8_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_9_sram;
wire [0:3] mux_tree_tapbuf_size10_9_sram_inv;
wire [0:0] mux_tree_tapbuf_size10_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_10_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_11_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_6_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_7_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_8_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_9_ccff_tail;
wire [0:3] mux_tree_tapbuf_size12_0_sram;
wire [0:3] mux_tree_tapbuf_size12_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size12_1_sram;
wire [0:3] mux_tree_tapbuf_size12_1_sram_inv;
wire [0:3] mux_tree_tapbuf_size12_2_sram;
wire [0:3] mux_tree_tapbuf_size12_2_sram_inv;
wire [0:3] mux_tree_tapbuf_size12_3_sram;
wire [0:3] mux_tree_tapbuf_size12_3_sram_inv;
wire [0:3] mux_tree_tapbuf_size12_4_sram;
wire [0:3] mux_tree_tapbuf_size12_4_sram_inv;
wire [0:3] mux_tree_tapbuf_size12_5_sram;
wire [0:3] mux_tree_tapbuf_size12_5_sram_inv;
wire [0:3] mux_tree_tapbuf_size12_6_sram;
wire [0:3] mux_tree_tapbuf_size12_6_sram_inv;
wire [0:3] mux_tree_tapbuf_size12_7_sram;
wire [0:3] mux_tree_tapbuf_size12_7_sram_inv;
wire [0:0] mux_tree_tapbuf_size12_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size12_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size12_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size12_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size12_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size12_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size12_mem_6_ccff_tail;
wire [0:0] mux_tree_tapbuf_size12_mem_7_ccff_tail;
wire [0:4] mux_tree_tapbuf_size16_0_sram;
wire [0:4] mux_tree_tapbuf_size16_0_sram_inv;
wire [0:4] mux_tree_tapbuf_size16_1_sram;
wire [0:4] mux_tree_tapbuf_size16_1_sram_inv;
wire [0:4] mux_tree_tapbuf_size16_2_sram;
wire [0:4] mux_tree_tapbuf_size16_2_sram_inv;
wire [0:4] mux_tree_tapbuf_size16_3_sram;
wire [0:4] mux_tree_tapbuf_size16_3_sram_inv;
wire [0:0] mux_tree_tapbuf_size16_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size16_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size16_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size16_mem_3_ccff_tail;
wire [0:2] mux_tree_tapbuf_size7_0_sram;
wire [0:2] mux_tree_tapbuf_size7_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_1_sram;
wire [0:2] mux_tree_tapbuf_size7_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_2_sram;
wire [0:2] mux_tree_tapbuf_size7_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_3_sram;
wire [0:2] mux_tree_tapbuf_size7_3_sram_inv;
wire [0:0] mux_tree_tapbuf_size7_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_2_ccff_tail;
//
//
//
//
assign chany_bottom_out[3] = chany_top_in[2];
//
//
//
assign chany_bottom_out[5] = chany_top_in[4];
//
//
//
assign chany_bottom_out[6] = chany_top_in[5];
//
//
//
assign chany_bottom_out[7] = chany_top_in[6];
//
//
//
assign chany_bottom_out[9] = chany_top_in[8];
//
//
//
assign chany_bottom_out[10] = chany_top_in[9];
//
//
//
assign chany_bottom_out[11] = chany_top_in[10];
//
//
//
assign chany_bottom_out[13] = chany_top_in[12];
//
//
//
assign chany_bottom_out[14] = chany_top_in[13];
//
//
//
assign chany_bottom_out[15] = chany_top_in[14];
//
//
//
assign chany_bottom_out[17] = chany_top_in[16];
//
//
//
assign chany_bottom_out[18] = chany_top_in[17];
//
//
//
assign chany_bottom_out[19] = chany_top_in[18];
//
//
//
assign chanx_left_out[3] = chanx_right_in[2];
//
//
//
assign chanx_left_out[5] = chanx_right_in[4];
//
//
//
assign chanx_left_out[6] = chanx_right_in[5];
//
//
//
assign chanx_left_out[7] = chanx_right_in[6];
//
//
//
assign chanx_left_out[9] = chanx_right_in[8];
//
//
//
assign chanx_left_out[10] = chanx_right_in[9];
//
//
//
assign chanx_left_out[11] = chanx_right_in[10];
//
//
//
assign chanx_left_out[13] = chanx_right_in[12];
//
//
//
assign chanx_left_out[14] = chanx_right_in[13];
//
//
//
assign chanx_left_out[15] = chanx_right_in[14];
//
//
//
assign chanx_left_out[17] = chanx_right_in[16];
//
//
//
assign chanx_left_out[18] = chanx_right_in[17];
//
//
//
assign chanx_left_out[19] = chanx_right_in[18];
//
//
//
assign chany_top_out[3] = chany_bottom_in[2];
//
//
//
assign chany_top_out[5] = chany_bottom_in[4];
//
//
//
assign chany_top_out[6] = chany_bottom_in[5];
//
//
//
assign chany_top_out[7] = chany_bottom_in[6];
//
//
//
assign chany_top_out[9] = chany_bottom_in[8];
//
//
//
assign chany_top_out[10] = chany_bottom_in[9];
//
//
//
assign chany_top_out[11] = chany_bottom_in[10];
//
//
//
assign chany_top_out[13] = chany_bottom_in[12];
//
//
//
assign chany_top_out[14] = chany_bottom_in[13];
//
//
//
assign chany_top_out[15] = chany_bottom_in[14];
//
//
//
assign chany_top_out[17] = chany_bottom_in[16];
//
//
//
assign chany_top_out[18] = chany_bottom_in[17];
//
//
//
assign chany_top_out[19] = chany_bottom_in[18];
//
//
//
assign chanx_right_out[3] = chanx_left_in[2];
//
//
//
assign chanx_right_out[5] = chanx_left_in[4];
//
//
//
assign chanx_right_out[6] = chanx_left_in[5];
//
//
//
assign chanx_right_out[7] = chanx_left_in[6];
//
//
//
assign chanx_right_out[9] = chanx_left_in[8];
//
//
//
assign chanx_right_out[10] = chanx_left_in[9];
//
//
//
assign chanx_right_out[11] = chanx_left_in[10];
//
//
//
assign chanx_right_out[13] = chanx_left_in[12];
//
//
//
assign chanx_right_out[14] = chanx_left_in[13];
//
//
//
assign chanx_right_out[15] = chanx_left_in[14];
//
//
//
assign chanx_right_out[17] = chanx_left_in[16];
//
//
//
assign chanx_right_out[18] = chanx_left_in[17];
//
//
//
assign chanx_right_out[19] = chanx_left_in[18];
//
//
//
mux_tree_tapbuf_size12 mux_top_track_0 (
.in({top_left_grid_pin_34_[0], top_left_grid_pin_36_[0], top_left_grid_pin_38_[0], top_left_grid_pin_40_[0], chanx_right_in[1:2], chanx_right_in[12], chany_bottom_in[2], chany_bottom_in[12], chanx_left_in[0], chanx_left_in[2], chanx_left_in[12]}),
.sram(mux_tree_tapbuf_size12_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size12_0_sram_inv[0:3]),
.out(chany_top_out[0]));
mux_tree_tapbuf_size12 mux_top_track_2 (
.in({top_left_grid_pin_35_[0], top_left_grid_pin_37_[0], top_left_grid_pin_39_[0], top_left_grid_pin_41_[0], chanx_right_in[3:4], chanx_right_in[13], chany_bottom_in[4], chany_bottom_in[13], chanx_left_in[4], chanx_left_in[13], chanx_left_in[19]}),
.sram(mux_tree_tapbuf_size12_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size12_1_sram_inv[0:3]),
.out(chany_top_out[1]));
mux_tree_tapbuf_size12 mux_right_track_0 (
.in({chany_top_in[2], chany_top_in[12], chany_top_in[19], right_top_grid_pin_42_[0], right_top_grid_pin_44_[0], right_top_grid_pin_46_[0], right_top_grid_pin_48_[0], chany_bottom_in[2], chany_bottom_in[12], chany_bottom_in[15], chanx_left_in[2], chanx_left_in[12]}),
.sram(mux_tree_tapbuf_size12_2_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size12_2_sram_inv[0:3]),
.out(chanx_right_out[0]));
mux_tree_tapbuf_size12 mux_right_track_2 (
.in({chany_top_in[0], chany_top_in[4], chany_top_in[13], right_top_grid_pin_43_[0], right_top_grid_pin_45_[0], right_top_grid_pin_47_[0], right_top_grid_pin_49_[0], chany_bottom_in[4], chany_bottom_in[11], chany_bottom_in[13], chanx_left_in[4], chanx_left_in[13]}),
.sram(mux_tree_tapbuf_size12_3_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size12_3_sram_inv[0:3]),
.out(chanx_right_out[1]));
mux_tree_tapbuf_size12 mux_bottom_track_1 (
.in({chany_top_in[2], chany_top_in[12], chanx_right_in[2], chanx_right_in[12], chanx_right_in[15], bottom_left_grid_pin_34_[0], bottom_left_grid_pin_36_[0], bottom_left_grid_pin_38_[0], bottom_left_grid_pin_40_[0], chanx_left_in[1:2], chanx_left_in[12]}),
.sram(mux_tree_tapbuf_size12_4_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size12_4_sram_inv[0:3]),
.out(chany_bottom_out[0]));
mux_tree_tapbuf_size12 mux_bottom_track_3 (
.in({chany_top_in[4], chany_top_in[13], chanx_right_in[4], chanx_right_in[11], chanx_right_in[13], bottom_left_grid_pin_35_[0], bottom_left_grid_pin_37_[0], bottom_left_grid_pin_39_[0], bottom_left_grid_pin_41_[0], chanx_left_in[3:4], chanx_left_in[13]}),
.sram(mux_tree_tapbuf_size12_5_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size12_5_sram_inv[0:3]),
.out(chany_bottom_out[1]));
mux_tree_tapbuf_size12 mux_left_track_1 (
.in({chany_top_in[0], chany_top_in[2], chany_top_in[12], chanx_right_in[2], chanx_right_in[12], chany_bottom_in[2], chany_bottom_in[12], chany_bottom_in[19], left_top_grid_pin_42_[0], left_top_grid_pin_44_[0], left_top_grid_pin_46_[0], left_top_grid_pin_48_[0]}),
.sram(mux_tree_tapbuf_size12_6_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size12_6_sram_inv[0:3]),
.out(chanx_left_out[0]));
mux_tree_tapbuf_size12 mux_left_track_3 (
.in({chany_top_in[4], chany_top_in[13], chany_top_in[19], chanx_right_in[4], chanx_right_in[13], chany_bottom_in[0], chany_bottom_in[4], chany_bottom_in[13], left_top_grid_pin_43_[0], left_top_grid_pin_45_[0], left_top_grid_pin_47_[0], left_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size12_7_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size12_7_sram_inv[0:3]),
.out(chanx_left_out[1]));
mux_tree_tapbuf_size12_mem mem_top_track_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size12_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size12_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size12_0_sram_inv[0:3]));
mux_tree_tapbuf_size12_mem mem_top_track_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size12_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size12_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size12_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size12_1_sram_inv[0:3]));
mux_tree_tapbuf_size12_mem mem_right_track_0 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size12_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size12_2_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size12_2_sram_inv[0:3]));
mux_tree_tapbuf_size12_mem mem_right_track_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size12_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size12_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size12_3_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size12_3_sram_inv[0:3]));
mux_tree_tapbuf_size12_mem mem_bottom_track_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size12_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size12_4_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size12_4_sram_inv[0:3]));
mux_tree_tapbuf_size12_mem mem_bottom_track_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size12_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size12_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size12_5_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size12_5_sram_inv[0:3]));
mux_tree_tapbuf_size12_mem mem_left_track_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size12_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size12_6_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size12_6_sram_inv[0:3]));
mux_tree_tapbuf_size12_mem mem_left_track_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size12_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size12_mem_7_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size12_7_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size12_7_sram_inv[0:3]));
mux_tree_tapbuf_size16 mux_top_track_4 (
.in({top_left_grid_pin_34_[0], top_left_grid_pin_35_[0], top_left_grid_pin_36_[0], top_left_grid_pin_37_[0], top_left_grid_pin_38_[0], top_left_grid_pin_39_[0], top_left_grid_pin_40_[0], top_left_grid_pin_41_[0], chanx_right_in[5], chanx_right_in[7], chanx_right_in[14], chany_bottom_in[5], chany_bottom_in[14], chanx_left_in[5], chanx_left_in[14:15]}),
.sram(mux_tree_tapbuf_size16_0_sram[0:4]),
.sram_inv(mux_tree_tapbuf_size16_0_sram_inv[0:4]),
.out(chany_top_out[2]));
mux_tree_tapbuf_size16 mux_right_track_4 (
.in({chany_top_in[1], chany_top_in[5], chany_top_in[14], right_top_grid_pin_42_[0], right_top_grid_pin_43_[0], right_top_grid_pin_44_[0], right_top_grid_pin_45_[0], right_top_grid_pin_46_[0], right_top_grid_pin_47_[0], right_top_grid_pin_48_[0], right_top_grid_pin_49_[0], chany_bottom_in[5], chany_bottom_in[7], chany_bottom_in[14], chanx_left_in[5], chanx_left_in[14]}),
.sram(mux_tree_tapbuf_size16_1_sram[0:4]),
.sram_inv(mux_tree_tapbuf_size16_1_sram_inv[0:4]),
.out(chanx_right_out[2]));
mux_tree_tapbuf_size16 mux_bottom_track_5 (
.in({chany_top_in[5], chany_top_in[14], chanx_right_in[5], chanx_right_in[7], chanx_right_in[14], bottom_left_grid_pin_34_[0], bottom_left_grid_pin_35_[0], bottom_left_grid_pin_36_[0], bottom_left_grid_pin_37_[0], bottom_left_grid_pin_38_[0], bottom_left_grid_pin_39_[0], bottom_left_grid_pin_40_[0], bottom_left_grid_pin_41_[0], chanx_left_in[5], chanx_left_in[7], chanx_left_in[14]}),
.sram(mux_tree_tapbuf_size16_2_sram[0:4]),
.sram_inv(mux_tree_tapbuf_size16_2_sram_inv[0:4]),
.out(chany_bottom_out[2]));
mux_tree_tapbuf_size16 mux_left_track_5 (
.in({chany_top_in[5], chany_top_in[14:15], chanx_right_in[5], chanx_right_in[14], chany_bottom_in[1], chany_bottom_in[5], chany_bottom_in[14], left_top_grid_pin_42_[0], left_top_grid_pin_43_[0], left_top_grid_pin_44_[0], left_top_grid_pin_45_[0], left_top_grid_pin_46_[0], left_top_grid_pin_47_[0], left_top_grid_pin_48_[0], left_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size16_3_sram[0:4]),
.sram_inv(mux_tree_tapbuf_size16_3_sram_inv[0:4]),
.out(chanx_left_out[2]));
mux_tree_tapbuf_size16_mem mem_top_track_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size12_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size16_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size16_0_sram[0:4]),
.mem_outb(mux_tree_tapbuf_size16_0_sram_inv[0:4]));
mux_tree_tapbuf_size16_mem mem_right_track_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size12_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size16_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size16_1_sram[0:4]),
.mem_outb(mux_tree_tapbuf_size16_1_sram_inv[0:4]));
mux_tree_tapbuf_size16_mem mem_bottom_track_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size12_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size16_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size16_2_sram[0:4]),
.mem_outb(mux_tree_tapbuf_size16_2_sram_inv[0:4]));
mux_tree_tapbuf_size16_mem mem_left_track_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size12_mem_7_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size16_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size16_3_sram[0:4]),
.mem_outb(mux_tree_tapbuf_size16_3_sram_inv[0:4]));
mux_tree_tapbuf_size10 mux_top_track_8 (
.in({top_left_grid_pin_34_[0], top_left_grid_pin_38_[0], chanx_right_in[6], chanx_right_in[11], chanx_right_in[16], chany_bottom_in[6], chany_bottom_in[16], chanx_left_in[6], chanx_left_in[11], chanx_left_in[16]}),
.sram(mux_tree_tapbuf_size10_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_0_sram_inv[0:3]),
.out(chany_top_out[4]));
mux_tree_tapbuf_size10 mux_top_track_16 (
.in({top_left_grid_pin_35_[0], top_left_grid_pin_39_[0], chanx_right_in[8], chanx_right_in[15], chanx_right_in[17], chany_bottom_in[8], chany_bottom_in[17], chanx_left_in[7:8], chanx_left_in[17]}),
.sram(mux_tree_tapbuf_size10_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_1_sram_inv[0:3]),
.out(chany_top_out[8]));
mux_tree_tapbuf_size10 mux_top_track_24 (
.in({top_left_grid_pin_36_[0], top_left_grid_pin_40_[0], chanx_right_in[9], chanx_right_in[18:19], chany_bottom_in[9], chany_bottom_in[18], chanx_left_in[3], chanx_left_in[9], chanx_left_in[18]}),
.sram(mux_tree_tapbuf_size10_2_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_2_sram_inv[0:3]),
.out(chany_top_out[12]));
mux_tree_tapbuf_size10 mux_right_track_8 (
.in({chany_top_in[3], chany_top_in[6], chany_top_in[16], right_top_grid_pin_42_[0], right_top_grid_pin_46_[0], chany_bottom_in[3], chany_bottom_in[6], chany_bottom_in[16], chanx_left_in[6], chanx_left_in[16]}),
.sram(mux_tree_tapbuf_size10_3_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_3_sram_inv[0:3]),
.out(chanx_right_out[4]));
mux_tree_tapbuf_size10 mux_right_track_16 (
.in({chany_top_in[7:8], chany_top_in[17], right_top_grid_pin_43_[0], right_top_grid_pin_47_[0], chany_bottom_in[1], chany_bottom_in[8], chany_bottom_in[17], chanx_left_in[8], chanx_left_in[17]}),
.sram(mux_tree_tapbuf_size10_4_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_4_sram_inv[0:3]),
.out(chanx_right_out[8]));
mux_tree_tapbuf_size10 mux_right_track_24 (
.in({chany_top_in[9], chany_top_in[11], chany_top_in[18], right_top_grid_pin_44_[0], right_top_grid_pin_48_[0], chany_bottom_in[0], chany_bottom_in[9], chany_bottom_in[18], chanx_left_in[9], chanx_left_in[18]}),
.sram(mux_tree_tapbuf_size10_5_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_5_sram_inv[0:3]),
.out(chanx_right_out[12]));
mux_tree_tapbuf_size10 mux_bottom_track_9 (
.in({chany_top_in[6], chany_top_in[16], chanx_right_in[3], chanx_right_in[6], chanx_right_in[16], bottom_left_grid_pin_34_[0], bottom_left_grid_pin_38_[0], chanx_left_in[6], chanx_left_in[11], chanx_left_in[16]}),
.sram(mux_tree_tapbuf_size10_6_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_6_sram_inv[0:3]),
.out(chany_bottom_out[4]));
mux_tree_tapbuf_size10 mux_bottom_track_17 (
.in({chany_top_in[8], chany_top_in[17], chanx_right_in[1], chanx_right_in[8], chanx_right_in[17], bottom_left_grid_pin_35_[0], bottom_left_grid_pin_39_[0], chanx_left_in[8], chanx_left_in[15], chanx_left_in[17]}),
.sram(mux_tree_tapbuf_size10_7_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_7_sram_inv[0:3]),
.out(chany_bottom_out[8]));
mux_tree_tapbuf_size10 mux_bottom_track_25 (
.in({chany_top_in[9], chany_top_in[18], chanx_right_in[0], chanx_right_in[9], chanx_right_in[18], bottom_left_grid_pin_36_[0], bottom_left_grid_pin_40_[0], chanx_left_in[9], chanx_left_in[18:19]}),
.sram(mux_tree_tapbuf_size10_8_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_8_sram_inv[0:3]),
.out(chany_bottom_out[12]));
mux_tree_tapbuf_size10 mux_left_track_9 (
.in({chany_top_in[6], chany_top_in[11], chany_top_in[16], chanx_right_in[6], chanx_right_in[16], chany_bottom_in[3], chany_bottom_in[6], chany_bottom_in[16], left_top_grid_pin_42_[0], left_top_grid_pin_46_[0]}),
.sram(mux_tree_tapbuf_size10_9_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_9_sram_inv[0:3]),
.out(chanx_left_out[4]));
mux_tree_tapbuf_size10 mux_left_track_17 (
.in({chany_top_in[7:8], chany_top_in[17], chanx_right_in[8], chanx_right_in[17], chany_bottom_in[7:8], chany_bottom_in[17], left_top_grid_pin_43_[0], left_top_grid_pin_47_[0]}),
.sram(mux_tree_tapbuf_size10_10_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_10_sram_inv[0:3]),
.out(chanx_left_out[8]));
mux_tree_tapbuf_size10 mux_left_track_25 (
.in({chany_top_in[3], chany_top_in[9], chany_top_in[18], chanx_right_in[9], chanx_right_in[18], chany_bottom_in[9], chany_bottom_in[11], chany_bottom_in[18], left_top_grid_pin_44_[0], left_top_grid_pin_48_[0]}),
.sram(mux_tree_tapbuf_size10_11_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_11_sram_inv[0:3]),
.out(chanx_left_out[12]));
mux_tree_tapbuf_size10_mem mem_top_track_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size16_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_0_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_top_track_16 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_1_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_top_track_24 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_2_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_2_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_right_track_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size16_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_3_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_3_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_right_track_16 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_4_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_4_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_right_track_24 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_5_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_5_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_track_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size16_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_6_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_6_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_track_17 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_7_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_7_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_7_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_track_25 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_7_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_8_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_8_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_8_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_left_track_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size16_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_9_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_9_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_9_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_left_track_17 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_9_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_10_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_10_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_10_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_left_track_25 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_10_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_11_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_11_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_11_sram_inv[0:3]));
mux_tree_tapbuf_size7 mux_top_track_32 (
.in({top_left_grid_pin_37_[0], top_left_grid_pin_41_[0], chanx_right_in[0], chanx_right_in[10], chany_bottom_in[10], chanx_left_in[1], chanx_left_in[10]}),
.sram(mux_tree_tapbuf_size7_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_0_sram_inv[0:2]),
.out(chany_top_out[16]));
mux_tree_tapbuf_size7 mux_right_track_32 (
.in({chany_top_in[10], chany_top_in[15], right_top_grid_pin_45_[0], right_top_grid_pin_49_[0], chany_bottom_in[10], chany_bottom_in[19], chanx_left_in[10]}),
.sram(mux_tree_tapbuf_size7_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_1_sram_inv[0:2]),
.out(chanx_right_out[16]));
mux_tree_tapbuf_size7 mux_bottom_track_33 (
.in({chany_top_in[10], chanx_right_in[10], chanx_right_in[19], bottom_left_grid_pin_37_[0], bottom_left_grid_pin_41_[0], chanx_left_in[0], chanx_left_in[10]}),
.sram(mux_tree_tapbuf_size7_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_2_sram_inv[0:2]),
.out(chany_bottom_out[16]));
mux_tree_tapbuf_size7 mux_left_track_33 (
.in({chany_top_in[1], chany_top_in[10], chanx_right_in[10], chany_bottom_in[10], chany_bottom_in[15], left_top_grid_pin_45_[0], left_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size7_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_3_sram_inv[0:2]),
.out(chanx_left_out[16]));
mux_tree_tapbuf_size7_mem mem_top_track_32 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_0_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_right_track_32 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_1_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_bottom_track_33 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_8_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_2_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_left_track_33 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_11_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_3_sram_inv[0:2]));
endmodule
//

734
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/sb_1__2_.v Normal file
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@ -0,0 +1,734 @@
//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module sb_1__2_(prog_clk,
chanx_right_in,
right_top_grid_pin_1_,
chany_bottom_in,
bottom_left_grid_pin_34_,
bottom_left_grid_pin_35_,
bottom_left_grid_pin_36_,
bottom_left_grid_pin_37_,
bottom_left_grid_pin_38_,
bottom_left_grid_pin_39_,
bottom_left_grid_pin_40_,
bottom_left_grid_pin_41_,
chanx_left_in,
left_top_grid_pin_1_,
ccff_head,
chanx_right_out,
chany_bottom_out,
chanx_left_out,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chanx_right_in;
//
input [0:0] right_top_grid_pin_1_;
//
input [0:19] chany_bottom_in;
//
input [0:0] bottom_left_grid_pin_34_;
//
input [0:0] bottom_left_grid_pin_35_;
//
input [0:0] bottom_left_grid_pin_36_;
//
input [0:0] bottom_left_grid_pin_37_;
//
input [0:0] bottom_left_grid_pin_38_;
//
input [0:0] bottom_left_grid_pin_39_;
//
input [0:0] bottom_left_grid_pin_40_;
//
input [0:0] bottom_left_grid_pin_41_;
//
input [0:19] chanx_left_in;
//
input [0:0] left_top_grid_pin_1_;
//
input [0:0] ccff_head;
//
output [0:19] chanx_right_out;
//
output [0:19] chany_bottom_out;
//
output [0:19] chanx_left_out;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:1] mux_tree_tapbuf_size2_0_sram;
wire [0:1] mux_tree_tapbuf_size2_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_1_sram;
wire [0:1] mux_tree_tapbuf_size2_1_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_2_sram;
wire [0:1] mux_tree_tapbuf_size2_2_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_3_sram;
wire [0:1] mux_tree_tapbuf_size2_3_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_4_sram;
wire [0:1] mux_tree_tapbuf_size2_4_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_5_sram;
wire [0:1] mux_tree_tapbuf_size2_5_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_6_sram;
wire [0:1] mux_tree_tapbuf_size2_6_sram_inv;
wire [0:0] mux_tree_tapbuf_size2_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_6_ccff_tail;
wire [0:1] mux_tree_tapbuf_size3_0_sram;
wire [0:1] mux_tree_tapbuf_size3_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_1_sram;
wire [0:1] mux_tree_tapbuf_size3_1_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_2_sram;
wire [0:1] mux_tree_tapbuf_size3_2_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_3_sram;
wire [0:1] mux_tree_tapbuf_size3_3_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_4_sram;
wire [0:1] mux_tree_tapbuf_size3_4_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_5_sram;
wire [0:1] mux_tree_tapbuf_size3_5_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_6_sram;
wire [0:1] mux_tree_tapbuf_size3_6_sram_inv;
wire [0:0] mux_tree_tapbuf_size3_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_6_ccff_tail;
wire [0:2] mux_tree_tapbuf_size4_0_sram;
wire [0:2] mux_tree_tapbuf_size4_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_1_sram;
wire [0:2] mux_tree_tapbuf_size4_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_2_sram;
wire [0:2] mux_tree_tapbuf_size4_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_3_sram;
wire [0:2] mux_tree_tapbuf_size4_3_sram_inv;
wire [0:0] mux_tree_tapbuf_size4_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size4_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size4_mem_2_ccff_tail;
wire [0:2] mux_tree_tapbuf_size5_0_sram;
wire [0:2] mux_tree_tapbuf_size5_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_1_sram;
wire [0:2] mux_tree_tapbuf_size5_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_2_sram;
wire [0:2] mux_tree_tapbuf_size5_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_3_sram;
wire [0:2] mux_tree_tapbuf_size5_3_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_4_sram;
wire [0:2] mux_tree_tapbuf_size5_4_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_5_sram;
wire [0:2] mux_tree_tapbuf_size5_5_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_6_sram;
wire [0:2] mux_tree_tapbuf_size5_6_sram_inv;
wire [0:0] mux_tree_tapbuf_size5_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_6_ccff_tail;
wire [0:2] mux_tree_tapbuf_size6_0_sram;
wire [0:2] mux_tree_tapbuf_size6_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_1_sram;
wire [0:2] mux_tree_tapbuf_size6_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_2_sram;
wire [0:2] mux_tree_tapbuf_size6_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_3_sram;
wire [0:2] mux_tree_tapbuf_size6_3_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_4_sram;
wire [0:2] mux_tree_tapbuf_size6_4_sram_inv;
wire [0:0] mux_tree_tapbuf_size6_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_4_ccff_tail;
wire [0:2] mux_tree_tapbuf_size7_0_sram;
wire [0:2] mux_tree_tapbuf_size7_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_1_sram;
wire [0:2] mux_tree_tapbuf_size7_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_2_sram;
wire [0:2] mux_tree_tapbuf_size7_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_3_sram;
wire [0:2] mux_tree_tapbuf_size7_3_sram_inv;
wire [0:0] mux_tree_tapbuf_size7_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_3_ccff_tail;
//
//
//
//
assign chanx_left_out[3] = chanx_right_in[2];
//
//
//
assign chanx_left_out[5] = chanx_right_in[4];
//
//
//
assign chanx_left_out[6] = chanx_right_in[5];
//
//
//
assign chanx_left_out[7] = chanx_right_in[6];
//
//
//
assign chanx_left_out[9] = chanx_right_in[8];
//
//
//
assign chanx_left_out[10] = chanx_right_in[9];
//
//
//
assign chanx_left_out[11] = chanx_right_in[10];
//
//
//
assign chanx_left_out[13] = chanx_right_in[12];
//
//
//
assign chanx_left_out[14] = chanx_right_in[13];
//
//
//
assign chanx_left_out[15] = chanx_right_in[14];
//
//
//
assign chanx_left_out[17] = chanx_right_in[16];
//
//
//
assign chanx_left_out[18] = chanx_right_in[17];
//
//
//
assign chanx_left_out[19] = chanx_right_in[18];
//
//
//
assign chanx_right_out[3] = chanx_left_in[2];
//
//
//
assign chanx_right_out[5] = chanx_left_in[4];
//
//
//
assign chanx_right_out[6] = chanx_left_in[5];
//
//
//
assign chanx_right_out[7] = chanx_left_in[6];
//
//
//
assign chanx_right_out[9] = chanx_left_in[8];
//
//
//
assign chanx_right_out[10] = chanx_left_in[9];
//
//
//
assign chanx_right_out[11] = chanx_left_in[10];
//
//
//
assign chanx_right_out[13] = chanx_left_in[12];
//
//
//
assign chanx_right_out[14] = chanx_left_in[13];
//
//
//
assign chanx_right_out[15] = chanx_left_in[14];
//
//
//
assign chanx_right_out[17] = chanx_left_in[16];
//
//
//
assign chanx_right_out[18] = chanx_left_in[17];
//
//
//
assign chanx_right_out[19] = chanx_left_in[18];
//
//
//
mux_tree_tapbuf_size6 mux_right_track_0 (
.in({right_top_grid_pin_1_[0], chany_bottom_in[5], chany_bottom_in[12], chany_bottom_in[19], chanx_left_in[2], chanx_left_in[12]}),
.sram(mux_tree_tapbuf_size6_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_0_sram_inv[0:2]),
.out(chanx_right_out[0]));
mux_tree_tapbuf_size6 mux_right_track_4 (
.in({right_top_grid_pin_1_[0], chany_bottom_in[3], chany_bottom_in[10], chany_bottom_in[17], chanx_left_in[5], chanx_left_in[14]}),
.sram(mux_tree_tapbuf_size6_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_1_sram_inv[0:2]),
.out(chanx_right_out[2]));
mux_tree_tapbuf_size6 mux_right_track_8 (
.in({right_top_grid_pin_1_[0], chany_bottom_in[2], chany_bottom_in[9], chany_bottom_in[16], chanx_left_in[6], chanx_left_in[16]}),
.sram(mux_tree_tapbuf_size6_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_2_sram_inv[0:2]),
.out(chanx_right_out[4]));
mux_tree_tapbuf_size6 mux_left_track_5 (
.in({chanx_right_in[5], chanx_right_in[14], chany_bottom_in[1], chany_bottom_in[8], chany_bottom_in[15], left_top_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size6_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_3_sram_inv[0:2]),
.out(chanx_left_out[2]));
mux_tree_tapbuf_size6 mux_left_track_9 (
.in({chanx_right_in[6], chanx_right_in[16], chany_bottom_in[2], chany_bottom_in[9], chany_bottom_in[16], left_top_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size6_4_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_4_sram_inv[0:2]),
.out(chanx_left_out[4]));
mux_tree_tapbuf_size6_mem mem_right_track_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_0_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_right_track_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_1_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_right_track_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_2_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_left_track_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_3_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_left_track_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_4_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_4_sram_inv[0:2]));
mux_tree_tapbuf_size5 mux_right_track_2 (
.in({chany_bottom_in[4], chany_bottom_in[11], chany_bottom_in[18], chanx_left_in[4], chanx_left_in[13]}),
.sram(mux_tree_tapbuf_size5_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_0_sram_inv[0:2]),
.out(chanx_right_out[1]));
mux_tree_tapbuf_size5 mux_right_track_16 (
.in({chany_bottom_in[1], chany_bottom_in[8], chany_bottom_in[15], chanx_left_in[8], chanx_left_in[17]}),
.sram(mux_tree_tapbuf_size5_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_1_sram_inv[0:2]),
.out(chanx_right_out[8]));
mux_tree_tapbuf_size5 mux_right_track_24 (
.in({chany_bottom_in[0], chany_bottom_in[7], chany_bottom_in[14], chanx_left_in[9], chanx_left_in[18]}),
.sram(mux_tree_tapbuf_size5_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_2_sram_inv[0:2]),
.out(chanx_right_out[12]));
mux_tree_tapbuf_size5 mux_left_track_1 (
.in({chanx_right_in[2], chanx_right_in[12], chany_bottom_in[6], chany_bottom_in[13], left_top_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size5_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_3_sram_inv[0:2]),
.out(chanx_left_out[0]));
mux_tree_tapbuf_size5 mux_left_track_3 (
.in({chanx_right_in[4], chanx_right_in[13], chany_bottom_in[0], chany_bottom_in[7], chany_bottom_in[14]}),
.sram(mux_tree_tapbuf_size5_4_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_4_sram_inv[0:2]),
.out(chanx_left_out[1]));
mux_tree_tapbuf_size5 mux_left_track_17 (
.in({chanx_right_in[8], chanx_right_in[17], chany_bottom_in[3], chany_bottom_in[10], chany_bottom_in[17]}),
.sram(mux_tree_tapbuf_size5_5_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_5_sram_inv[0:2]),
.out(chanx_left_out[8]));
mux_tree_tapbuf_size5 mux_left_track_25 (
.in({chanx_right_in[9], chanx_right_in[18], chany_bottom_in[4], chany_bottom_in[11], chany_bottom_in[18]}),
.sram(mux_tree_tapbuf_size5_6_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_6_sram_inv[0:2]),
.out(chanx_left_out[12]));
mux_tree_tapbuf_size5_mem mem_right_track_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_0_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_right_track_16 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_1_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_right_track_24 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_2_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_left_track_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_3_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_left_track_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_4_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_4_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_left_track_17 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_5_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_5_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_left_track_25 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_6_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_6_sram_inv[0:2]));
mux_tree_tapbuf_size3 mux_right_track_32 (
.in({chany_bottom_in[6], chany_bottom_in[13], chanx_left_in[10]}),
.sram(mux_tree_tapbuf_size3_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_0_sram_inv[0:1]),
.out(chanx_right_out[16]));
mux_tree_tapbuf_size3 mux_bottom_track_13 (
.in({chanx_right_in[10], bottom_left_grid_pin_36_[0], chanx_left_in[10]}),
.sram(mux_tree_tapbuf_size3_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_1_sram_inv[0:1]),
.out(chany_bottom_out[6]));
mux_tree_tapbuf_size3 mux_bottom_track_15 (
.in({chanx_right_in[12], bottom_left_grid_pin_37_[0], chanx_left_in[12]}),
.sram(mux_tree_tapbuf_size3_2_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_2_sram_inv[0:1]),
.out(chany_bottom_out[7]));
mux_tree_tapbuf_size3 mux_bottom_track_17 (
.in({chanx_right_in[13], bottom_left_grid_pin_38_[0], chanx_left_in[13]}),
.sram(mux_tree_tapbuf_size3_3_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_3_sram_inv[0:1]),
.out(chany_bottom_out[8]));
mux_tree_tapbuf_size3 mux_bottom_track_19 (
.in({chanx_right_in[14], bottom_left_grid_pin_39_[0], chanx_left_in[14]}),
.sram(mux_tree_tapbuf_size3_4_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_4_sram_inv[0:1]),
.out(chany_bottom_out[9]));
mux_tree_tapbuf_size3 mux_bottom_track_21 (
.in({chanx_right_in[16], bottom_left_grid_pin_40_[0], chanx_left_in[16]}),
.sram(mux_tree_tapbuf_size3_5_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_5_sram_inv[0:1]),
.out(chany_bottom_out[10]));
mux_tree_tapbuf_size3 mux_bottom_track_23 (
.in({chanx_right_in[17], bottom_left_grid_pin_41_[0], chanx_left_in[17]}),
.sram(mux_tree_tapbuf_size3_6_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_6_sram_inv[0:1]),
.out(chany_bottom_out[11]));
mux_tree_tapbuf_size3_mem mem_right_track_32 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_0_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_bottom_track_13 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_1_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_bottom_track_15 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_2_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_2_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_bottom_track_17 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_3_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_3_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_bottom_track_19 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_4_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_4_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_bottom_track_21 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_5_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_5_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_bottom_track_23 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_6_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_6_sram_inv[0:1]));
mux_tree_tapbuf_size7 mux_bottom_track_1 (
.in({chanx_right_in[2], bottom_left_grid_pin_34_[0], bottom_left_grid_pin_36_[0], bottom_left_grid_pin_38_[0], bottom_left_grid_pin_40_[0], chanx_left_in[1:2]}),
.sram(mux_tree_tapbuf_size7_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_0_sram_inv[0:2]),
.out(chany_bottom_out[0]));
mux_tree_tapbuf_size7 mux_bottom_track_3 (
.in({chanx_right_in[4], bottom_left_grid_pin_35_[0], bottom_left_grid_pin_37_[0], bottom_left_grid_pin_39_[0], bottom_left_grid_pin_41_[0], chanx_left_in[3:4]}),
.sram(mux_tree_tapbuf_size7_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_1_sram_inv[0:2]),
.out(chany_bottom_out[1]));
mux_tree_tapbuf_size7 mux_bottom_track_5 (
.in({chanx_right_in[5], bottom_left_grid_pin_34_[0], bottom_left_grid_pin_36_[0], bottom_left_grid_pin_38_[0], bottom_left_grid_pin_40_[0], chanx_left_in[5], chanx_left_in[7]}),
.sram(mux_tree_tapbuf_size7_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_2_sram_inv[0:2]),
.out(chany_bottom_out[2]));
mux_tree_tapbuf_size7 mux_bottom_track_7 (
.in({chanx_right_in[6], bottom_left_grid_pin_35_[0], bottom_left_grid_pin_37_[0], bottom_left_grid_pin_39_[0], bottom_left_grid_pin_41_[0], chanx_left_in[6], chanx_left_in[11]}),
.sram(mux_tree_tapbuf_size7_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_3_sram_inv[0:2]),
.out(chany_bottom_out[3]));
mux_tree_tapbuf_size7_mem mem_bottom_track_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_0_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_bottom_track_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_1_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_bottom_track_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_2_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_bottom_track_7 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_3_sram_inv[0:2]));
mux_tree_tapbuf_size4 mux_bottom_track_9 (
.in({chanx_right_in[8], bottom_left_grid_pin_34_[0], chanx_left_in[8], chanx_left_in[15]}),
.sram(mux_tree_tapbuf_size4_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_0_sram_inv[0:2]),
.out(chany_bottom_out[4]));
mux_tree_tapbuf_size4 mux_bottom_track_11 (
.in({chanx_right_in[9], bottom_left_grid_pin_35_[0], chanx_left_in[9], chanx_left_in[19]}),
.sram(mux_tree_tapbuf_size4_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_1_sram_inv[0:2]),
.out(chany_bottom_out[5]));
mux_tree_tapbuf_size4 mux_bottom_track_25 (
.in({chanx_right_in[18:19], bottom_left_grid_pin_34_[0], chanx_left_in[18]}),
.sram(mux_tree_tapbuf_size4_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_2_sram_inv[0:2]),
.out(chany_bottom_out[12]));
mux_tree_tapbuf_size4 mux_left_track_33 (
.in({chanx_right_in[10], chany_bottom_in[5], chany_bottom_in[12], chany_bottom_in[19]}),
.sram(mux_tree_tapbuf_size4_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_3_sram_inv[0:2]),
.out(chanx_left_out[16]));
mux_tree_tapbuf_size4_mem mem_bottom_track_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_0_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_bottom_track_11 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_1_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_bottom_track_25 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_2_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_left_track_33 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_6_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_3_sram_inv[0:2]));
mux_tree_tapbuf_size2 mux_bottom_track_27 (
.in({chanx_right_in[15], bottom_left_grid_pin_35_[0]}),
.sram(mux_tree_tapbuf_size2_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_0_sram_inv[0:1]),
.out(chany_bottom_out[13]));
mux_tree_tapbuf_size2 mux_bottom_track_29 (
.in({chanx_right_in[11], bottom_left_grid_pin_36_[0]}),
.sram(mux_tree_tapbuf_size2_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_1_sram_inv[0:1]),
.out(chany_bottom_out[14]));
mux_tree_tapbuf_size2 mux_bottom_track_31 (
.in({chanx_right_in[7], bottom_left_grid_pin_37_[0]}),
.sram(mux_tree_tapbuf_size2_2_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_2_sram_inv[0:1]),
.out(chany_bottom_out[15]));
mux_tree_tapbuf_size2 mux_bottom_track_33 (
.in({chanx_right_in[3], bottom_left_grid_pin_38_[0]}),
.sram(mux_tree_tapbuf_size2_3_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_3_sram_inv[0:1]),
.out(chany_bottom_out[16]));
mux_tree_tapbuf_size2 mux_bottom_track_35 (
.in({chanx_right_in[1], bottom_left_grid_pin_39_[0]}),
.sram(mux_tree_tapbuf_size2_4_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_4_sram_inv[0:1]),
.out(chany_bottom_out[17]));
mux_tree_tapbuf_size2 mux_bottom_track_37 (
.in({chanx_right_in[0], bottom_left_grid_pin_40_[0]}),
.sram(mux_tree_tapbuf_size2_5_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_5_sram_inv[0:1]),
.out(chany_bottom_out[18]));
mux_tree_tapbuf_size2 mux_bottom_track_39 (
.in({bottom_left_grid_pin_41_[0], chanx_left_in[0]}),
.sram(mux_tree_tapbuf_size2_6_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_6_sram_inv[0:1]),
.out(chany_bottom_out[19]));
mux_tree_tapbuf_size2_mem mem_bottom_track_27 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_0_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_29 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_1_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_31 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_2_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_2_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_33 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_3_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_3_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_35 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_4_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_4_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_37 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_5_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_5_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_39 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_6_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_6_sram_inv[0:1]));
endmodule
//

672
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/sb_2__0_.v Normal file
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@ -0,0 +1,672 @@
//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module sb_2__0_(prog_clk,
chany_top_in,
top_left_grid_pin_34_,
top_left_grid_pin_35_,
top_left_grid_pin_36_,
top_left_grid_pin_37_,
top_left_grid_pin_38_,
top_left_grid_pin_39_,
top_left_grid_pin_40_,
top_left_grid_pin_41_,
top_right_grid_pin_1_,
chanx_left_in,
left_top_grid_pin_42_,
left_top_grid_pin_43_,
left_top_grid_pin_44_,
left_top_grid_pin_45_,
left_top_grid_pin_46_,
left_top_grid_pin_47_,
left_top_grid_pin_48_,
left_top_grid_pin_49_,
left_bottom_grid_pin_1_,
ccff_head,
chany_top_out,
chanx_left_out,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chany_top_in;
//
input [0:0] top_left_grid_pin_34_;
//
input [0:0] top_left_grid_pin_35_;
//
input [0:0] top_left_grid_pin_36_;
//
input [0:0] top_left_grid_pin_37_;
//
input [0:0] top_left_grid_pin_38_;
//
input [0:0] top_left_grid_pin_39_;
//
input [0:0] top_left_grid_pin_40_;
//
input [0:0] top_left_grid_pin_41_;
//
input [0:0] top_right_grid_pin_1_;
//
input [0:19] chanx_left_in;
//
input [0:0] left_top_grid_pin_42_;
//
input [0:0] left_top_grid_pin_43_;
//
input [0:0] left_top_grid_pin_44_;
//
input [0:0] left_top_grid_pin_45_;
//
input [0:0] left_top_grid_pin_46_;
//
input [0:0] left_top_grid_pin_47_;
//
input [0:0] left_top_grid_pin_48_;
//
input [0:0] left_top_grid_pin_49_;
//
input [0:0] left_bottom_grid_pin_1_;
//
input [0:0] ccff_head;
//
output [0:19] chany_top_out;
//
output [0:19] chanx_left_out;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:1] mux_tree_tapbuf_size2_0_sram;
wire [0:1] mux_tree_tapbuf_size2_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_10_sram;
wire [0:1] mux_tree_tapbuf_size2_10_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_11_sram;
wire [0:1] mux_tree_tapbuf_size2_11_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_12_sram;
wire [0:1] mux_tree_tapbuf_size2_12_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_13_sram;
wire [0:1] mux_tree_tapbuf_size2_13_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_14_sram;
wire [0:1] mux_tree_tapbuf_size2_14_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_15_sram;
wire [0:1] mux_tree_tapbuf_size2_15_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_16_sram;
wire [0:1] mux_tree_tapbuf_size2_16_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_17_sram;
wire [0:1] mux_tree_tapbuf_size2_17_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_18_sram;
wire [0:1] mux_tree_tapbuf_size2_18_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_19_sram;
wire [0:1] mux_tree_tapbuf_size2_19_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_1_sram;
wire [0:1] mux_tree_tapbuf_size2_1_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_20_sram;
wire [0:1] mux_tree_tapbuf_size2_20_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_21_sram;
wire [0:1] mux_tree_tapbuf_size2_21_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_2_sram;
wire [0:1] mux_tree_tapbuf_size2_2_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_3_sram;
wire [0:1] mux_tree_tapbuf_size2_3_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_4_sram;
wire [0:1] mux_tree_tapbuf_size2_4_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_5_sram;
wire [0:1] mux_tree_tapbuf_size2_5_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_6_sram;
wire [0:1] mux_tree_tapbuf_size2_6_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_7_sram;
wire [0:1] mux_tree_tapbuf_size2_7_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_8_sram;
wire [0:1] mux_tree_tapbuf_size2_8_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_9_sram;
wire [0:1] mux_tree_tapbuf_size2_9_sram_inv;
wire [0:0] mux_tree_tapbuf_size2_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_10_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_11_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_12_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_13_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_14_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_15_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_16_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_17_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_18_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_19_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_20_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_6_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_7_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_8_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_9_ccff_tail;
wire [0:1] mux_tree_tapbuf_size3_0_sram;
wire [0:1] mux_tree_tapbuf_size3_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_1_sram;
wire [0:1] mux_tree_tapbuf_size3_1_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_2_sram;
wire [0:1] mux_tree_tapbuf_size3_2_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_3_sram;
wire [0:1] mux_tree_tapbuf_size3_3_sram_inv;
wire [0:0] mux_tree_tapbuf_size3_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_3_ccff_tail;
wire [0:2] mux_tree_tapbuf_size5_0_sram;
wire [0:2] mux_tree_tapbuf_size5_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_1_sram;
wire [0:2] mux_tree_tapbuf_size5_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_2_sram;
wire [0:2] mux_tree_tapbuf_size5_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_3_sram;
wire [0:2] mux_tree_tapbuf_size5_3_sram_inv;
wire [0:0] mux_tree_tapbuf_size5_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_3_ccff_tail;
wire [0:2] mux_tree_tapbuf_size6_0_sram;
wire [0:2] mux_tree_tapbuf_size6_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_1_sram;
wire [0:2] mux_tree_tapbuf_size6_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_2_sram;
wire [0:2] mux_tree_tapbuf_size6_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_3_sram;
wire [0:2] mux_tree_tapbuf_size6_3_sram_inv;
wire [0:0] mux_tree_tapbuf_size6_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_3_ccff_tail;
//
//
//
//
assign chanx_left_out[19] = chany_top_in[1];
//
//
//
assign chanx_left_out[18] = chany_top_in[2];
//
//
//
assign chanx_left_out[17] = chany_top_in[3];
//
//
//
assign chanx_left_out[16] = chany_top_in[4];
//
//
//
assign chanx_left_out[15] = chany_top_in[5];
//
//
//
assign chanx_left_out[14] = chany_top_in[6];
//
//
//
mux_tree_tapbuf_size6 mux_top_track_0 (
.in({top_left_grid_pin_34_[0], top_left_grid_pin_36_[0], top_left_grid_pin_38_[0], top_left_grid_pin_40_[0], top_right_grid_pin_1_[0], chanx_left_in[0]}),
.sram(mux_tree_tapbuf_size6_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_0_sram_inv[0:2]),
.out(chany_top_out[0]));
mux_tree_tapbuf_size6 mux_top_track_4 (
.in({top_left_grid_pin_34_[0], top_left_grid_pin_36_[0], top_left_grid_pin_38_[0], top_left_grid_pin_40_[0], top_right_grid_pin_1_[0], chanx_left_in[18]}),
.sram(mux_tree_tapbuf_size6_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_1_sram_inv[0:2]),
.out(chany_top_out[2]));
mux_tree_tapbuf_size6 mux_left_track_1 (
.in({chany_top_in[0], left_top_grid_pin_42_[0], left_top_grid_pin_44_[0], left_top_grid_pin_46_[0], left_top_grid_pin_48_[0], left_bottom_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size6_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_2_sram_inv[0:2]),
.out(chanx_left_out[0]));
mux_tree_tapbuf_size6 mux_left_track_5 (
.in({chany_top_in[18], left_top_grid_pin_42_[0], left_top_grid_pin_44_[0], left_top_grid_pin_46_[0], left_top_grid_pin_48_[0], left_bottom_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size6_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_3_sram_inv[0:2]),
.out(chanx_left_out[2]));
mux_tree_tapbuf_size6_mem mem_top_track_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_0_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_top_track_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_1_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_left_track_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_13_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_2_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_left_track_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_3_sram_inv[0:2]));
mux_tree_tapbuf_size5 mux_top_track_2 (
.in({top_left_grid_pin_35_[0], top_left_grid_pin_37_[0], top_left_grid_pin_39_[0], top_left_grid_pin_41_[0], chanx_left_in[19]}),
.sram(mux_tree_tapbuf_size5_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_0_sram_inv[0:2]),
.out(chany_top_out[1]));
mux_tree_tapbuf_size5 mux_top_track_6 (
.in({top_left_grid_pin_35_[0], top_left_grid_pin_37_[0], top_left_grid_pin_39_[0], top_left_grid_pin_41_[0], chanx_left_in[17]}),
.sram(mux_tree_tapbuf_size5_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_1_sram_inv[0:2]),
.out(chany_top_out[3]));
mux_tree_tapbuf_size5 mux_left_track_3 (
.in({chany_top_in[19], left_top_grid_pin_43_[0], left_top_grid_pin_45_[0], left_top_grid_pin_47_[0], left_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size5_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_2_sram_inv[0:2]),
.out(chanx_left_out[1]));
mux_tree_tapbuf_size5 mux_left_track_7 (
.in({chany_top_in[17], left_top_grid_pin_43_[0], left_top_grid_pin_45_[0], left_top_grid_pin_47_[0], left_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size5_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_3_sram_inv[0:2]),
.out(chanx_left_out[3]));
mux_tree_tapbuf_size5_mem mem_top_track_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_0_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_top_track_6 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_1_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_left_track_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_2_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_left_track_7 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_3_sram_inv[0:2]));
mux_tree_tapbuf_size3 mux_top_track_8 (
.in({top_left_grid_pin_34_[0], top_right_grid_pin_1_[0], chanx_left_in[16]}),
.sram(mux_tree_tapbuf_size3_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_0_sram_inv[0:1]),
.out(chany_top_out[4]));
mux_tree_tapbuf_size3 mux_top_track_24 (
.in({top_left_grid_pin_34_[0], top_right_grid_pin_1_[0], chanx_left_in[8]}),
.sram(mux_tree_tapbuf_size3_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_1_sram_inv[0:1]),
.out(chany_top_out[12]));
mux_tree_tapbuf_size3 mux_left_track_9 (
.in({chany_top_in[16], left_top_grid_pin_42_[0], left_bottom_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size3_2_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_2_sram_inv[0:1]),
.out(chanx_left_out[4]));
mux_tree_tapbuf_size3 mux_left_track_25 (
.in({chany_top_in[8], left_top_grid_pin_42_[0], left_bottom_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size3_3_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_3_sram_inv[0:1]),
.out(chanx_left_out[12]));
mux_tree_tapbuf_size3_mem mem_top_track_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_0_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_top_track_24 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_1_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_left_track_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_2_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_2_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_left_track_25 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_20_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_3_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_3_sram_inv[0:1]));
mux_tree_tapbuf_size2 mux_top_track_10 (
.in({top_left_grid_pin_35_[0], chanx_left_in[15]}),
.sram(mux_tree_tapbuf_size2_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_0_sram_inv[0:1]),
.out(chany_top_out[5]));
mux_tree_tapbuf_size2 mux_top_track_12 (
.in({top_left_grid_pin_36_[0], chanx_left_in[14]}),
.sram(mux_tree_tapbuf_size2_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_1_sram_inv[0:1]),
.out(chany_top_out[6]));
mux_tree_tapbuf_size2 mux_top_track_14 (
.in({top_left_grid_pin_37_[0], chanx_left_in[13]}),
.sram(mux_tree_tapbuf_size2_2_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_2_sram_inv[0:1]),
.out(chany_top_out[7]));
mux_tree_tapbuf_size2 mux_top_track_16 (
.in({top_left_grid_pin_38_[0], chanx_left_in[12]}),
.sram(mux_tree_tapbuf_size2_3_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_3_sram_inv[0:1]),
.out(chany_top_out[8]));
mux_tree_tapbuf_size2 mux_top_track_18 (
.in({top_left_grid_pin_39_[0], chanx_left_in[11]}),
.sram(mux_tree_tapbuf_size2_4_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_4_sram_inv[0:1]),
.out(chany_top_out[9]));
mux_tree_tapbuf_size2 mux_top_track_20 (
.in({top_left_grid_pin_40_[0], chanx_left_in[10]}),
.sram(mux_tree_tapbuf_size2_5_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_5_sram_inv[0:1]),
.out(chany_top_out[10]));
mux_tree_tapbuf_size2 mux_top_track_22 (
.in({top_left_grid_pin_41_[0], chanx_left_in[9]}),
.sram(mux_tree_tapbuf_size2_6_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_6_sram_inv[0:1]),
.out(chany_top_out[11]));
mux_tree_tapbuf_size2 mux_top_track_26 (
.in({top_left_grid_pin_35_[0], chanx_left_in[7]}),
.sram(mux_tree_tapbuf_size2_7_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_7_sram_inv[0:1]),
.out(chany_top_out[13]));
mux_tree_tapbuf_size2 mux_top_track_28 (
.in({top_left_grid_pin_36_[0], chanx_left_in[6]}),
.sram(mux_tree_tapbuf_size2_8_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_8_sram_inv[0:1]),
.out(chany_top_out[14]));
mux_tree_tapbuf_size2 mux_top_track_30 (
.in({top_left_grid_pin_37_[0], chanx_left_in[5]}),
.sram(mux_tree_tapbuf_size2_9_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_9_sram_inv[0:1]),
.out(chany_top_out[15]));
mux_tree_tapbuf_size2 mux_top_track_32 (
.in({top_left_grid_pin_38_[0], chanx_left_in[4]}),
.sram(mux_tree_tapbuf_size2_10_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_10_sram_inv[0:1]),
.out(chany_top_out[16]));
mux_tree_tapbuf_size2 mux_top_track_34 (
.in({top_left_grid_pin_39_[0], chanx_left_in[3]}),
.sram(mux_tree_tapbuf_size2_11_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_11_sram_inv[0:1]),
.out(chany_top_out[17]));
mux_tree_tapbuf_size2 mux_top_track_36 (
.in({top_left_grid_pin_40_[0], chanx_left_in[2]}),
.sram(mux_tree_tapbuf_size2_12_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_12_sram_inv[0:1]),
.out(chany_top_out[18]));
mux_tree_tapbuf_size2 mux_top_track_38 (
.in({top_left_grid_pin_41_[0], chanx_left_in[1]}),
.sram(mux_tree_tapbuf_size2_13_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_13_sram_inv[0:1]),
.out(chany_top_out[19]));
mux_tree_tapbuf_size2 mux_left_track_11 (
.in({chany_top_in[15], left_top_grid_pin_43_[0]}),
.sram(mux_tree_tapbuf_size2_14_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_14_sram_inv[0:1]),
.out(chanx_left_out[5]));
mux_tree_tapbuf_size2 mux_left_track_13 (
.in({chany_top_in[14], left_top_grid_pin_44_[0]}),
.sram(mux_tree_tapbuf_size2_15_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_15_sram_inv[0:1]),
.out(chanx_left_out[6]));
mux_tree_tapbuf_size2 mux_left_track_15 (
.in({chany_top_in[13], left_top_grid_pin_45_[0]}),
.sram(mux_tree_tapbuf_size2_16_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_16_sram_inv[0:1]),
.out(chanx_left_out[7]));
mux_tree_tapbuf_size2 mux_left_track_17 (
.in({chany_top_in[12], left_top_grid_pin_46_[0]}),
.sram(mux_tree_tapbuf_size2_17_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_17_sram_inv[0:1]),
.out(chanx_left_out[8]));
mux_tree_tapbuf_size2 mux_left_track_19 (
.in({chany_top_in[11], left_top_grid_pin_47_[0]}),
.sram(mux_tree_tapbuf_size2_18_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_18_sram_inv[0:1]),
.out(chanx_left_out[9]));
mux_tree_tapbuf_size2 mux_left_track_21 (
.in({chany_top_in[10], left_top_grid_pin_48_[0]}),
.sram(mux_tree_tapbuf_size2_19_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_19_sram_inv[0:1]),
.out(chanx_left_out[10]));
mux_tree_tapbuf_size2 mux_left_track_23 (
.in({chany_top_in[9], left_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size2_20_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_20_sram_inv[0:1]),
.out(chanx_left_out[11]));
mux_tree_tapbuf_size2 mux_left_track_27 (
.in({chany_top_in[7], left_top_grid_pin_43_[0]}),
.sram(mux_tree_tapbuf_size2_21_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_21_sram_inv[0:1]),
.out(chanx_left_out[13]));
mux_tree_tapbuf_size2_mem mem_top_track_10 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_0_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_12 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_1_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_14 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_2_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_2_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_16 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_3_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_3_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_18 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_4_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_4_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_20 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_5_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_5_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_22 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_6_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_6_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_26 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_7_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_7_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_7_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_28 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_7_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_8_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_8_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_8_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_30 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_8_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_9_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_9_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_9_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_32 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_9_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_10_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_10_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_10_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_34 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_10_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_11_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_11_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_11_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_36 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_11_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_12_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_12_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_12_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_top_track_38 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_12_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_13_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_13_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_13_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_left_track_11 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_14_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_14_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_14_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_left_track_13 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_14_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_15_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_15_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_15_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_left_track_15 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_15_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_16_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_16_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_16_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_left_track_17 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_16_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_17_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_17_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_17_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_left_track_19 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_17_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_18_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_18_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_18_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_left_track_21 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_18_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_19_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_19_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_19_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_left_track_23 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_19_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_20_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_20_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_20_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_left_track_27 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_3_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_21_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_21_sram_inv[0:1]));
endmodule
//

698
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/sb_2__1_.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module sb_2__1_(prog_clk,
chany_top_in,
top_left_grid_pin_34_,
top_left_grid_pin_35_,
top_left_grid_pin_36_,
top_left_grid_pin_37_,
top_left_grid_pin_38_,
top_left_grid_pin_39_,
top_left_grid_pin_40_,
top_left_grid_pin_41_,
top_right_grid_pin_1_,
chany_bottom_in,
bottom_right_grid_pin_1_,
bottom_left_grid_pin_34_,
bottom_left_grid_pin_35_,
bottom_left_grid_pin_36_,
bottom_left_grid_pin_37_,
bottom_left_grid_pin_38_,
bottom_left_grid_pin_39_,
bottom_left_grid_pin_40_,
bottom_left_grid_pin_41_,
chanx_left_in,
left_top_grid_pin_42_,
left_top_grid_pin_43_,
left_top_grid_pin_44_,
left_top_grid_pin_45_,
left_top_grid_pin_46_,
left_top_grid_pin_47_,
left_top_grid_pin_48_,
left_top_grid_pin_49_,
ccff_head,
chany_top_out,
chany_bottom_out,
chanx_left_out,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chany_top_in;
//
input [0:0] top_left_grid_pin_34_;
//
input [0:0] top_left_grid_pin_35_;
//
input [0:0] top_left_grid_pin_36_;
//
input [0:0] top_left_grid_pin_37_;
//
input [0:0] top_left_grid_pin_38_;
//
input [0:0] top_left_grid_pin_39_;
//
input [0:0] top_left_grid_pin_40_;
//
input [0:0] top_left_grid_pin_41_;
//
input [0:0] top_right_grid_pin_1_;
//
input [0:19] chany_bottom_in;
//
input [0:0] bottom_right_grid_pin_1_;
//
input [0:0] bottom_left_grid_pin_34_;
//
input [0:0] bottom_left_grid_pin_35_;
//
input [0:0] bottom_left_grid_pin_36_;
//
input [0:0] bottom_left_grid_pin_37_;
//
input [0:0] bottom_left_grid_pin_38_;
//
input [0:0] bottom_left_grid_pin_39_;
//
input [0:0] bottom_left_grid_pin_40_;
//
input [0:0] bottom_left_grid_pin_41_;
//
input [0:19] chanx_left_in;
//
input [0:0] left_top_grid_pin_42_;
//
input [0:0] left_top_grid_pin_43_;
//
input [0:0] left_top_grid_pin_44_;
//
input [0:0] left_top_grid_pin_45_;
//
input [0:0] left_top_grid_pin_46_;
//
input [0:0] left_top_grid_pin_47_;
//
input [0:0] left_top_grid_pin_48_;
//
input [0:0] left_top_grid_pin_49_;
//
input [0:0] ccff_head;
//
output [0:19] chany_top_out;
//
output [0:19] chany_bottom_out;
//
output [0:19] chanx_left_out;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:3] mux_tree_tapbuf_size10_0_sram;
wire [0:3] mux_tree_tapbuf_size10_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size10_1_sram;
wire [0:3] mux_tree_tapbuf_size10_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size10_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size10_mem_1_ccff_tail;
wire [0:3] mux_tree_tapbuf_size14_0_sram;
wire [0:3] mux_tree_tapbuf_size14_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size14_1_sram;
wire [0:3] mux_tree_tapbuf_size14_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size14_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size14_mem_1_ccff_tail;
wire [0:1] mux_tree_tapbuf_size3_0_sram;
wire [0:1] mux_tree_tapbuf_size3_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_1_sram;
wire [0:1] mux_tree_tapbuf_size3_1_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_2_sram;
wire [0:1] mux_tree_tapbuf_size3_2_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_3_sram;
wire [0:1] mux_tree_tapbuf_size3_3_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_4_sram;
wire [0:1] mux_tree_tapbuf_size3_4_sram_inv;
wire [0:0] mux_tree_tapbuf_size3_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_3_ccff_tail;
wire [0:2] mux_tree_tapbuf_size4_0_sram;
wire [0:2] mux_tree_tapbuf_size4_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_1_sram;
wire [0:2] mux_tree_tapbuf_size4_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_2_sram;
wire [0:2] mux_tree_tapbuf_size4_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size4_3_sram;
wire [0:2] mux_tree_tapbuf_size4_3_sram_inv;
wire [0:0] mux_tree_tapbuf_size4_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size4_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size4_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size4_mem_3_ccff_tail;
wire [0:2] mux_tree_tapbuf_size6_0_sram;
wire [0:2] mux_tree_tapbuf_size6_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_1_sram;
wire [0:2] mux_tree_tapbuf_size6_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_2_sram;
wire [0:2] mux_tree_tapbuf_size6_2_sram_inv;
wire [0:0] mux_tree_tapbuf_size6_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_2_ccff_tail;
wire [0:2] mux_tree_tapbuf_size7_0_sram;
wire [0:2] mux_tree_tapbuf_size7_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_1_sram;
wire [0:2] mux_tree_tapbuf_size7_1_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_2_sram;
wire [0:2] mux_tree_tapbuf_size7_2_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_3_sram;
wire [0:2] mux_tree_tapbuf_size7_3_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_4_sram;
wire [0:2] mux_tree_tapbuf_size7_4_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_5_sram;
wire [0:2] mux_tree_tapbuf_size7_5_sram_inv;
wire [0:2] mux_tree_tapbuf_size7_6_sram;
wire [0:2] mux_tree_tapbuf_size7_6_sram_inv;
wire [0:0] mux_tree_tapbuf_size7_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size7_mem_6_ccff_tail;
wire [0:3] mux_tree_tapbuf_size8_0_sram;
wire [0:3] mux_tree_tapbuf_size8_0_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_1_sram;
wire [0:3] mux_tree_tapbuf_size8_1_sram_inv;
wire [0:3] mux_tree_tapbuf_size8_2_sram;
wire [0:3] mux_tree_tapbuf_size8_2_sram_inv;
wire [0:0] mux_tree_tapbuf_size8_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size8_mem_2_ccff_tail;
wire [0:3] mux_tree_tapbuf_size9_0_sram;
wire [0:3] mux_tree_tapbuf_size9_0_sram_inv;
wire [0:0] mux_tree_tapbuf_size9_mem_0_ccff_tail;
//
//
//
//
assign chanx_left_out[19] = chany_top_in[1];
//
//
//
assign chany_bottom_out[3] = chany_top_in[2];
//
//
//
assign chanx_left_out[18] = chany_top_in[3];
//
//
//
assign chany_bottom_out[5] = chany_top_in[4];
//
//
//
assign chany_bottom_out[6] = chany_top_in[5];
//
//
//
assign chany_bottom_out[7] = chany_top_in[6];
//
//
//
assign chanx_left_out[17] = chany_top_in[7];
//
//
//
assign chany_bottom_out[9] = chany_top_in[8];
//
//
//
assign chany_bottom_out[10] = chany_top_in[9];
//
//
//
assign chany_bottom_out[11] = chany_top_in[10];
//
//
//
assign chanx_left_out[16] = chany_top_in[11];
//
//
//
assign chany_bottom_out[13] = chany_top_in[12];
//
//
//
assign chany_bottom_out[14] = chany_top_in[13];
//
//
//
assign chany_bottom_out[15] = chany_top_in[14];
//
//
//
assign chanx_left_out[15] = chany_top_in[15];
//
//
//
assign chany_bottom_out[17] = chany_top_in[16];
//
//
//
assign chany_bottom_out[18] = chany_top_in[17];
//
//
//
assign chany_bottom_out[19] = chany_top_in[18];
//
//
//
assign chanx_left_out[14] = chany_top_in[19];
//
//
//
assign chany_top_out[3] = chany_bottom_in[2];
//
//
//
assign chany_top_out[5] = chany_bottom_in[4];
//
//
//
assign chany_top_out[6] = chany_bottom_in[5];
//
//
//
assign chany_top_out[7] = chany_bottom_in[6];
//
//
//
assign chany_top_out[9] = chany_bottom_in[8];
//
//
//
assign chany_top_out[10] = chany_bottom_in[9];
//
//
//
assign chany_top_out[11] = chany_bottom_in[10];
//
//
//
assign chany_top_out[13] = chany_bottom_in[12];
//
//
//
assign chany_top_out[14] = chany_bottom_in[13];
//
//
//
assign chany_top_out[15] = chany_bottom_in[14];
//
//
//
assign chany_top_out[17] = chany_bottom_in[16];
//
//
//
assign chany_top_out[18] = chany_bottom_in[17];
//
//
//
assign chany_top_out[19] = chany_bottom_in[18];
//
//
//
assign chanx_left_out[13] = left_top_grid_pin_43_[0];
//
//
//
mux_tree_tapbuf_size10 mux_top_track_0 (
.in({top_left_grid_pin_34_[0], top_left_grid_pin_36_[0], top_left_grid_pin_38_[0], top_left_grid_pin_40_[0], top_right_grid_pin_1_[0], chany_bottom_in[2], chany_bottom_in[12], chanx_left_in[0], chanx_left_in[7], chanx_left_in[14]}),
.sram(mux_tree_tapbuf_size10_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_0_sram_inv[0:3]),
.out(chany_top_out[0]));
mux_tree_tapbuf_size10 mux_bottom_track_1 (
.in({chany_top_in[2], chany_top_in[12], bottom_right_grid_pin_1_[0], bottom_left_grid_pin_35_[0], bottom_left_grid_pin_37_[0], bottom_left_grid_pin_39_[0], bottom_left_grid_pin_41_[0], chanx_left_in[1], chanx_left_in[8], chanx_left_in[15]}),
.sram(mux_tree_tapbuf_size10_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size10_1_sram_inv[0:3]),
.out(chany_bottom_out[0]));
mux_tree_tapbuf_size10_mem mem_top_track_0 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_0_sram_inv[0:3]));
mux_tree_tapbuf_size10_mem mem_bottom_track_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size10_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size10_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size10_1_sram_inv[0:3]));
mux_tree_tapbuf_size8 mux_top_track_2 (
.in({top_left_grid_pin_35_[0], top_left_grid_pin_37_[0], top_left_grid_pin_39_[0], top_left_grid_pin_41_[0], chany_bottom_in[4], chany_bottom_in[13], chanx_left_in[6], chanx_left_in[13]}),
.sram(mux_tree_tapbuf_size8_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_0_sram_inv[0:3]),
.out(chany_top_out[1]));
mux_tree_tapbuf_size8 mux_top_track_8 (
.in({top_left_grid_pin_34_[0], top_left_grid_pin_38_[0], top_right_grid_pin_1_[0], chany_bottom_in[6], chany_bottom_in[16], chanx_left_in[4], chanx_left_in[11], chanx_left_in[18]}),
.sram(mux_tree_tapbuf_size8_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_1_sram_inv[0:3]),
.out(chany_top_out[4]));
mux_tree_tapbuf_size8 mux_bottom_track_9 (
.in({chany_top_in[6], chany_top_in[16], bottom_right_grid_pin_1_[0], bottom_left_grid_pin_37_[0], bottom_left_grid_pin_41_[0], chanx_left_in[4], chanx_left_in[11], chanx_left_in[18]}),
.sram(mux_tree_tapbuf_size8_2_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size8_2_sram_inv[0:3]),
.out(chany_bottom_out[4]));
mux_tree_tapbuf_size8_mem mem_top_track_2 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_0_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_top_track_8 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size14_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_1_sram_inv[0:3]));
mux_tree_tapbuf_size8_mem mem_bottom_track_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size14_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size8_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size8_2_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size8_2_sram_inv[0:3]));
mux_tree_tapbuf_size14 mux_top_track_4 (
.in({top_left_grid_pin_34_[0], top_left_grid_pin_35_[0], top_left_grid_pin_36_[0], top_left_grid_pin_37_[0], top_left_grid_pin_38_[0], top_left_grid_pin_39_[0], top_left_grid_pin_40_[0], top_left_grid_pin_41_[0], top_right_grid_pin_1_[0], chany_bottom_in[5], chany_bottom_in[14], chanx_left_in[5], chanx_left_in[12], chanx_left_in[19]}),
.sram(mux_tree_tapbuf_size14_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size14_0_sram_inv[0:3]),
.out(chany_top_out[2]));
mux_tree_tapbuf_size14 mux_bottom_track_5 (
.in({chany_top_in[5], chany_top_in[14], bottom_right_grid_pin_1_[0], bottom_left_grid_pin_34_[0], bottom_left_grid_pin_35_[0], bottom_left_grid_pin_36_[0], bottom_left_grid_pin_37_[0], bottom_left_grid_pin_38_[0], bottom_left_grid_pin_39_[0], bottom_left_grid_pin_40_[0], bottom_left_grid_pin_41_[0], chanx_left_in[3], chanx_left_in[10], chanx_left_in[17]}),
.sram(mux_tree_tapbuf_size14_1_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size14_1_sram_inv[0:3]),
.out(chany_bottom_out[2]));
mux_tree_tapbuf_size14_mem mem_top_track_4 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size14_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size14_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size14_0_sram_inv[0:3]));
mux_tree_tapbuf_size14_mem mem_bottom_track_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size9_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size14_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size14_1_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size14_1_sram_inv[0:3]));
mux_tree_tapbuf_size7 mux_top_track_16 (
.in({top_left_grid_pin_35_[0], top_left_grid_pin_39_[0], chany_bottom_in[8], chany_bottom_in[17], chanx_left_in[3], chanx_left_in[10], chanx_left_in[17]}),
.sram(mux_tree_tapbuf_size7_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_0_sram_inv[0:2]),
.out(chany_top_out[8]));
mux_tree_tapbuf_size7 mux_top_track_24 (
.in({top_left_grid_pin_36_[0], top_left_grid_pin_40_[0], chany_bottom_in[9], chany_bottom_in[18], chanx_left_in[2], chanx_left_in[9], chanx_left_in[16]}),
.sram(mux_tree_tapbuf_size7_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_1_sram_inv[0:2]),
.out(chany_top_out[12]));
mux_tree_tapbuf_size7 mux_bottom_track_17 (
.in({chany_top_in[8], chany_top_in[17], bottom_left_grid_pin_34_[0], bottom_left_grid_pin_38_[0], chanx_left_in[5], chanx_left_in[12], chanx_left_in[19]}),
.sram(mux_tree_tapbuf_size7_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_2_sram_inv[0:2]),
.out(chany_bottom_out[8]));
mux_tree_tapbuf_size7 mux_left_track_1 (
.in({chany_top_in[0], chany_top_in[2], chany_bottom_in[2], left_top_grid_pin_42_[0], left_top_grid_pin_44_[0], left_top_grid_pin_46_[0], left_top_grid_pin_48_[0]}),
.sram(mux_tree_tapbuf_size7_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_3_sram_inv[0:2]),
.out(chanx_left_out[0]));
mux_tree_tapbuf_size7 mux_left_track_3 (
.in({chany_top_in[4], chany_bottom_in[0], chany_bottom_in[4], left_top_grid_pin_43_[0], left_top_grid_pin_45_[0], left_top_grid_pin_47_[0], left_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size7_4_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_4_sram_inv[0:2]),
.out(chanx_left_out[1]));
mux_tree_tapbuf_size7 mux_left_track_5 (
.in({chany_top_in[5], chany_bottom_in[1], chany_bottom_in[5], left_top_grid_pin_42_[0], left_top_grid_pin_44_[0], left_top_grid_pin_46_[0], left_top_grid_pin_48_[0]}),
.sram(mux_tree_tapbuf_size7_5_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_5_sram_inv[0:2]),
.out(chanx_left_out[2]));
mux_tree_tapbuf_size7 mux_left_track_7 (
.in({chany_top_in[6], chany_bottom_in[3], chany_bottom_in[6], left_top_grid_pin_43_[0], left_top_grid_pin_45_[0], left_top_grid_pin_47_[0], left_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size7_6_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size7_6_sram_inv[0:2]),
.out(chanx_left_out[3]));
mux_tree_tapbuf_size7_mem mem_top_track_16 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_0_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_top_track_24 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_1_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_bottom_track_17 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size8_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_2_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_left_track_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_3_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_left_track_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_4_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_4_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_left_track_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_5_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_5_sram_inv[0:2]));
mux_tree_tapbuf_size7_mem mem_left_track_7 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size7_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size7_6_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size7_6_sram_inv[0:2]));
mux_tree_tapbuf_size6 mux_top_track_32 (
.in({top_left_grid_pin_37_[0], top_left_grid_pin_41_[0], chany_bottom_in[10], chanx_left_in[1], chanx_left_in[8], chanx_left_in[15]}),
.sram(mux_tree_tapbuf_size6_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_0_sram_inv[0:2]),
.out(chany_top_out[16]));
mux_tree_tapbuf_size6 mux_bottom_track_25 (
.in({chany_top_in[9], chany_top_in[18], bottom_left_grid_pin_35_[0], bottom_left_grid_pin_39_[0], chanx_left_in[6], chanx_left_in[13]}),
.sram(mux_tree_tapbuf_size6_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_1_sram_inv[0:2]),
.out(chany_bottom_out[12]));
mux_tree_tapbuf_size6 mux_bottom_track_33 (
.in({chany_top_in[10], bottom_left_grid_pin_36_[0], bottom_left_grid_pin_40_[0], chanx_left_in[0], chanx_left_in[7], chanx_left_in[14]}),
.sram(mux_tree_tapbuf_size6_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_2_sram_inv[0:2]),
.out(chany_bottom_out[16]));
mux_tree_tapbuf_size6_mem mem_top_track_32 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_0_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_bottom_track_25 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_1_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_bottom_track_33 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_2_sram_inv[0:2]));
mux_tree_tapbuf_size9 mux_bottom_track_3 (
.in({chany_top_in[4], chany_top_in[13], bottom_left_grid_pin_34_[0], bottom_left_grid_pin_36_[0], bottom_left_grid_pin_38_[0], bottom_left_grid_pin_40_[0], chanx_left_in[2], chanx_left_in[9], chanx_left_in[16]}),
.sram(mux_tree_tapbuf_size9_0_sram[0:3]),
.sram_inv(mux_tree_tapbuf_size9_0_sram_inv[0:3]),
.out(chany_bottom_out[1]));
mux_tree_tapbuf_size9_mem mem_bottom_track_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size10_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size9_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size9_0_sram[0:3]),
.mem_outb(mux_tree_tapbuf_size9_0_sram_inv[0:3]));
mux_tree_tapbuf_size4 mux_left_track_9 (
.in({chany_top_in[8], chany_bottom_in[7:8], left_top_grid_pin_42_[0]}),
.sram(mux_tree_tapbuf_size4_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_0_sram_inv[0:2]),
.out(chanx_left_out[4]));
mux_tree_tapbuf_size4 mux_left_track_11 (
.in({chany_top_in[9], chany_bottom_in[9], chany_bottom_in[11], left_top_grid_pin_43_[0]}),
.sram(mux_tree_tapbuf_size4_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_1_sram_inv[0:2]),
.out(chanx_left_out[5]));
mux_tree_tapbuf_size4 mux_left_track_13 (
.in({chany_top_in[10], chany_bottom_in[10], chany_bottom_in[15], left_top_grid_pin_44_[0]}),
.sram(mux_tree_tapbuf_size4_2_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_2_sram_inv[0:2]),
.out(chanx_left_out[6]));
mux_tree_tapbuf_size4 mux_left_track_15 (
.in({chany_top_in[12], chany_bottom_in[12], chany_bottom_in[19], left_top_grid_pin_45_[0]}),
.sram(mux_tree_tapbuf_size4_3_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size4_3_sram_inv[0:2]),
.out(chanx_left_out[7]));
mux_tree_tapbuf_size4_mem mem_left_track_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size7_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_0_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_left_track_11 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_1_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_left_track_13 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_2_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_2_sram_inv[0:2]));
mux_tree_tapbuf_size4_mem mem_left_track_15 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size4_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size4_3_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size4_3_sram_inv[0:2]));
mux_tree_tapbuf_size3 mux_left_track_17 (
.in({chany_top_in[13], chany_bottom_in[13], left_top_grid_pin_46_[0]}),
.sram(mux_tree_tapbuf_size3_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_0_sram_inv[0:1]),
.out(chanx_left_out[8]));
mux_tree_tapbuf_size3 mux_left_track_19 (
.in({chany_top_in[14], chany_bottom_in[14], left_top_grid_pin_47_[0]}),
.sram(mux_tree_tapbuf_size3_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_1_sram_inv[0:1]),
.out(chanx_left_out[9]));
mux_tree_tapbuf_size3 mux_left_track_21 (
.in({chany_top_in[16], chany_bottom_in[16], left_top_grid_pin_48_[0]}),
.sram(mux_tree_tapbuf_size3_2_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_2_sram_inv[0:1]),
.out(chanx_left_out[10]));
mux_tree_tapbuf_size3 mux_left_track_23 (
.in({chany_top_in[17], chany_bottom_in[17], left_top_grid_pin_49_[0]}),
.sram(mux_tree_tapbuf_size3_3_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_3_sram_inv[0:1]),
.out(chanx_left_out[11]));
mux_tree_tapbuf_size3 mux_left_track_25 (
.in({chany_top_in[18], chany_bottom_in[18], left_top_grid_pin_42_[0]}),
.sram(mux_tree_tapbuf_size3_4_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_4_sram_inv[0:1]),
.out(chanx_left_out[12]));
mux_tree_tapbuf_size3_mem mem_left_track_17 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size4_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_0_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_left_track_19 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_1_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_left_track_21 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_2_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_2_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_left_track_23 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_3_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_3_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_left_track_25 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_3_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_4_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_4_sram_inv[0:1]));
endmodule
//

528
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/routing/sb_2__2_.v Normal file
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@ -0,0 +1,528 @@
//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module sb_2__2_(prog_clk,
chany_bottom_in,
bottom_right_grid_pin_1_,
bottom_left_grid_pin_34_,
bottom_left_grid_pin_35_,
bottom_left_grid_pin_36_,
bottom_left_grid_pin_37_,
bottom_left_grid_pin_38_,
bottom_left_grid_pin_39_,
bottom_left_grid_pin_40_,
bottom_left_grid_pin_41_,
chanx_left_in,
left_top_grid_pin_1_,
ccff_head,
chany_bottom_out,
chanx_left_out,
ccff_tail);
//
input [0:0] prog_clk;
//
input [0:19] chany_bottom_in;
//
input [0:0] bottom_right_grid_pin_1_;
//
input [0:0] bottom_left_grid_pin_34_;
//
input [0:0] bottom_left_grid_pin_35_;
//
input [0:0] bottom_left_grid_pin_36_;
//
input [0:0] bottom_left_grid_pin_37_;
//
input [0:0] bottom_left_grid_pin_38_;
//
input [0:0] bottom_left_grid_pin_39_;
//
input [0:0] bottom_left_grid_pin_40_;
//
input [0:0] bottom_left_grid_pin_41_;
//
input [0:19] chanx_left_in;
//
input [0:0] left_top_grid_pin_1_;
//
input [0:0] ccff_head;
//
output [0:19] chany_bottom_out;
//
output [0:19] chanx_left_out;
//
output [0:0] ccff_tail;
//
//
//
//
wire [0:1] mux_tree_tapbuf_size2_0_sram;
wire [0:1] mux_tree_tapbuf_size2_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_10_sram;
wire [0:1] mux_tree_tapbuf_size2_10_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_11_sram;
wire [0:1] mux_tree_tapbuf_size2_11_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_12_sram;
wire [0:1] mux_tree_tapbuf_size2_12_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_13_sram;
wire [0:1] mux_tree_tapbuf_size2_13_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_14_sram;
wire [0:1] mux_tree_tapbuf_size2_14_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_15_sram;
wire [0:1] mux_tree_tapbuf_size2_15_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_16_sram;
wire [0:1] mux_tree_tapbuf_size2_16_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_17_sram;
wire [0:1] mux_tree_tapbuf_size2_17_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_1_sram;
wire [0:1] mux_tree_tapbuf_size2_1_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_2_sram;
wire [0:1] mux_tree_tapbuf_size2_2_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_3_sram;
wire [0:1] mux_tree_tapbuf_size2_3_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_4_sram;
wire [0:1] mux_tree_tapbuf_size2_4_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_5_sram;
wire [0:1] mux_tree_tapbuf_size2_5_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_6_sram;
wire [0:1] mux_tree_tapbuf_size2_6_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_7_sram;
wire [0:1] mux_tree_tapbuf_size2_7_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_8_sram;
wire [0:1] mux_tree_tapbuf_size2_8_sram_inv;
wire [0:1] mux_tree_tapbuf_size2_9_sram;
wire [0:1] mux_tree_tapbuf_size2_9_sram_inv;
wire [0:0] mux_tree_tapbuf_size2_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_10_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_11_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_12_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_13_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_14_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_15_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_16_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_1_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_2_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_3_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_4_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_5_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_6_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_7_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_8_ccff_tail;
wire [0:0] mux_tree_tapbuf_size2_mem_9_ccff_tail;
wire [0:1] mux_tree_tapbuf_size3_0_sram;
wire [0:1] mux_tree_tapbuf_size3_0_sram_inv;
wire [0:1] mux_tree_tapbuf_size3_1_sram;
wire [0:1] mux_tree_tapbuf_size3_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size3_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size3_mem_1_ccff_tail;
wire [0:2] mux_tree_tapbuf_size5_0_sram;
wire [0:2] mux_tree_tapbuf_size5_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size5_1_sram;
wire [0:2] mux_tree_tapbuf_size5_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size5_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size5_mem_1_ccff_tail;
wire [0:2] mux_tree_tapbuf_size6_0_sram;
wire [0:2] mux_tree_tapbuf_size6_0_sram_inv;
wire [0:2] mux_tree_tapbuf_size6_1_sram;
wire [0:2] mux_tree_tapbuf_size6_1_sram_inv;
wire [0:0] mux_tree_tapbuf_size6_mem_0_ccff_tail;
wire [0:0] mux_tree_tapbuf_size6_mem_1_ccff_tail;
//
//
//
//
assign chanx_left_out[1] = chany_bottom_in[0];
//
//
//
assign chanx_left_out[3] = chany_bottom_in[2];
//
//
//
assign chanx_left_out[5] = chany_bottom_in[4];
//
//
//
assign chanx_left_out[6] = chany_bottom_in[5];
//
//
//
assign chanx_left_out[7] = chany_bottom_in[6];
//
//
//
assign chanx_left_out[8] = chany_bottom_in[7];
//
//
//
assign chanx_left_out[9] = chany_bottom_in[8];
//
//
//
assign chanx_left_out[10] = chany_bottom_in[9];
//
//
//
assign chanx_left_out[11] = chany_bottom_in[10];
//
//
//
assign chanx_left_out[13] = chany_bottom_in[12];
//
//
//
assign chanx_left_out[14] = chany_bottom_in[13];
//
//
//
assign chanx_left_out[15] = chany_bottom_in[14];
//
//
//
assign chanx_left_out[16] = chany_bottom_in[15];
//
//
//
assign chanx_left_out[17] = chany_bottom_in[16];
//
//
//
assign chanx_left_out[18] = chany_bottom_in[17];
//
//
//
assign chanx_left_out[19] = chany_bottom_in[18];
//
//
//
mux_tree_tapbuf_size6 mux_bottom_track_1 (
.in({bottom_right_grid_pin_1_[0], bottom_left_grid_pin_35_[0], bottom_left_grid_pin_37_[0], bottom_left_grid_pin_39_[0], bottom_left_grid_pin_41_[0], chanx_left_in[1]}),
.sram(mux_tree_tapbuf_size6_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_0_sram_inv[0:2]),
.out(chany_bottom_out[0]));
mux_tree_tapbuf_size6 mux_bottom_track_5 (
.in({bottom_right_grid_pin_1_[0], bottom_left_grid_pin_35_[0], bottom_left_grid_pin_37_[0], bottom_left_grid_pin_39_[0], bottom_left_grid_pin_41_[0], chanx_left_in[3]}),
.sram(mux_tree_tapbuf_size6_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size6_1_sram_inv[0:2]),
.out(chany_bottom_out[2]));
mux_tree_tapbuf_size6_mem mem_bottom_track_1 (
.prog_clk(prog_clk[0]),
.ccff_head(ccff_head[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_0_sram_inv[0:2]));
mux_tree_tapbuf_size6_mem mem_bottom_track_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size6_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size6_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size6_1_sram_inv[0:2]));
mux_tree_tapbuf_size5 mux_bottom_track_3 (
.in({bottom_left_grid_pin_34_[0], bottom_left_grid_pin_36_[0], bottom_left_grid_pin_38_[0], bottom_left_grid_pin_40_[0], chanx_left_in[2]}),
.sram(mux_tree_tapbuf_size5_0_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_0_sram_inv[0:2]),
.out(chany_bottom_out[1]));
mux_tree_tapbuf_size5 mux_bottom_track_7 (
.in({bottom_left_grid_pin_34_[0], bottom_left_grid_pin_36_[0], bottom_left_grid_pin_38_[0], bottom_left_grid_pin_40_[0], chanx_left_in[4]}),
.sram(mux_tree_tapbuf_size5_1_sram[0:2]),
.sram_inv(mux_tree_tapbuf_size5_1_sram_inv[0:2]),
.out(chany_bottom_out[3]));
mux_tree_tapbuf_size5_mem mem_bottom_track_3 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_0_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_0_sram_inv[0:2]));
mux_tree_tapbuf_size5_mem mem_bottom_track_7 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size6_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size5_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size5_1_sram[0:2]),
.mem_outb(mux_tree_tapbuf_size5_1_sram_inv[0:2]));
mux_tree_tapbuf_size3 mux_bottom_track_9 (
.in({bottom_right_grid_pin_1_[0], bottom_left_grid_pin_41_[0], chanx_left_in[5]}),
.sram(mux_tree_tapbuf_size3_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_0_sram_inv[0:1]),
.out(chany_bottom_out[4]));
mux_tree_tapbuf_size3 mux_bottom_track_25 (
.in({bottom_right_grid_pin_1_[0], bottom_left_grid_pin_41_[0], chanx_left_in[13]}),
.sram(mux_tree_tapbuf_size3_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size3_1_sram_inv[0:1]),
.out(chany_bottom_out[12]));
mux_tree_tapbuf_size3_mem mem_bottom_track_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size5_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_0_sram_inv[0:1]));
mux_tree_tapbuf_size3_mem mem_bottom_track_25 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_6_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size3_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size3_1_sram_inv[0:1]));
mux_tree_tapbuf_size2 mux_bottom_track_11 (
.in({bottom_left_grid_pin_34_[0], chanx_left_in[6]}),
.sram(mux_tree_tapbuf_size2_0_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_0_sram_inv[0:1]),
.out(chany_bottom_out[5]));
mux_tree_tapbuf_size2 mux_bottom_track_13 (
.in({bottom_left_grid_pin_35_[0], chanx_left_in[7]}),
.sram(mux_tree_tapbuf_size2_1_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_1_sram_inv[0:1]),
.out(chany_bottom_out[6]));
mux_tree_tapbuf_size2 mux_bottom_track_15 (
.in({bottom_left_grid_pin_36_[0], chanx_left_in[8]}),
.sram(mux_tree_tapbuf_size2_2_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_2_sram_inv[0:1]),
.out(chany_bottom_out[7]));
mux_tree_tapbuf_size2 mux_bottom_track_17 (
.in({bottom_left_grid_pin_37_[0], chanx_left_in[9]}),
.sram(mux_tree_tapbuf_size2_3_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_3_sram_inv[0:1]),
.out(chany_bottom_out[8]));
mux_tree_tapbuf_size2 mux_bottom_track_19 (
.in({bottom_left_grid_pin_38_[0], chanx_left_in[10]}),
.sram(mux_tree_tapbuf_size2_4_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_4_sram_inv[0:1]),
.out(chany_bottom_out[9]));
mux_tree_tapbuf_size2 mux_bottom_track_21 (
.in({bottom_left_grid_pin_39_[0], chanx_left_in[11]}),
.sram(mux_tree_tapbuf_size2_5_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_5_sram_inv[0:1]),
.out(chany_bottom_out[10]));
mux_tree_tapbuf_size2 mux_bottom_track_23 (
.in({bottom_left_grid_pin_40_[0], chanx_left_in[12]}),
.sram(mux_tree_tapbuf_size2_6_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_6_sram_inv[0:1]),
.out(chany_bottom_out[11]));
mux_tree_tapbuf_size2 mux_bottom_track_27 (
.in({bottom_left_grid_pin_34_[0], chanx_left_in[14]}),
.sram(mux_tree_tapbuf_size2_7_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_7_sram_inv[0:1]),
.out(chany_bottom_out[13]));
mux_tree_tapbuf_size2 mux_bottom_track_29 (
.in({bottom_left_grid_pin_35_[0], chanx_left_in[15]}),
.sram(mux_tree_tapbuf_size2_8_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_8_sram_inv[0:1]),
.out(chany_bottom_out[14]));
mux_tree_tapbuf_size2 mux_bottom_track_31 (
.in({bottom_left_grid_pin_36_[0], chanx_left_in[16]}),
.sram(mux_tree_tapbuf_size2_9_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_9_sram_inv[0:1]),
.out(chany_bottom_out[15]));
mux_tree_tapbuf_size2 mux_bottom_track_33 (
.in({bottom_left_grid_pin_37_[0], chanx_left_in[17]}),
.sram(mux_tree_tapbuf_size2_10_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_10_sram_inv[0:1]),
.out(chany_bottom_out[16]));
mux_tree_tapbuf_size2 mux_bottom_track_35 (
.in({bottom_left_grid_pin_38_[0], chanx_left_in[18]}),
.sram(mux_tree_tapbuf_size2_11_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_11_sram_inv[0:1]),
.out(chany_bottom_out[17]));
mux_tree_tapbuf_size2 mux_bottom_track_37 (
.in({bottom_left_grid_pin_39_[0], chanx_left_in[19]}),
.sram(mux_tree_tapbuf_size2_12_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_12_sram_inv[0:1]),
.out(chany_bottom_out[18]));
mux_tree_tapbuf_size2 mux_bottom_track_39 (
.in({bottom_left_grid_pin_40_[0], chanx_left_in[0]}),
.sram(mux_tree_tapbuf_size2_13_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_13_sram_inv[0:1]),
.out(chany_bottom_out[19]));
mux_tree_tapbuf_size2 mux_left_track_1 (
.in({chany_bottom_in[19], left_top_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size2_14_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_14_sram_inv[0:1]),
.out(chanx_left_out[0]));
mux_tree_tapbuf_size2 mux_left_track_5 (
.in({chany_bottom_in[1], left_top_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size2_15_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_15_sram_inv[0:1]),
.out(chanx_left_out[2]));
mux_tree_tapbuf_size2 mux_left_track_9 (
.in({chany_bottom_in[3], left_top_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size2_16_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_16_sram_inv[0:1]),
.out(chanx_left_out[4]));
mux_tree_tapbuf_size2 mux_left_track_25 (
.in({chany_bottom_in[11], left_top_grid_pin_1_[0]}),
.sram(mux_tree_tapbuf_size2_17_sram[0:1]),
.sram_inv(mux_tree_tapbuf_size2_17_sram_inv[0:1]),
.out(chanx_left_out[12]));
mux_tree_tapbuf_size2_mem mem_bottom_track_11 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_0_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_0_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_13 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_0_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_1_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_1_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_1_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_15 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_2_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_2_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_2_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_17 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_2_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_3_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_3_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_3_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_19 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_3_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_4_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_4_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_4_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_21 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_4_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_5_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_5_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_5_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_23 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_5_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_6_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_6_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_6_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_27 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size3_mem_1_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_7_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_7_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_7_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_29 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_7_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_8_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_8_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_8_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_31 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_8_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_9_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_9_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_9_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_33 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_9_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_10_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_10_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_10_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_35 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_10_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_11_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_11_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_11_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_37 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_11_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_12_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_12_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_12_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_bottom_track_39 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_12_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_13_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_13_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_13_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_left_track_1 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_13_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_14_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_14_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_14_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_left_track_5 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_14_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_15_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_15_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_15_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_left_track_9 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_15_ccff_tail[0]),
.ccff_tail(mux_tree_tapbuf_size2_mem_16_ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_16_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_16_sram_inv[0:1]));
mux_tree_tapbuf_size2_mem mem_left_track_25 (
.prog_clk(prog_clk[0]),
.ccff_head(mux_tree_tapbuf_size2_mem_16_ccff_tail[0]),
.ccff_tail(ccff_tail[0]),
.mem_out(mux_tree_tapbuf_size2_17_sram[0:1]),
.mem_outb(mux_tree_tapbuf_size2_17_sram_inv[0:1]));
endmodule
//

10
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/sub_module/arch_encoder.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps

42
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/sub_module/inv_buf_passgate.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module const0(const0);
//
output [0:0] const0;
//
//
//
//
assign const0[0] = 1'b0;
endmodule
//
//
module const1(const1);
//
output [0:0] const1;
//
//
//
//
assign const1[0] = 1'b1;
endmodule
//

10
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/sub_module/local_encoder.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps

107
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/sub_module/luts.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module frac_lut4(in,
sram,
sram_inv,
mode,
mode_inv,
lut3_out,
lut4_out);
//
input [0:3] in;
//
input [0:15] sram;
//
input [0:15] sram_inv;
//
input [0:0] mode;
//
input [0:0] mode_inv;
//
output [0:1] lut3_out;
//
output [0:0] lut4_out;
//
wire [0:3] in;
wire [0:1] lut3_out;
wire [0:0] lut4_out;
//
//
//
wire [0:0] sky130_fd_sc_hd__buf_2_0_X;
wire [0:0] sky130_fd_sc_hd__buf_2_1_X;
wire [0:0] sky130_fd_sc_hd__buf_2_2_X;
wire [0:0] sky130_fd_sc_hd__buf_2_3_X;
wire [0:0] sky130_fd_sc_hd__inv_1_0_Y;
wire [0:0] sky130_fd_sc_hd__inv_1_1_Y;
wire [0:0] sky130_fd_sc_hd__inv_1_2_Y;
wire [0:0] sky130_fd_sc_hd__inv_1_3_Y;
wire [0:0] sky130_fd_sc_hd__or2_1_0_X;
//
//
//
//
sky130_fd_sc_hd__or2_1 sky130_fd_sc_hd__or2_1_0_ (
.A(mode[0]),
.B(in[3]),
.X(sky130_fd_sc_hd__or2_1_0_X[0]));
sky130_fd_sc_hd__inv_1 sky130_fd_sc_hd__inv_1_0_ (
.A(in[0]),
.Y(sky130_fd_sc_hd__inv_1_0_Y[0]));
sky130_fd_sc_hd__inv_1 sky130_fd_sc_hd__inv_1_1_ (
.A(in[1]),
.Y(sky130_fd_sc_hd__inv_1_1_Y[0]));
sky130_fd_sc_hd__inv_1 sky130_fd_sc_hd__inv_1_2_ (
.A(in[2]),
.Y(sky130_fd_sc_hd__inv_1_2_Y[0]));
sky130_fd_sc_hd__inv_1 sky130_fd_sc_hd__inv_1_3_ (
.A(sky130_fd_sc_hd__or2_1_0_X[0]),
.Y(sky130_fd_sc_hd__inv_1_3_Y[0]));
sky130_fd_sc_hd__buf_2 sky130_fd_sc_hd__buf_2_0_ (
.A(in[0]),
.X(sky130_fd_sc_hd__buf_2_0_X[0]));
sky130_fd_sc_hd__buf_2 sky130_fd_sc_hd__buf_2_1_ (
.A(in[1]),
.X(sky130_fd_sc_hd__buf_2_1_X[0]));
sky130_fd_sc_hd__buf_2 sky130_fd_sc_hd__buf_2_2_ (
.A(in[2]),
.X(sky130_fd_sc_hd__buf_2_2_X[0]));
sky130_fd_sc_hd__buf_2 sky130_fd_sc_hd__buf_2_3_ (
.A(sky130_fd_sc_hd__or2_1_0_X[0]),
.X(sky130_fd_sc_hd__buf_2_3_X[0]));
frac_lut4_mux frac_lut4_mux_0_ (
.in(sram[0:15]),
.sram({sky130_fd_sc_hd__buf_2_0_X[0], sky130_fd_sc_hd__buf_2_1_X[0], sky130_fd_sc_hd__buf_2_2_X[0], sky130_fd_sc_hd__buf_2_3_X[0]}),
.sram_inv({sky130_fd_sc_hd__inv_1_0_Y[0], sky130_fd_sc_hd__inv_1_1_Y[0], sky130_fd_sc_hd__inv_1_2_Y[0], sky130_fd_sc_hd__inv_1_3_Y[0]}),
.lut3_out(lut3_out[0:1]),
.lut4_out(lut4_out[0]));
endmodule
//

931
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/sub_module/memories.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
module mux_tree_tapbuf_size10_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:3] mem_out;
//
output [0:3] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[3];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_2_ (
.CLK(prog_clk[0]),
.D(mem_out[1]),
.Q(mem_out[2]),
.Q_N(mem_outb[2]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_3_ (
.CLK(prog_clk[0]),
.D(mem_out[2]),
.Q(mem_out[3]),
.Q_N(mem_outb[3]));
endmodule
//
//
module mux_tree_tapbuf_size8_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:3] mem_out;
//
output [0:3] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[3];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_2_ (
.CLK(prog_clk[0]),
.D(mem_out[1]),
.Q(mem_out[2]),
.Q_N(mem_outb[2]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_3_ (
.CLK(prog_clk[0]),
.D(mem_out[2]),
.Q(mem_out[3]),
.Q_N(mem_outb[3]));
endmodule
//
//
module mux_tree_tapbuf_size6_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:2] mem_out;
//
output [0:2] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[2];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_2_ (
.CLK(prog_clk[0]),
.D(mem_out[1]),
.Q(mem_out[2]),
.Q_N(mem_outb[2]));
endmodule
//
//
module mux_tree_tapbuf_size5_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:2] mem_out;
//
output [0:2] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[2];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_2_ (
.CLK(prog_clk[0]),
.D(mem_out[1]),
.Q(mem_out[2]),
.Q_N(mem_outb[2]));
endmodule
//
//
module mux_tree_tapbuf_size14_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:3] mem_out;
//
output [0:3] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[3];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_2_ (
.CLK(prog_clk[0]),
.D(mem_out[1]),
.Q(mem_out[2]),
.Q_N(mem_outb[2]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_3_ (
.CLK(prog_clk[0]),
.D(mem_out[2]),
.Q(mem_out[3]),
.Q_N(mem_outb[3]));
endmodule
//
//
module mux_tree_tapbuf_size3_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:1] mem_out;
//
output [0:1] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[1];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
endmodule
//
//
module mux_tree_tapbuf_size2_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:1] mem_out;
//
output [0:1] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[1];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
endmodule
//
//
module mux_tree_tapbuf_size7_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:2] mem_out;
//
output [0:2] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[2];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_2_ (
.CLK(prog_clk[0]),
.D(mem_out[1]),
.Q(mem_out[2]),
.Q_N(mem_outb[2]));
endmodule
//
//
module mux_tree_tapbuf_size9_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:3] mem_out;
//
output [0:3] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[3];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_2_ (
.CLK(prog_clk[0]),
.D(mem_out[1]),
.Q(mem_out[2]),
.Q_N(mem_outb[2]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_3_ (
.CLK(prog_clk[0]),
.D(mem_out[2]),
.Q(mem_out[3]),
.Q_N(mem_outb[3]));
endmodule
//
//
module mux_tree_tapbuf_size12_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:3] mem_out;
//
output [0:3] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[3];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_2_ (
.CLK(prog_clk[0]),
.D(mem_out[1]),
.Q(mem_out[2]),
.Q_N(mem_outb[2]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_3_ (
.CLK(prog_clk[0]),
.D(mem_out[2]),
.Q(mem_out[3]),
.Q_N(mem_outb[3]));
endmodule
//
//
module mux_tree_tapbuf_size16_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:4] mem_out;
//
output [0:4] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[4];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_2_ (
.CLK(prog_clk[0]),
.D(mem_out[1]),
.Q(mem_out[2]),
.Q_N(mem_outb[2]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_3_ (
.CLK(prog_clk[0]),
.D(mem_out[2]),
.Q(mem_out[3]),
.Q_N(mem_outb[3]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_4_ (
.CLK(prog_clk[0]),
.D(mem_out[3]),
.Q(mem_out[4]),
.Q_N(mem_outb[4]));
endmodule
//
//
module mux_tree_tapbuf_size4_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:2] mem_out;
//
output [0:2] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[2];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_2_ (
.CLK(prog_clk[0]),
.D(mem_out[1]),
.Q(mem_out[2]),
.Q_N(mem_outb[2]));
endmodule
//
//
module mux_tree_size2_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:1] mem_out;
//
output [0:1] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[1];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
endmodule
//
//
module frac_lut4_sky130_fd_sc_hd__dfxbp_1_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:16] mem_out;
//
output [0:16] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[16];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_1_ (
.CLK(prog_clk[0]),
.D(mem_out[0]),
.Q(mem_out[1]),
.Q_N(mem_outb[1]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_2_ (
.CLK(prog_clk[0]),
.D(mem_out[1]),
.Q(mem_out[2]),
.Q_N(mem_outb[2]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_3_ (
.CLK(prog_clk[0]),
.D(mem_out[2]),
.Q(mem_out[3]),
.Q_N(mem_outb[3]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_4_ (
.CLK(prog_clk[0]),
.D(mem_out[3]),
.Q(mem_out[4]),
.Q_N(mem_outb[4]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_5_ (
.CLK(prog_clk[0]),
.D(mem_out[4]),
.Q(mem_out[5]),
.Q_N(mem_outb[5]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_6_ (
.CLK(prog_clk[0]),
.D(mem_out[5]),
.Q(mem_out[6]),
.Q_N(mem_outb[6]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_7_ (
.CLK(prog_clk[0]),
.D(mem_out[6]),
.Q(mem_out[7]),
.Q_N(mem_outb[7]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_8_ (
.CLK(prog_clk[0]),
.D(mem_out[7]),
.Q(mem_out[8]),
.Q_N(mem_outb[8]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_9_ (
.CLK(prog_clk[0]),
.D(mem_out[8]),
.Q(mem_out[9]),
.Q_N(mem_outb[9]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_10_ (
.CLK(prog_clk[0]),
.D(mem_out[9]),
.Q(mem_out[10]),
.Q_N(mem_outb[10]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_11_ (
.CLK(prog_clk[0]),
.D(mem_out[10]),
.Q(mem_out[11]),
.Q_N(mem_outb[11]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_12_ (
.CLK(prog_clk[0]),
.D(mem_out[11]),
.Q(mem_out[12]),
.Q_N(mem_outb[12]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_13_ (
.CLK(prog_clk[0]),
.D(mem_out[12]),
.Q(mem_out[13]),
.Q_N(mem_outb[13]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_14_ (
.CLK(prog_clk[0]),
.D(mem_out[13]),
.Q(mem_out[14]),
.Q_N(mem_outb[14]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_15_ (
.CLK(prog_clk[0]),
.D(mem_out[14]),
.Q(mem_out[15]),
.Q_N(mem_outb[15]));
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_16_ (
.CLK(prog_clk[0]),
.D(mem_out[15]),
.Q(mem_out[16]),
.Q_N(mem_outb[16]));
endmodule
//
//
module GPIO_sky130_fd_sc_hd__dfxbp_1_mem(prog_clk,
ccff_head,
ccff_tail,
mem_out,
mem_outb);
//
input [0:0] prog_clk;
//
input [0:0] ccff_head;
//
output [0:0] ccff_tail;
//
output [0:0] mem_out;
//
output [0:0] mem_outb;
//
//
//
//
//
//
//
assign ccff_tail[0] = mem_out[0];
//
sky130_fd_sc_hd__dfxbp_1 sky130_fd_sc_hd__dfxbp_1_0_ (
.CLK(prog_clk[0]),
.D(ccff_head[0]),
.Q(mem_out[0]),
.Q_N(mem_outb[0]));
endmodule
//

1397
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/sub_module/muxes.v Normal file
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29
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/sub_module/std_cell_extract.v Normal file
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`timescale 1ns/1ps
//
//
//
//
//
//
//
//
//
module GPIO (A, IE, OE, Y, in, out, mem_out);
output A;
output IE;
output OE;
output Y;
input in;
output out;
input mem_out;
assign A = in;
assign out = Y;
assign IE = mem_out;
sky130_fd_sc_hd__inv_1 ie_oe_inv (
.A (mem_out),
.Y (OE) );
endmodule

34
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_Verilog/SRC/sub_module/wires.v Normal file
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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
//
module direct_interc(in,
out);
//
input [0:0] in;
//
output [0:0] out;
//
//
//
//
wire [0:0] in;
wire [0:0] out;
assign out[0] = in[0];
endmodule
//
//

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
module top_top_formal_verification_random_tb;
//
reg [0:0] clk;
//
reg [0:0] a;
reg [0:0] b;
//
wire [0:0] out:c_gfpga;
`ifdef AUTOCHECKED_SIMULATION
//
wire [0:0] out:c_bench;
//
reg [0:0] out:c_flag;
`endif
//
integer nb_error= 0;
//
top_top_formal_verification FPGA_DUT(
.a_fm(a),
.b_fm(b),
.out:c_fm(out:c_gfpga) );
//
`ifdef AUTOCHECKED_SIMULATION
//
top REF_DUT(
.a(a),
.b(b),
.c(out:c_bench) );
//
`endif
//
initial begin
clk[0] <= 1'b0;
while(1) begin
#0.3463859793
clk[0] <= !clk[0];
end
end
//
initial begin
a <= 1'b0;
b <= 1'b0;
out:c_flag[0] <= 1'b0;
end
//
always@(negedge clk[0]) begin
a <= $random;
b <= $random;
end
`ifdef AUTOCHECKED_SIMULATION
//
//
reg [0:0] sim_start;
always@(negedge clk[0]) begin
if (1'b1 == sim_start[0]) begin
sim_start[0] <= ~sim_start[0];
end else begin
if(!(out:c_gfpga === out:c_bench) && !(out:c_bench === 1'bx)) begin
out:c_flag <= 1'b1;
end else begin
out:c_flag<= 1'b0;
end
end
end
always@(posedge out:c_flag) begin
if(out:c_flag) begin
nb_error = nb_error + 1;
$display("Mismatch on out:c_gfpga at time = %t", $realtime);
end
end
`endif
`ifdef ICARUS_SIMULATOR
//
initial begin
$dumpfile("top_formal.vcd");
$dumpvars(1, top_top_formal_verification_random_tb);
end
`endif
//
initial begin
sim_start[0] <= 1'b1;
$timeformat(-9, 2, "ns", 20);
$display("Simulation start");
//
#277
if(nb_error == 0) begin
$display("Simulation Succeed");
end else begin
$display("Simulation Failed with %d error(s)", nb_error);
end
$finish;
end
endmodule
//

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//
//
//
//
//
//
//
//
`timescale 1ns / 1ps
//
`include "./SRC/define_simulation.v"
//
`include "./SRC/fabric_netlists.v"
`ifdef AUTOCHECKED_SIMULATION
`include "top_output_verilog.v"
`endif
`ifdef ENABLE_FORMAL_VERIFICATION
`include "./SRC/top_top_formal_verification.v"
`ifdef FORMAL_SIMULATION
`include "./SRC/top_formal_random_top_tb.v"
`endif
`endif
`ifdef AUTOCHECKED_SIMULATION
`include "./SRC/top_autocheck_top_tb.v"
`endif

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set DIE_HEIGHT 2500
set DIE_WIDTH 2500
set DESIGN_NAME fpga_core
set TASK_NAME FPGA1212_FC_HD_SKY_task
set VERILOG_PROJ_DIR FPGA1212_FC_HD_SKY_Verilog
set FPGA_ROW 12
set FPGA_COL 12
set INIT_DESIGN_INPUT DP_RM_NDM
set TECHNOLOGY skywater
set DP_BLOCK_REFS [list sb_0__0_ sb_0__1_ sb_0__2_ sb_1__0_ sb_1__1_ sb_1__2_ sb_2__0_ sb_2__1_ sb_2__2_ cbx_1__0_ cbx_1__1_ cbx_1__2_ cby_0__1_ cby_1__1_ grid_clb grid_io_bottom grid_io_left grid_io_right grid_io_top];
set DP_FLOW "hier";
set DESIGN_STYLE "hier";

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<?xml version="1.0" ?>
<fabric_key>
<key id="0" alias="sb_12__12_"/>
<key id="1" alias="cbx_12__12_"/>
<key id="2" alias="grid_io_top_12__13_"/>
<key id="3" alias="sb_11__12_"/>
<key id="4" alias="cbx_11__12_"/>
<key id="5" alias="grid_io_top_11__13_"/>
<key id="6" alias="sb_10__12_"/>
<key id="7" alias="cbx_10__12_"/>
<key id="8" alias="grid_io_top_10__13_"/>
<key id="9" alias="sb_9__12_"/>
<key id="10" alias="cbx_9__12_"/>
<key id="11" alias="grid_io_top_9__13_"/>
<key id="12" alias="sb_8__12_"/>
<key id="13" alias="cbx_8__12_"/>
<key id="14" alias="grid_io_top_8__13_"/>
<key id="15" alias="sb_7__12_"/>
<key id="16" alias="cbx_7__12_"/>
<key id="17" alias="grid_io_top_7__13_"/>
<key id="18" alias="sb_6__12_"/>
<key id="19" alias="cbx_6__12_"/>
<key id="20" alias="grid_io_top_6__13_"/>
<key id="21" alias="sb_5__12_"/>
<key id="22" alias="cbx_5__12_"/>
<key id="23" alias="grid_io_top_5__13_"/>
<key id="24" alias="sb_4__12_"/>
<key id="25" alias="cbx_4__12_"/>
<key id="26" alias="grid_io_top_4__13_"/>
<key id="27" alias="sb_3__12_"/>
<key id="28" alias="cbx_3__12_"/>
<key id="29" alias="grid_io_top_3__13_"/>
<key id="30" alias="sb_2__12_"/>
<key id="31" alias="cbx_2__12_"/>
<key id="32" alias="grid_io_top_2__13_"/>
<key id="33" alias="sb_1__12_"/>
<key id="34" alias="cbx_1__12_"/>
<key id="35" alias="grid_io_top_1__13_"/>
<key id="36" alias="sb_0__12_"/>
<key id="37" alias="cby_0__12_"/>
<key id="38" alias="grid_io_left_0__12_"/>
<key id="39" alias="grid_clb_1__12_"/>
<key id="40" alias="cby_1__12_"/>
<key id="41" alias="grid_clb_2__12_"/>
<key id="42" alias="cby_2__12_"/>
<key id="43" alias="grid_clb_3__12_"/>
<key id="44" alias="cby_3__12_"/>
<key id="45" alias="grid_clb_4__12_"/>
<key id="46" alias="cby_4__12_"/>
<key id="47" alias="grid_clb_5__12_"/>
<key id="48" alias="cby_5__12_"/>
<key id="49" alias="grid_clb_6__12_"/>
<key id="50" alias="cby_6__12_"/>
<key id="51" alias="grid_clb_7__12_"/>
<key id="52" alias="cby_7__12_"/>
<key id="53" alias="grid_clb_8__12_"/>
<key id="54" alias="cby_8__12_"/>
<key id="55" alias="grid_clb_9__12_"/>
<key id="56" alias="cby_9__12_"/>
<key id="57" alias="grid_clb_10__12_"/>
<key id="58" alias="cby_10__12_"/>
<key id="59" alias="grid_clb_11__12_"/>
<key id="60" alias="cby_11__12_"/>
<key id="61" alias="grid_clb_12__12_"/>
<key id="62" alias="cby_12__12_"/>
<key id="63" alias="grid_io_right_13__12_"/>
<key id="64" alias="sb_12__11_"/>
<key id="65" alias="cbx_12__11_"/>
<key id="66" alias="sb_11__11_"/>
<key id="67" alias="cbx_11__11_"/>
<key id="68" alias="sb_10__11_"/>
<key id="69" alias="cbx_10__11_"/>
<key id="70" alias="sb_9__11_"/>
<key id="71" alias="cbx_9__11_"/>
<key id="72" alias="sb_8__11_"/>
<key id="73" alias="cbx_8__11_"/>
<key id="74" alias="sb_7__11_"/>
<key id="75" alias="cbx_7__11_"/>
<key id="76" alias="sb_6__11_"/>
<key id="77" alias="cbx_6__11_"/>
<key id="78" alias="sb_5__11_"/>
<key id="79" alias="cbx_5__11_"/>
<key id="80" alias="sb_4__11_"/>
<key id="81" alias="cbx_4__11_"/>
<key id="82" alias="sb_3__11_"/>
<key id="83" alias="cbx_3__11_"/>
<key id="84" alias="sb_2__11_"/>
<key id="85" alias="cbx_2__11_"/>
<key id="86" alias="sb_1__11_"/>
<key id="87" alias="cbx_1__11_"/>
<key id="88" alias="sb_0__11_"/>
<key id="89" alias="cby_0__11_"/>
<key id="90" alias="grid_io_left_0__11_"/>
<key id="91" alias="grid_clb_1__11_"/>
<key id="92" alias="cby_1__11_"/>
<key id="93" alias="grid_clb_2__11_"/>
<key id="94" alias="cby_2__11_"/>
<key id="95" alias="grid_clb_3__11_"/>
<key id="96" alias="cby_3__11_"/>
<key id="97" alias="grid_clb_4__11_"/>
<key id="98" alias="cby_4__11_"/>
<key id="99" alias="grid_clb_5__11_"/>
<key id="100" alias="cby_5__11_"/>
<key id="101" alias="grid_clb_6__11_"/>
<key id="102" alias="cby_6__11_"/>
<key id="103" alias="grid_clb_7__11_"/>
<key id="104" alias="cby_7__11_"/>
<key id="105" alias="grid_clb_8__11_"/>
<key id="106" alias="cby_8__11_"/>
<key id="107" alias="grid_clb_9__11_"/>
<key id="108" alias="cby_9__11_"/>
<key id="109" alias="grid_clb_10__11_"/>
<key id="110" alias="cby_10__11_"/>
<key id="111" alias="grid_clb_11__11_"/>
<key id="112" alias="cby_11__11_"/>
<key id="113" alias="grid_clb_12__11_"/>
<key id="114" alias="cby_12__11_"/>
<key id="115" alias="grid_io_right_13__11_"/>
<key id="116" alias="sb_12__10_"/>
<key id="117" alias="cbx_12__10_"/>
<key id="118" alias="sb_11__10_"/>
<key id="119" alias="cbx_11__10_"/>
<key id="120" alias="sb_10__10_"/>
<key id="121" alias="cbx_10__10_"/>
<key id="122" alias="sb_9__10_"/>
<key id="123" alias="cbx_9__10_"/>
<key id="124" alias="sb_8__10_"/>
<key id="125" alias="cbx_8__10_"/>
<key id="126" alias="sb_7__10_"/>
<key id="127" alias="cbx_7__10_"/>
<key id="128" alias="sb_6__10_"/>
<key id="129" alias="cbx_6__10_"/>
<key id="130" alias="sb_5__10_"/>
<key id="131" alias="cbx_5__10_"/>
<key id="132" alias="sb_4__10_"/>
<key id="133" alias="cbx_4__10_"/>
<key id="134" alias="sb_3__10_"/>
<key id="135" alias="cbx_3__10_"/>
<key id="136" alias="sb_2__10_"/>
<key id="137" alias="cbx_2__10_"/>
<key id="138" alias="sb_1__10_"/>
<key id="139" alias="cbx_1__10_"/>
<key id="140" alias="sb_0__10_"/>
<key id="141" alias="cby_0__10_"/>
<key id="142" alias="grid_io_left_0__10_"/>
<key id="143" alias="grid_clb_1__10_"/>
<key id="144" alias="cby_1__10_"/>
<key id="145" alias="grid_clb_2__10_"/>
<key id="146" alias="cby_2__10_"/>
<key id="147" alias="grid_clb_3__10_"/>
<key id="148" alias="cby_3__10_"/>
<key id="149" alias="grid_clb_4__10_"/>
<key id="150" alias="cby_4__10_"/>
<key id="151" alias="grid_clb_5__10_"/>
<key id="152" alias="cby_5__10_"/>
<key id="153" alias="grid_clb_6__10_"/>
<key id="154" alias="cby_6__10_"/>
<key id="155" alias="grid_clb_7__10_"/>
<key id="156" alias="cby_7__10_"/>
<key id="157" alias="grid_clb_8__10_"/>
<key id="158" alias="cby_8__10_"/>
<key id="159" alias="grid_clb_9__10_"/>
<key id="160" alias="cby_9__10_"/>
<key id="161" alias="grid_clb_10__10_"/>
<key id="162" alias="cby_10__10_"/>
<key id="163" alias="grid_clb_11__10_"/>
<key id="164" alias="cby_11__10_"/>
<key id="165" alias="grid_clb_12__10_"/>
<key id="166" alias="cby_12__10_"/>
<key id="167" alias="grid_io_right_13__10_"/>
<key id="168" alias="sb_12__9_"/>
<key id="169" alias="cbx_12__9_"/>
<key id="170" alias="sb_11__9_"/>
<key id="171" alias="cbx_11__9_"/>
<key id="172" alias="sb_10__9_"/>
<key id="173" alias="cbx_10__9_"/>
<key id="174" alias="sb_9__9_"/>
<key id="175" alias="cbx_9__9_"/>
<key id="176" alias="sb_8__9_"/>
<key id="177" alias="cbx_8__9_"/>
<key id="178" alias="sb_7__9_"/>
<key id="179" alias="cbx_7__9_"/>
<key id="180" alias="sb_6__9_"/>
<key id="181" alias="cbx_6__9_"/>
<key id="182" alias="sb_5__9_"/>
<key id="183" alias="cbx_5__9_"/>
<key id="184" alias="sb_4__9_"/>
<key id="185" alias="cbx_4__9_"/>
<key id="186" alias="sb_3__9_"/>
<key id="187" alias="cbx_3__9_"/>
<key id="188" alias="sb_2__9_"/>
<key id="189" alias="cbx_2__9_"/>
<key id="190" alias="sb_1__9_"/>
<key id="191" alias="cbx_1__9_"/>
<key id="192" alias="sb_0__9_"/>
<key id="193" alias="cby_0__9_"/>
<key id="194" alias="grid_io_left_0__9_"/>
<key id="195" alias="grid_clb_1__9_"/>
<key id="196" alias="cby_1__9_"/>
<key id="197" alias="grid_clb_2__9_"/>
<key id="198" alias="cby_2__9_"/>
<key id="199" alias="grid_clb_3__9_"/>
<key id="200" alias="cby_3__9_"/>
<key id="201" alias="grid_clb_4__9_"/>
<key id="202" alias="cby_4__9_"/>
<key id="203" alias="grid_clb_5__9_"/>
<key id="204" alias="cby_5__9_"/>
<key id="205" alias="grid_clb_6__9_"/>
<key id="206" alias="cby_6__9_"/>
<key id="207" alias="grid_clb_7__9_"/>
<key id="208" alias="cby_7__9_"/>
<key id="209" alias="grid_clb_8__9_"/>
<key id="210" alias="cby_8__9_"/>
<key id="211" alias="grid_clb_9__9_"/>
<key id="212" alias="cby_9__9_"/>
<key id="213" alias="grid_clb_10__9_"/>
<key id="214" alias="cby_10__9_"/>
<key id="215" alias="grid_clb_11__9_"/>
<key id="216" alias="cby_11__9_"/>
<key id="217" alias="grid_clb_12__9_"/>
<key id="218" alias="cby_12__9_"/>
<key id="219" alias="grid_io_right_13__9_"/>
<key id="220" alias="sb_12__8_"/>
<key id="221" alias="cbx_12__8_"/>
<key id="222" alias="sb_11__8_"/>
<key id="223" alias="cbx_11__8_"/>
<key id="224" alias="sb_10__8_"/>
<key id="225" alias="cbx_10__8_"/>
<key id="226" alias="sb_9__8_"/>
<key id="227" alias="cbx_9__8_"/>
<key id="228" alias="sb_8__8_"/>
<key id="229" alias="cbx_8__8_"/>
<key id="230" alias="sb_7__8_"/>
<key id="231" alias="cbx_7__8_"/>
<key id="232" alias="sb_6__8_"/>
<key id="233" alias="cbx_6__8_"/>
<key id="234" alias="sb_5__8_"/>
<key id="235" alias="cbx_5__8_"/>
<key id="236" alias="sb_4__8_"/>
<key id="237" alias="cbx_4__8_"/>
<key id="238" alias="sb_3__8_"/>
<key id="239" alias="cbx_3__8_"/>
<key id="240" alias="sb_2__8_"/>
<key id="241" alias="cbx_2__8_"/>
<key id="242" alias="sb_1__8_"/>
<key id="243" alias="cbx_1__8_"/>
<key id="244" alias="sb_0__8_"/>
<key id="245" alias="cby_0__8_"/>
<key id="246" alias="grid_io_left_0__8_"/>
<key id="247" alias="grid_clb_1__8_"/>
<key id="248" alias="cby_1__8_"/>
<key id="249" alias="grid_clb_2__8_"/>
<key id="250" alias="cby_2__8_"/>
<key id="251" alias="grid_clb_3__8_"/>
<key id="252" alias="cby_3__8_"/>
<key id="253" alias="grid_clb_4__8_"/>
<key id="254" alias="cby_4__8_"/>
<key id="255" alias="grid_clb_5__8_"/>
<key id="256" alias="cby_5__8_"/>
<key id="257" alias="grid_clb_6__8_"/>
<key id="258" alias="cby_6__8_"/>
<key id="259" alias="grid_clb_7__8_"/>
<key id="260" alias="cby_7__8_"/>
<key id="261" alias="grid_clb_8__8_"/>
<key id="262" alias="cby_8__8_"/>
<key id="263" alias="grid_clb_9__8_"/>
<key id="264" alias="cby_9__8_"/>
<key id="265" alias="grid_clb_10__8_"/>
<key id="266" alias="cby_10__8_"/>
<key id="267" alias="grid_clb_11__8_"/>
<key id="268" alias="cby_11__8_"/>
<key id="269" alias="grid_clb_12__8_"/>
<key id="270" alias="cby_12__8_"/>
<key id="271" alias="grid_io_right_13__8_"/>
<key id="272" alias="sb_12__7_"/>
<key id="273" alias="cbx_12__7_"/>
<key id="274" alias="sb_11__7_"/>
<key id="275" alias="cbx_11__7_"/>
<key id="276" alias="sb_10__7_"/>
<key id="277" alias="cbx_10__7_"/>
<key id="278" alias="sb_9__7_"/>
<key id="279" alias="cbx_9__7_"/>
<key id="280" alias="sb_8__7_"/>
<key id="281" alias="cbx_8__7_"/>
<key id="282" alias="sb_7__7_"/>
<key id="283" alias="cbx_7__7_"/>
<key id="284" alias="sb_6__7_"/>
<key id="285" alias="cbx_6__7_"/>
<key id="286" alias="sb_5__7_"/>
<key id="287" alias="cbx_5__7_"/>
<key id="288" alias="sb_4__7_"/>
<key id="289" alias="cbx_4__7_"/>
<key id="290" alias="sb_3__7_"/>
<key id="291" alias="cbx_3__7_"/>
<key id="292" alias="sb_2__7_"/>
<key id="293" alias="cbx_2__7_"/>
<key id="294" alias="sb_1__7_"/>
<key id="295" alias="cbx_1__7_"/>
<key id="296" alias="sb_0__7_"/>
<key id="297" alias="cby_0__7_"/>
<key id="298" alias="grid_io_left_0__7_"/>
<key id="299" alias="grid_clb_1__7_"/>
<key id="300" alias="cby_1__7_"/>
<key id="301" alias="grid_clb_2__7_"/>
<key id="302" alias="cby_2__7_"/>
<key id="303" alias="grid_clb_3__7_"/>
<key id="304" alias="cby_3__7_"/>
<key id="305" alias="grid_clb_4__7_"/>
<key id="306" alias="cby_4__7_"/>
<key id="307" alias="grid_clb_5__7_"/>
<key id="308" alias="cby_5__7_"/>
<key id="309" alias="grid_clb_6__7_"/>
<key id="310" alias="cby_6__7_"/>
<key id="311" alias="grid_clb_7__7_"/>
<key id="312" alias="cby_7__7_"/>
<key id="313" alias="grid_clb_8__7_"/>
<key id="314" alias="cby_8__7_"/>
<key id="315" alias="grid_clb_9__7_"/>
<key id="316" alias="cby_9__7_"/>
<key id="317" alias="grid_clb_10__7_"/>
<key id="318" alias="cby_10__7_"/>
<key id="319" alias="grid_clb_11__7_"/>
<key id="320" alias="cby_11__7_"/>
<key id="321" alias="grid_clb_12__7_"/>
<key id="322" alias="cby_12__7_"/>
<key id="323" alias="grid_io_right_13__7_"/>
<key id="324" alias="sb_12__6_"/>
<key id="325" alias="cbx_12__6_"/>
<key id="326" alias="sb_11__6_"/>
<key id="327" alias="cbx_11__6_"/>
<key id="328" alias="sb_10__6_"/>
<key id="329" alias="cbx_10__6_"/>
<key id="330" alias="sb_9__6_"/>
<key id="331" alias="cbx_9__6_"/>
<key id="332" alias="sb_8__6_"/>
<key id="333" alias="cbx_8__6_"/>
<key id="334" alias="sb_7__6_"/>
<key id="335" alias="cbx_7__6_"/>
<key id="336" alias="sb_6__6_"/>
<key id="337" alias="cbx_6__6_"/>
<key id="338" alias="sb_5__6_"/>
<key id="339" alias="cbx_5__6_"/>
<key id="340" alias="sb_4__6_"/>
<key id="341" alias="cbx_4__6_"/>
<key id="342" alias="sb_3__6_"/>
<key id="343" alias="cbx_3__6_"/>
<key id="344" alias="sb_2__6_"/>
<key id="345" alias="cbx_2__6_"/>
<key id="346" alias="sb_1__6_"/>
<key id="347" alias="cbx_1__6_"/>
<key id="348" alias="sb_0__6_"/>
<key id="349" alias="cby_0__6_"/>
<key id="350" alias="grid_io_left_0__6_"/>
<key id="351" alias="grid_clb_1__6_"/>
<key id="352" alias="cby_1__6_"/>
<key id="353" alias="grid_clb_2__6_"/>
<key id="354" alias="cby_2__6_"/>
<key id="355" alias="grid_clb_3__6_"/>
<key id="356" alias="cby_3__6_"/>
<key id="357" alias="grid_clb_4__6_"/>
<key id="358" alias="cby_4__6_"/>
<key id="359" alias="grid_clb_5__6_"/>
<key id="360" alias="cby_5__6_"/>
<key id="361" alias="grid_clb_6__6_"/>
<key id="362" alias="cby_6__6_"/>
<key id="363" alias="grid_clb_7__6_"/>
<key id="364" alias="cby_7__6_"/>
<key id="365" alias="grid_clb_8__6_"/>
<key id="366" alias="cby_8__6_"/>
<key id="367" alias="grid_clb_9__6_"/>
<key id="368" alias="cby_9__6_"/>
<key id="369" alias="grid_clb_10__6_"/>
<key id="370" alias="cby_10__6_"/>
<key id="371" alias="grid_clb_11__6_"/>
<key id="372" alias="cby_11__6_"/>
<key id="373" alias="grid_clb_12__6_"/>
<key id="374" alias="cby_12__6_"/>
<key id="375" alias="grid_io_right_13__6_"/>
<key id="376" alias="sb_12__5_"/>
<key id="377" alias="cbx_12__5_"/>
<key id="378" alias="sb_11__5_"/>
<key id="379" alias="cbx_11__5_"/>
<key id="380" alias="sb_10__5_"/>
<key id="381" alias="cbx_10__5_"/>
<key id="382" alias="sb_9__5_"/>
<key id="383" alias="cbx_9__5_"/>
<key id="384" alias="sb_8__5_"/>
<key id="385" alias="cbx_8__5_"/>
<key id="386" alias="sb_7__5_"/>
<key id="387" alias="cbx_7__5_"/>
<key id="388" alias="sb_6__5_"/>
<key id="389" alias="cbx_6__5_"/>
<key id="390" alias="sb_5__5_"/>
<key id="391" alias="cbx_5__5_"/>
<key id="392" alias="sb_4__5_"/>
<key id="393" alias="cbx_4__5_"/>
<key id="394" alias="sb_3__5_"/>
<key id="395" alias="cbx_3__5_"/>
<key id="396" alias="sb_2__5_"/>
<key id="397" alias="cbx_2__5_"/>
<key id="398" alias="sb_1__5_"/>
<key id="399" alias="cbx_1__5_"/>
<key id="400" alias="sb_0__5_"/>
<key id="401" alias="cby_0__5_"/>
<key id="402" alias="grid_io_left_0__5_"/>
<key id="403" alias="grid_clb_1__5_"/>
<key id="404" alias="cby_1__5_"/>
<key id="405" alias="grid_clb_2__5_"/>
<key id="406" alias="cby_2__5_"/>
<key id="407" alias="grid_clb_3__5_"/>
<key id="408" alias="cby_3__5_"/>
<key id="409" alias="grid_clb_4__5_"/>
<key id="410" alias="cby_4__5_"/>
<key id="411" alias="grid_clb_5__5_"/>
<key id="412" alias="cby_5__5_"/>
<key id="413" alias="grid_clb_6__5_"/>
<key id="414" alias="cby_6__5_"/>
<key id="415" alias="grid_clb_7__5_"/>
<key id="416" alias="cby_7__5_"/>
<key id="417" alias="grid_clb_8__5_"/>
<key id="418" alias="cby_8__5_"/>
<key id="419" alias="grid_clb_9__5_"/>
<key id="420" alias="cby_9__5_"/>
<key id="421" alias="grid_clb_10__5_"/>
<key id="422" alias="cby_10__5_"/>
<key id="423" alias="grid_clb_11__5_"/>
<key id="424" alias="cby_11__5_"/>
<key id="425" alias="grid_clb_12__5_"/>
<key id="426" alias="cby_12__5_"/>
<key id="427" alias="grid_io_right_13__5_"/>
<key id="428" alias="sb_12__4_"/>
<key id="429" alias="cbx_12__4_"/>
<key id="430" alias="sb_11__4_"/>
<key id="431" alias="cbx_11__4_"/>
<key id="432" alias="sb_10__4_"/>
<key id="433" alias="cbx_10__4_"/>
<key id="434" alias="sb_9__4_"/>
<key id="435" alias="cbx_9__4_"/>
<key id="436" alias="sb_8__4_"/>
<key id="437" alias="cbx_8__4_"/>
<key id="438" alias="sb_7__4_"/>
<key id="439" alias="cbx_7__4_"/>
<key id="440" alias="sb_6__4_"/>
<key id="441" alias="cbx_6__4_"/>
<key id="442" alias="sb_5__4_"/>
<key id="443" alias="cbx_5__4_"/>
<key id="444" alias="sb_4__4_"/>
<key id="445" alias="cbx_4__4_"/>
<key id="446" alias="sb_3__4_"/>
<key id="447" alias="cbx_3__4_"/>
<key id="448" alias="sb_2__4_"/>
<key id="449" alias="cbx_2__4_"/>
<key id="450" alias="sb_1__4_"/>
<key id="451" alias="cbx_1__4_"/>
<key id="452" alias="sb_0__4_"/>
<key id="453" alias="cby_0__4_"/>
<key id="454" alias="grid_io_left_0__4_"/>
<key id="455" alias="grid_clb_1__4_"/>
<key id="456" alias="cby_1__4_"/>
<key id="457" alias="grid_clb_2__4_"/>
<key id="458" alias="cby_2__4_"/>
<key id="459" alias="grid_clb_3__4_"/>
<key id="460" alias="cby_3__4_"/>
<key id="461" alias="grid_clb_4__4_"/>
<key id="462" alias="cby_4__4_"/>
<key id="463" alias="grid_clb_5__4_"/>
<key id="464" alias="cby_5__4_"/>
<key id="465" alias="grid_clb_6__4_"/>
<key id="466" alias="cby_6__4_"/>
<key id="467" alias="grid_clb_7__4_"/>
<key id="468" alias="cby_7__4_"/>
<key id="469" alias="grid_clb_8__4_"/>
<key id="470" alias="cby_8__4_"/>
<key id="471" alias="grid_clb_9__4_"/>
<key id="472" alias="cby_9__4_"/>
<key id="473" alias="grid_clb_10__4_"/>
<key id="474" alias="cby_10__4_"/>
<key id="475" alias="grid_clb_11__4_"/>
<key id="476" alias="cby_11__4_"/>
<key id="477" alias="grid_clb_12__4_"/>
<key id="478" alias="cby_12__4_"/>
<key id="479" alias="grid_io_right_13__4_"/>
<key id="480" alias="sb_12__3_"/>
<key id="481" alias="cbx_12__3_"/>
<key id="482" alias="sb_11__3_"/>
<key id="483" alias="cbx_11__3_"/>
<key id="484" alias="sb_10__3_"/>
<key id="485" alias="cbx_10__3_"/>
<key id="486" alias="sb_9__3_"/>
<key id="487" alias="cbx_9__3_"/>
<key id="488" alias="sb_8__3_"/>
<key id="489" alias="cbx_8__3_"/>
<key id="490" alias="sb_7__3_"/>
<key id="491" alias="cbx_7__3_"/>
<key id="492" alias="sb_6__3_"/>
<key id="493" alias="cbx_6__3_"/>
<key id="494" alias="sb_5__3_"/>
<key id="495" alias="cbx_5__3_"/>
<key id="496" alias="sb_4__3_"/>
<key id="497" alias="cbx_4__3_"/>
<key id="498" alias="sb_3__3_"/>
<key id="499" alias="cbx_3__3_"/>
<key id="500" alias="sb_2__3_"/>
<key id="501" alias="cbx_2__3_"/>
<key id="502" alias="sb_1__3_"/>
<key id="503" alias="cbx_1__3_"/>
<key id="504" alias="sb_0__3_"/>
<key id="505" alias="cby_0__3_"/>
<key id="506" alias="grid_io_left_0__3_"/>
<key id="507" alias="grid_clb_1__3_"/>
<key id="508" alias="cby_1__3_"/>
<key id="509" alias="grid_clb_2__3_"/>
<key id="510" alias="cby_2__3_"/>
<key id="511" alias="grid_clb_3__3_"/>
<key id="512" alias="cby_3__3_"/>
<key id="513" alias="grid_clb_4__3_"/>
<key id="514" alias="cby_4__3_"/>
<key id="515" alias="grid_clb_5__3_"/>
<key id="516" alias="cby_5__3_"/>
<key id="517" alias="grid_clb_6__3_"/>
<key id="518" alias="cby_6__3_"/>
<key id="519" alias="grid_clb_7__3_"/>
<key id="520" alias="cby_7__3_"/>
<key id="521" alias="grid_clb_8__3_"/>
<key id="522" alias="cby_8__3_"/>
<key id="523" alias="grid_clb_9__3_"/>
<key id="524" alias="cby_9__3_"/>
<key id="525" alias="grid_clb_10__3_"/>
<key id="526" alias="cby_10__3_"/>
<key id="527" alias="grid_clb_11__3_"/>
<key id="528" alias="cby_11__3_"/>
<key id="529" alias="grid_clb_12__3_"/>
<key id="530" alias="cby_12__3_"/>
<key id="531" alias="grid_io_right_13__3_"/>
<key id="532" alias="sb_12__2_"/>
<key id="533" alias="cbx_12__2_"/>
<key id="534" alias="sb_11__2_"/>
<key id="535" alias="cbx_11__2_"/>
<key id="536" alias="sb_10__2_"/>
<key id="537" alias="cbx_10__2_"/>
<key id="538" alias="sb_9__2_"/>
<key id="539" alias="cbx_9__2_"/>
<key id="540" alias="sb_8__2_"/>
<key id="541" alias="cbx_8__2_"/>
<key id="542" alias="sb_7__2_"/>
<key id="543" alias="cbx_7__2_"/>
<key id="544" alias="sb_6__2_"/>
<key id="545" alias="cbx_6__2_"/>
<key id="546" alias="sb_5__2_"/>
<key id="547" alias="cbx_5__2_"/>
<key id="548" alias="sb_4__2_"/>
<key id="549" alias="cbx_4__2_"/>
<key id="550" alias="sb_3__2_"/>
<key id="551" alias="cbx_3__2_"/>
<key id="552" alias="sb_2__2_"/>
<key id="553" alias="cbx_2__2_"/>
<key id="554" alias="sb_1__2_"/>
<key id="555" alias="cbx_1__2_"/>
<key id="556" alias="sb_0__2_"/>
<key id="557" alias="cby_0__2_"/>
<key id="558" alias="grid_io_left_0__2_"/>
<key id="559" alias="grid_clb_1__2_"/>
<key id="560" alias="cby_1__2_"/>
<key id="561" alias="grid_clb_2__2_"/>
<key id="562" alias="cby_2__2_"/>
<key id="563" alias="grid_clb_3__2_"/>
<key id="564" alias="cby_3__2_"/>
<key id="565" alias="grid_clb_4__2_"/>
<key id="566" alias="cby_4__2_"/>
<key id="567" alias="grid_clb_5__2_"/>
<key id="568" alias="cby_5__2_"/>
<key id="569" alias="grid_clb_6__2_"/>
<key id="570" alias="cby_6__2_"/>
<key id="571" alias="grid_clb_7__2_"/>
<key id="572" alias="cby_7__2_"/>
<key id="573" alias="grid_clb_8__2_"/>
<key id="574" alias="cby_8__2_"/>
<key id="575" alias="grid_clb_9__2_"/>
<key id="576" alias="cby_9__2_"/>
<key id="577" alias="grid_clb_10__2_"/>
<key id="578" alias="cby_10__2_"/>
<key id="579" alias="grid_clb_11__2_"/>
<key id="580" alias="cby_11__2_"/>
<key id="581" alias="grid_clb_12__2_"/>
<key id="582" alias="cby_12__2_"/>
<key id="583" alias="grid_io_right_13__2_"/>
<key id="584" alias="sb_12__1_"/>
<key id="585" alias="cbx_12__1_"/>
<key id="586" alias="sb_11__1_"/>
<key id="587" alias="cbx_11__1_"/>
<key id="588" alias="sb_10__1_"/>
<key id="589" alias="cbx_10__1_"/>
<key id="590" alias="sb_9__1_"/>
<key id="591" alias="cbx_9__1_"/>
<key id="592" alias="sb_8__1_"/>
<key id="593" alias="cbx_8__1_"/>
<key id="594" alias="sb_7__1_"/>
<key id="595" alias="cbx_7__1_"/>
<key id="596" alias="sb_6__1_"/>
<key id="597" alias="cbx_6__1_"/>
<key id="598" alias="sb_5__1_"/>
<key id="599" alias="cbx_5__1_"/>
<key id="600" alias="sb_4__1_"/>
<key id="601" alias="cbx_4__1_"/>
<key id="602" alias="sb_3__1_"/>
<key id="603" alias="cbx_3__1_"/>
<key id="604" alias="sb_2__1_"/>
<key id="605" alias="cbx_2__1_"/>
<key id="606" alias="sb_1__1_"/>
<key id="607" alias="cbx_1__1_"/>
<key id="608" alias="sb_0__1_"/>
<key id="609" alias="cby_0__1_"/>
<key id="610" alias="grid_io_left_0__1_"/>
<key id="611" alias="grid_clb_1__1_"/>
<key id="612" alias="cby_1__1_"/>
<key id="613" alias="grid_clb_2__1_"/>
<key id="614" alias="cby_2__1_"/>
<key id="615" alias="grid_clb_3__1_"/>
<key id="616" alias="cby_3__1_"/>
<key id="617" alias="grid_clb_4__1_"/>
<key id="618" alias="cby_4__1_"/>
<key id="619" alias="grid_clb_5__1_"/>
<key id="620" alias="cby_5__1_"/>
<key id="621" alias="grid_clb_6__1_"/>
<key id="622" alias="cby_6__1_"/>
<key id="623" alias="grid_clb_7__1_"/>
<key id="624" alias="cby_7__1_"/>
<key id="625" alias="grid_clb_8__1_"/>
<key id="626" alias="cby_8__1_"/>
<key id="627" alias="grid_clb_9__1_"/>
<key id="628" alias="cby_9__1_"/>
<key id="629" alias="grid_clb_10__1_"/>
<key id="630" alias="cby_10__1_"/>
<key id="631" alias="grid_clb_11__1_"/>
<key id="632" alias="cby_11__1_"/>
<key id="633" alias="grid_clb_12__1_"/>
<key id="634" alias="cby_12__1_"/>
<key id="635" alias="grid_io_right_13__1_"/>
<key id="636" alias="sb_12__0_"/>
<key id="637" alias="cbx_12__0_"/>
<key id="638" alias="grid_io_bottom_12__0_"/>
<key id="639" alias="sb_11__0_"/>
<key id="640" alias="cbx_11__0_"/>
<key id="641" alias="grid_io_bottom_11__0_"/>
<key id="642" alias="sb_10__0_"/>
<key id="643" alias="cbx_10__0_"/>
<key id="644" alias="grid_io_bottom_10__0_"/>
<key id="645" alias="sb_9__0_"/>
<key id="646" alias="cbx_9__0_"/>
<key id="647" alias="grid_io_bottom_9__0_"/>
<key id="648" alias="sb_8__0_"/>
<key id="649" alias="cbx_8__0_"/>
<key id="650" alias="grid_io_bottom_8__0_"/>
<key id="651" alias="sb_7__0_"/>
<key id="652" alias="cbx_7__0_"/>
<key id="653" alias="grid_io_bottom_7__0_"/>
<key id="654" alias="sb_6__0_"/>
<key id="655" alias="cbx_6__0_"/>
<key id="656" alias="grid_io_bottom_6__0_"/>
<key id="657" alias="sb_5__0_"/>
<key id="658" alias="cbx_5__0_"/>
<key id="659" alias="grid_io_bottom_5__0_"/>
<key id="660" alias="sb_4__0_"/>
<key id="661" alias="cbx_4__0_"/>
<key id="662" alias="grid_io_bottom_4__0_"/>
<key id="663" alias="sb_3__0_"/>
<key id="664" alias="cbx_3__0_"/>
<key id="665" alias="grid_io_bottom_3__0_"/>
<key id="666" alias="sb_2__0_"/>
<key id="667" alias="cbx_2__0_"/>
<key id="668" alias="grid_io_bottom_2__0_"/>
<key id="669" alias="sb_1__0_"/>
<key id="670" alias="cbx_1__0_"/>
<key id="671" alias="grid_io_bottom_1__0_"/>
<key id="672" alias="sb_0__0_"/>
</fabric_key>

255
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_task/arch/openfpga_arch.xml Normal file
View File

@ -0,0 +1,255 @@
<!-- Architecture annotation for OpenFPGA framework
This annotation supports the k4_frac_cc_sky130nm.xml
- General purpose logic block
- K = 6, N = 10, I = 40
- Single mode
- Routing architecture
- L = 4, fc_in = 0.15, fc_out = 0.1
- Skywater 130nm PDK
- circuit models are binded to the opensource skywater
foundry middle-speed (ms) standard cell library
-->
<openfpga_architecture>
<technology_library>
<device_library>
<device_model name="logic" type="transistor">
<lib type="industry" corner="TOP_TT" ref="M" path="${OPENFPGA_PATH}/openfpga_flow/tech/PTM_45nm/45nm.pm"/>
<design vdd="0.9" pn_ratio="2"/>
<pmos name="pch" chan_length="40e-9" min_width="140e-9" variation="logic_transistor_var"/>
<nmos name="nch" chan_length="40e-9" min_width="140e-9" variation="logic_transistor_var"/>
</device_model>
<device_model name="io" type="transistor">
<lib type="academia" ref="M" path="${OPENFPGA_PATH}/openfpga_flow/tech/PTM_45nm/45nm.pm"/>
<design vdd="2.5" pn_ratio="3"/>
<pmos name="pch_25" chan_length="270e-9" min_width="320e-9" variation="io_transistor_var"/>
<nmos name="nch_25" chan_length="270e-9" min_width="320e-9" variation="io_transistor_var"/>
</device_model>
</device_library>
<variation_library>
<variation name="logic_transistor_var" abs_deviation="0.1" num_sigma="3"/>
<variation name="io_transistor_var" abs_deviation="0.1" num_sigma="3"/>
</variation_library>
</technology_library>
<circuit_library>
<circuit_model type="inv_buf" name="sky130_fd_sc_hd__inv_1" prefix="sky130_fd_sc_hd__inv_1" is_default="true" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/inv/sky130_fd_sc_hd__inv_1.v">
<design_technology type="cmos" topology="inverter" size="1"/>
<device_technology device_model_name="logic"/>
<port type="input" prefix="in" lib_name="A" size="1"/>
<port type="output" prefix="out" lib_name="Y" size="1"/>
<delay_matrix type="rise" in_port="in" out_port="out">
10e-12
</delay_matrix>
<delay_matrix type="fall" in_port="in" out_port="out">
10e-12
</delay_matrix>
</circuit_model>
<circuit_model type="inv_buf" name="sky130_fd_sc_hd__buf_2" prefix="sky130_fd_sc_hd__buf_2" is_default="false" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/buf/sky130_fd_sc_hd__buf_2.v">
<design_technology type="cmos" topology="buffer" size="1" num_level="2" f_per_stage="2"/>
<device_technology device_model_name="logic"/>
<port type="input" prefix="in" lib_name="A" size="1"/>
<port type="output" prefix="out" lib_name="X" size="1"/>
<delay_matrix type="rise" in_port="in" out_port="out">
10e-12
</delay_matrix>
<delay_matrix type="fall" in_port="in" out_port="out">
10e-12
</delay_matrix>
</circuit_model>
<circuit_model type="inv_buf" name="sky130_fd_sc_hd__buf_4" prefix="sky130_fd_sc_hd__buf_4" is_default="false" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/buf/sky130_fd_sc_hd__buf_4.v">
<design_technology type="cmos" topology="buffer" size="1" num_level="2" f_per_stage="4"/>
<device_technology device_model_name="logic"/>
<port type="input" prefix="in" lib_name="A" size="1"/>
<port type="output" prefix="out" lib_name="X" size="1"/>
<delay_matrix type="rise" in_port="in" out_port="out">
10e-12
</delay_matrix>
<delay_matrix type="fall" in_port="in" out_port="out">
10e-12
</delay_matrix>
</circuit_model>
<circuit_model type="inv_buf" name="sky130_fd_sc_hd__inv_2" prefix="sky130_fd_sc_hd__inv_2" is_default="false" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/inv/sky130_fd_sc_hd__inv_2.v">
<design_technology type="cmos" topology="buffer" size="1"/>
<device_technology device_model_name="logic"/>
<port type="input" prefix="in" lib_name="A" size="1"/>
<port type="output" prefix="out" lib_name="Y" size="1"/>
<delay_matrix type="rise" in_port="in" out_port="out">
10e-12
</delay_matrix>
<delay_matrix type="fall" in_port="in" out_port="out">
10e-12
</delay_matrix>
</circuit_model>
<circuit_model type="gate" name="sky130_fd_sc_hd__or2_1" prefix="sky130_fd_sc_hd__or2_1" is_default="true" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/or2/sky130_fd_sc_hd__or2_1.v">
<design_technology type="cmos" topology="OR"/>
<device_technology device_model_name="logic"/>
<input_buffer exist="false"/>
<output_buffer exist="false"/>
<port type="input" prefix="a" lib_name="A" size="1"/>
<port type="input" prefix="b" lib_name="B" size="1"/>
<port type="output" prefix="out" lib_name="X" size="1"/>
<delay_matrix type="rise" in_port="a b" out_port="out">
10e-12 5e-12
</delay_matrix>
<delay_matrix type="fall" in_port="a b" out_port="out">
10e-12 5e-12
</delay_matrix>
</circuit_model>
<!-- Define a circuit model for the standard cell MUX2
OpenFPGA requires the following truth table for the MUX2
When the select signal sel is enabled, the first input, i.e., in0
will be propagated to the output, i.e., out
If your standard cell provider does not offer the exact truth table,
you can simply swap the inputs as shown in the example below
-->
<circuit_model type="gate" name="sky130_fd_sc_hd__mux2_1" prefix="sky130_fd_sc_hd__mux2_1" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/mux2/sky130_fd_sc_hd__mux2_1.v">
<design_technology type="cmos" topology="MUX2"/>
<device_technology device_model_name="logic"/>
<input_buffer exist="false"/>
<output_buffer exist="false"/>
<port type="input" prefix="in0" lib_name="A1" size="1"/>
<port type="input" prefix="in1" lib_name="A0" size="1"/>
<port type="input" prefix="sel" lib_name="S" size="1"/>
<port type="output" prefix="out" lib_name="X" size="1"/>
</circuit_model>
<circuit_model type="chan_wire" name="chan_segment" prefix="track_seg" is_default="true">
<design_technology type="cmos"/>
<input_buffer exist="false"/>
<output_buffer exist="false"/>
<port type="input" prefix="in" size="1"/>
<port type="output" prefix="out" size="1"/>
<wire_param model_type="pi" R="101" C="22.5e-15" num_level="1"/>
<!-- model_type could be T, res_val and cap_val DON'T CARE -->
</circuit_model>
<circuit_model type="wire" name="direct_interc" prefix="direct_interc" is_default="true">
<design_technology type="cmos"/>
<input_buffer exist="false"/>
<output_buffer exist="false"/>
<port type="input" prefix="in" size="1"/>
<port type="output" prefix="out" size="1"/>
<wire_param model_type="pi" R="0" C="0" num_level="1"/>
<!-- model_type could be T, res_val cap_val should be defined -->
</circuit_model>
<circuit_model type="mux" name="mux_tree" prefix="mux_tree" is_default="true" dump_structural_verilog="true">
<design_technology type="cmos" structure="tree" add_const_input="true" const_input_val="1"/>
<input_buffer exist="false"/>
<output_buffer exist="false"/>
<pass_gate_logic circuit_model_name="sky130_fd_sc_hd__mux2_1"/>
<port type="input" prefix="in" size="1"/>
<port type="output" prefix="out" size="1"/>
<port type="sram" prefix="sram" size="1"/>
</circuit_model>
<circuit_model type="mux" name="mux_tree_tapbuf" prefix="mux_tree_tapbuf" dump_structural_verilog="true">
<design_technology type="cmos" structure="tree" add_const_input="true" const_input_val="1"/>
<input_buffer exist="false"/>
<output_buffer exist="true" circuit_model_name="sky130_fd_sc_hd__buf_4"/>
<pass_gate_logic circuit_model_name="sky130_fd_sc_hd__mux2_1"/>
<port type="input" prefix="in" size="1"/>
<port type="output" prefix="out" size="1"/>
<port type="sram" prefix="sram" size="1"/>
</circuit_model>
<!--DFF subckt ports should be defined as <D> <Q> <CLK> <RESET> <SET> -->
<circuit_model type="ff" name="sky130_fd_sc_hd__sdfxbp_1" prefix="sky130_fd_sc_hd__sdfxbp_1" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/sdfxbp/sky130_fd_sc_hd__sdfxbp_1.v">
<design_technology type="cmos"/>
<input_buffer exist="true" circuit_model_name="sky130_fd_sc_hd__inv_1"/>
<output_buffer exist="true" circuit_model_name="sky130_fd_sc_hd__inv_1"/>
<port type="input" prefix="D" size="1"/>
<port type="input" prefix="DI" lib_name="SCD" size="1"/>
<port type="input" prefix="Test_en" lib_name="SCE" size="1" is_global="true" default_val="0"/>
<!-- <port type="input" prefix="reset" lib_name="RESET_B" size="1" is_global="true" default_val="1" is_reset="true"/> -->
<port type="output" prefix="Q" size="1"/>
<port type="clock" prefix="clk" lib_name="CLK" size="1" is_global="true" default_val="0" />
</circuit_model>
<circuit_model type="lut" name="frac_lut4" prefix="frac_lut4" dump_structural_verilog="true">
<design_technology type="cmos" fracturable_lut="true"/>
<input_buffer exist="false"/>
<output_buffer exist="true" circuit_model_name="sky130_fd_sc_hd__buf_2"/>
<lut_input_inverter exist="true" circuit_model_name="sky130_fd_sc_hd__inv_1"/>
<lut_input_buffer exist="true" circuit_model_name="sky130_fd_sc_hd__buf_2"/>
<lut_intermediate_buffer exist="true" circuit_model_name="sky130_fd_sc_hd__buf_2" location_map="-1-"/>
<pass_gate_logic circuit_model_name="sky130_fd_sc_hd__mux2_1"/>
<port type="input" prefix="in" size="4" tri_state_map="---1" circuit_model_name="sky130_fd_sc_hd__or2_1"/>
<port type="output" prefix="lut3_out" size="2" lut_frac_level="3" lut_output_mask="0,1"/>
<port type="output" prefix="lut4_out" size="1" lut_output_mask="0"/>
<port type="sram" prefix="sram" size="16"/>
<port type="sram" prefix="mode" size="1" mode_select="true" circuit_model_name="sky130_fd_sc_hd__dfxbp_1" default_val="1"/>
</circuit_model>
<!--Scan-chain DFF subckt ports should be defined as <D> <Q> <Qb> <CLK> <RESET> <SET> -->
<circuit_model type="ccff" name="sky130_fd_sc_hd__dfxbp_1" prefix="sky130_fd_sc_hd__dfxbp_1" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/skywater/libraries/sky130_fd_sc_hd/latest/cells/dfrbp/sky130_fd_sc_hd__dfxbp_1.v">
<design_technology type="cmos"/>
<input_buffer exist="true" circuit_model_name="sky130_fd_sc_hd__inv_1"/>
<output_buffer exist="true" circuit_model_name="sky130_fd_sc_hd__inv_1"/>
<!-- <port type="input" prefix="pReset" lib_name="RESET_B" size="1" is_global="true" default_val="1" is_reset="true" is_prog="true"/> -->
<port type="input" prefix="D" size="1"/>
<port type="output" prefix="Q" size="1"/>
<port type="output" prefix="Q_N" size="1"/>
<port type="clock" prefix="prog_clk" lib_name="CLK" size="1" is_global="true" default_val="0" is_prog="true"/>
</circuit_model>
<circuit_model type="iopad" name="GPIO" prefix="GPIO" spice_netlist="${OPENFPGA_PATH}/openfpga_flow/openfpga_cell_library/spice/gpio.sp" verilog_netlist="${OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_HIER_SKY_PNR/sc_verilog/std_cell_extract.v">
<design_technology type="cmos"/>
<input_buffer exist="true" circuit_model_name="sky130_fd_sc_hd__inv_1"/>
<output_buffer exist="true" circuit_model_name="sky130_fd_sc_hd__inv_1"/>
<port type="inout" prefix="Y" lib_name="Y" size="1" is_global="true" is_io="true" />
<port type="output" prefix="A" lib_name="A" size="1" is_global="true" is_io="true" />
<port type="sram" prefix="en" lib_name="mem_out" size="1" mode_select="true" circuit_model_name="sky130_fd_sc_hd__dfxbp_1" default_val="1"/>
<port type="output" prefix="IE" lib_name="IE" size="1" is_global="true" is_io="true" />
<port type="output" prefix="OE" lib_name="OE" size="1" is_global="true" is_io="true" />
<port type="input" prefix="outpad" lib_name="in" size="1"/>
<port type="output" prefix="inpad" lib_name="out" size="1"/>
</circuit_model>
</circuit_library>
<configuration_protocol>
<organization type="scan_chain" circuit_model_name="sky130_fd_sc_hd__dfxbp_1" num_regions="1"/>
</configuration_protocol>
<connection_block>
<switch name="ipin_cblock" circuit_model_name="mux_tree_tapbuf"/>
</connection_block>
<switch_block>
<switch name="L1_mux" circuit_model_name="mux_tree_tapbuf"/>
<switch name="L2_mux" circuit_model_name="mux_tree_tapbuf"/>
<switch name="L4_mux" circuit_model_name="mux_tree_tapbuf"/>
</switch_block>
<routing_segment>
<segment name="L1" circuit_model_name="chan_segment"/>
<segment name="L2" circuit_model_name="chan_segment"/>
<segment name="L4" circuit_model_name="chan_segment"/>
</routing_segment>
<direct_connection>
<direct name="shift_register" circuit_model_name="direct_interc" type="column" x_dir="positive" y_dir="positive"/>
<direct name="scan_chain" circuit_model_name="direct_interc" type="column" x_dir="positive" y_dir="positive"/>
</direct_connection>
<pb_type_annotations>
<!-- physical pb_type binding in complex block IO -->
<pb_type name="io" physical_mode_name="physical" idle_mode_name="inpad"/>
<pb_type name="io[physical].iopad" circuit_model_name="GPIO" mode_bits="1"/>
<pb_type name="io[inpad].inpad" physical_pb_type_name="io[physical].iopad" mode_bits="1"/>
<pb_type name="io[outpad].outpad" physical_pb_type_name="io[physical].iopad" mode_bits="0"/>
<!-- End physical pb_type binding in complex block IO -->
<!-- physical pb_type binding in complex block CLB -->
<!-- physical mode will be the default mode if not specified -->
<pb_type name="clb">
<!-- Binding interconnect to circuit models as their physical implementation, if not defined, we use the default model -->
<interconnect name="crossbar" circuit_model_name="mux_tree"/>
</pb_type>
<pb_type name="clb.fle" physical_mode_name="physical"/>
<pb_type name="clb.fle[physical].fabric.frac_logic.frac_lut4" circuit_model_name="frac_lut4" mode_bits="0"/>
<pb_type name="clb.fle[physical].fabric.ff" circuit_model_name="sky130_fd_sc_hd__sdfxbp_1"/>
<!-- Binding operating pb_type to physical pb_type -->
<pb_type name="clb.fle[n2_lut3].lut3inter.ble3.lut3" physical_pb_type_name="clb.fle[physical].fabric.frac_logic.frac_lut4" mode_bits="1" physical_pb_type_index_factor="0.5">
<!-- Binding the lut3 to the first 3 inputs of fracturable lut4 -->
<port name="in" physical_mode_port="in[0:2]"/>
<port name="out" physical_mode_port="lut3_out[0:0]" physical_mode_pin_rotate_offset="1"/>
</pb_type>
<pb_type name="clb.fle[n2_lut3].lut3inter.ble3.ff" physical_pb_type_name="clb.fle[physical].fabric.ff"/>
<!-- Binding operating pb_types in mode 'ble4' -->
<pb_type name="clb.fle[n1_lut4].ble4.lut4" physical_pb_type_name="clb.fle[physical].fabric.frac_logic.frac_lut4" mode_bits="0">
<!-- Binding the lut4 to the first 4 inputs of fracturable lut4 -->
<port name="in" physical_mode_port="in[0:3]"/>
<port name="out" physical_mode_port="lut4_out"/>
</pb_type>
<pb_type name="clb.fle[n1_lut4].ble4.ff" physical_pb_type_name="clb.fle[physical].fabric.ff" physical_pb_type_index_factor="2" physical_pb_type_index_offset="0"/>
<!-- Binding operating pb_types in mode 'shift_register' -->
<pb_type name="clb.fle[shift_register].shift_reg.ff" physical_pb_type_name="clb.fle[physical].fabric.ff"/>
<!-- End physical pb_type binding in complex block IO -->
</pb_type_annotations>
</openfpga_architecture>

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<!--
Low-cost homogeneous FPGA Architecture.
- Skywater 130 nm technology
- General purpose logic block:
K = 4, N = 8, fracturable 4 LUTs (can operate as one 4-LUT or two 3-LUTs with all 3 inputs shared)
with optionally registered outputs
- Routing architecture:
- 10% L = 1, fc_in = 0.15, Fc_out = 0.10
- 10% L = 2, fc_in = 0.15, Fc_out = 0.10
- 80% L = 4, fc_in = 0.15, Fc_out = 0.10
- 100 routing tracks per channel
Authors: Xifan Tang
-->
<architecture>
<!--
ODIN II specific config begins
Describes the types of user-specified netlist blocks (in blif, this corresponds to
".model [type_of_block]") that this architecture supports.
Note: Basic LUTs, I/Os, and flip-flops are not included here as there are
already special structures in blif (.names, .input, .output, and .latch)
that describe them.
-->
<models>
<!-- A virtual model for I/O to be used in the physical mode of io block -->
<model name="io">
<input_ports>
<port name="outpad"/>
</input_ports>
<output_ports>
<port name="inpad"/>
</output_ports>
</model>
<!-- A virtual model for I/O to be used in the physical mode of io block -->
<model name="frac_lut4">
<input_ports>
<port name="in"/>
</input_ports>
<output_ports>
<port name="lut3_out"/>
<port name="lut4_out"/>
</output_ports>
</model>
<!-- A virtual model for scan-chain flip-flop to be used in the physical mode of FF -->
<model name="scff">
<input_ports>
<port name="D" clock="clk"/>
<port name="DI" clock="clk"/>
<port name="clk" is_clock="1"/>
</input_ports>
<output_ports>
<port name="Q" clock="clk"/>
</output_ports>
</model>
</models>
<tiles>
<!-- Do NOT add clock pins to I/O here!!! VPR does not build clock network in the way that OpenFPGA can support
If you need to register the I/O, define clocks in the circuit models
These clocks can be handled in back-end
-->
<tile name="io" capacity="1" area="0">
<equivalent_sites>
<site pb_type="io"/>
</equivalent_sites>
<input name="outpad" num_pins="1"/>
<output name="inpad" num_pins="1"/>
<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10"/>
<pinlocations pattern="custom">
<loc side="left">io.outpad io.inpad</loc>
<loc side="top">io.outpad io.inpad</loc>
<loc side="right">io.outpad io.inpad</loc>
<loc side="bottom">io.outpad io.inpad</loc>
</pinlocations>
</tile>
<tile name="clb" area="53894">
<equivalent_sites>
<site pb_type="clb"/>
</equivalent_sites>
<input name="I0" num_pins="4" equivalent="full"/>
<input name="I1" num_pins="4" equivalent="full"/>
<input name="I2" num_pins="4" equivalent="full"/>
<input name="I3" num_pins="4" equivalent="full"/>
<input name="I4" num_pins="4" equivalent="full"/>
<input name="I5" num_pins="4" equivalent="full"/>
<input name="I6" num_pins="4" equivalent="full"/>
<input name="I7" num_pins="4" equivalent="full"/>
<input name="regin" num_pins="1"/>
<input name="scin" num_pins="1"/>
<output name="O" num_pins="16" equivalent="none"/>
<output name="regout" num_pins="1"/>
<output name="scout" num_pins="1"/>
<clock name="clk" num_pins="1"/>
<fc in_type="frac" in_val="0.15" out_type="frac" out_val="0.10">
<fc_override port_name="regin" fc_type="frac" fc_val="0"/>
<fc_override port_name="regout" fc_type="frac" fc_val="0"/>
<fc_override port_name="scin" fc_type="frac" fc_val="0"/>
<fc_override port_name="scout" fc_type="frac" fc_val="0"/>
</fc>
<!--pinlocations pattern="spread"/-->
<pinlocations pattern="custom">
<loc side="left">clb.clk</loc>
<loc side="top">clb.regin clb.scin</loc>
<loc side="right">clb.O[7:0] clb.I0 clb.I1 clb.I2 clb.I3</loc>
<loc side="bottom">clb.regout clb.scout clb.O[15:8] clb.I4 clb.I5 clb.I6 clb.I7</loc>
</pinlocations>
</tile>
</tiles>
<!-- ODIN II specific config ends -->
<!-- Physical descriptions begin -->
<layout tileable="true">
<auto_layout aspect_ratio="2.0">
<!--Perimeter of 'io' blocks with 'EMPTY' blocks at corners-->
<perimeter type="io" priority="100"/>
<corners type="EMPTY" priority="101"/>
<!--Fill with 'clb'-->
<fill type="clb" priority="10"/>
</auto_layout>
<fixed_layout name="12x12" width="14" height="14">
<!--Perimeter of 'io' blocks with 'EMPTY' blocks at corners-->
<perimeter type="io" priority="100"/>
<corners type="EMPTY" priority="101"/>
<!--Fill with 'clb'-->
<fill type="clb" priority="10"/>
</fixed_layout>
<fixed_layout name="4x4" width="6" height="6">
<!--Perimeter of 'io' blocks with 'EMPTY' blocks at corners-->
<perimeter type="io" priority="100"/>
<corners type="EMPTY" priority="101"/>
<!--Fill with 'clb'-->
<fill type="clb" priority="10"/>
</fixed_layout>
<fixed_layout name="20x10" width="22" height="12">
<!--Perimeter of 'io' blocks with 'EMPTY' blocks at corners-->
<perimeter type="io" priority="100"/>
<corners type="EMPTY" priority="101"/>
<!--Fill with 'clb'-->
<fill type="clb" priority="10"/>
</fixed_layout>
</layout>
<device>
<!-- VB & JL: Using Ian Kuon's transistor sizing and drive strength data for routing, at 40 nm. Ian used BPTM
models. We are modifying the delay values however, to include metal C and R, which allows more architecture
experimentation. We are also modifying the relative resistance of PMOS to be 1.8x that of NMOS
(vs. Ian's 3x) as 1.8x lines up with Jeff G's data from a 45 nm process (and is more typical of
45 nm in general). I'm upping the Rmin_nmos from Ian's just over 6k to nearly 9k, and dropping
RminW_pmos from 18k to 16k to hit this 1.8x ratio, while keeping the delays of buffers approximately
lined up with Stratix IV.
We are using Jeff G.'s capacitance data for 45 nm (in tech/ptm_45nm).
Jeff's tables list C in for transistors with widths in multiples of the minimum feature size (45 nm).
The minimum contactable transistor is 2.5 * 45 nm, so I need to multiply drive strength sizes in this file
by 2.5x when looking up in Jeff's tables.
The delay values are lined up with Stratix IV, which has an architecture similar to this
proposed FPGA, and which is also 40 nm
C_ipin_cblock: input capacitance of a track buffer, which VPR assumes is a single-stage
4x minimum drive strength buffer. -->
<sizing R_minW_nmos="8926" R_minW_pmos="16067"/>
<!-- The grid_logic_tile_area below will be used for all blocks that do not explicitly set their own (non-routing)
area; set to 0 since we explicitly set the area of all blocks currently in this architecture file.
-->
<area grid_logic_tile_area="0"/>
<chan_width_distr>
<x distr="uniform" peak="1.000000"/>
<y distr="uniform" peak="1.000000"/>
</chan_width_distr>
<switch_block type="wilton" fs="3" sub_type="subset" sub_fs="3"/>
<connection_block input_switch_name="ipin_cblock"/>
</device>
<switchlist>
<!-- VB: the mux_trans_size and buf_size data below is in minimum width transistor *areas*, assuming the purple
book area formula. This means the mux transistors are about 5x minimum drive strength.
We assume the first stage of the buffer is 3x min drive strength to be reasonable given the large
mux transistors, and this gives a reasonable stage ratio of a bit over 5x to the second stage. We assume
the n and p transistors in the first stage are equal-sized to lower the buffer trip point, since it's fed
by a pass transistor mux. We can then reverse engineer the buffer second stage to hit the specified
buf_size (really buffer area) - 16.2x minimum drive nmos and 1.8*16.2 = 29.2x minimum drive.
I then took the data from Jeff G.'s PTM modeling of 45 nm to get the Cin (gate of first stage) and Cout
(diff of second stage) listed below. Jeff's models are in tech/ptm_45nm, and are in min feature multiples.
The minimum contactable transistor is 2.5 * 45 nm, so I need to multiply the drive strength sizes above by
2.5x when looking up in Jeff's tables.
Finally, we choose a switch delay (58 ps) that leads to length 4 wires having a delay equal to that of SIV of 126 ps.
This also leads to the switch being 46% of the total wire delay, which is reasonable. -->
<switch type="mux" name="L1_mux" R="551" Cin=".77e-15" Cout="4e-15" Tdel="58e-12" mux_trans_size="2.630740" buf_size="27.645901"/>
<switch type="mux" name="L2_mux" R="551" Cin=".77e-15" Cout="4e-15" Tdel="58e-12" mux_trans_size="2.630740" buf_size="27.645901"/>
<switch type="mux" name="L4_mux" R="551" Cin=".77e-15" Cout="4e-15" Tdel="58e-12" mux_trans_size="2.630740" buf_size="27.645901"/>
<!--switch ipin_cblock resistance set to yeild for 4x minimum drive strength buffer-->
<switch type="mux" name="ipin_cblock" R="2231.5" Cout="0." Cin="1.47e-15" Tdel="7.247000e-11" mux_trans_size="1.222260" buf_size="auto"/>
</switchlist>
<segmentlist>
<!--- VB & JL: using ITRS metal stack data, 96 nm half pitch wires, which are intermediate metal width/space.
With the 96 nm half pitch, such wires would take 60 um of height, vs. a 90 nm high (approximated as square) Stratix IV tile so this seems
reasonable. Using a tile length of 90 nm, corresponding to the length of a Stratix IV tile if it were square. -->
<!-- GIVE a specific name for the segment! OpenFPGA appreciate that! -->
<segment name="L1" freq="0.10" length="1" type="unidir" Rmetal="101" Cmetal="22.5e-15">
<mux name="L1_mux"/>
<sb type="pattern">1 1</sb>
<cb type="pattern">1</cb>
</segment>
<segment name="L2" freq="0.10" length="2" type="unidir" Rmetal="101" Cmetal="22.5e-15">
<mux name="L2_mux"/>
<sb type="pattern">1 1 1</sb>
<cb type="pattern">1 1</cb>
</segment>
<segment name="L4" freq="0.80" length="4" type="unidir" Rmetal="101" Cmetal="22.5e-15">
<mux name="L4_mux"/>
<sb type="pattern">1 1 1 1 1</sb>
<cb type="pattern">1 1 1 1</cb>
</segment>
</segmentlist>
<directlist>
<direct name="shift_register" from_pin="clb.regout" to_pin="clb.regin" x_offset="0" y_offset="-1" z_offset="0"/>
<direct name="scan_chain" from_pin="clb.scout" to_pin="clb.scin" x_offset="0" y_offset="-1" z_offset="0"/>
</directlist>
<complexblocklist>
<!-- Define I/O pads begin -->
<!-- Capacity is a unique property of I/Os, it is the maximum number of I/Os that can be placed at the same (X,Y) location on the FPGA -->
<!-- Not sure of the area of an I/O (varies widely), and it's not relevant to the design of the FPGA core, so we're setting it to 0. -->
<pb_type name="io">
<input name="outpad" num_pins="1"/>
<output name="inpad" num_pins="1"/>
<!-- Do NOT add clock pins to I/O here!!! VPR does not build clock network in the way that OpenFPGA can support
If you need to register the I/O, define clocks in the circuit models
These clocks can be handled in back-end
-->
<!-- A mode denotes the physical implementation of an I/O
This mode will be not packable but is mainly used for fabric verilog generation
-->
<mode name="physical" disabled_in_pack="true">
<pb_type name="iopad" blif_model=".subckt io" num_pb="1">
<input name="outpad" num_pins="1"/>
<output name="inpad" num_pins="1"/>
</pb_type>
<interconnect>
<direct name="outpad" input="io.outpad" output="iopad.outpad">
<delay_constant max="1.394e-11" in_port="io.outpad" out_port="iopad.outpad"/>
</direct>
<direct name="inpad" input="iopad.inpad" output="io.inpad">
<delay_constant max="4.243e-11" in_port="iopad.inpad" out_port="io.inpad"/>
</direct>
</interconnect>
</mode>
<!-- IOs can operate as either inputs or outputs.
Delays below come from Ian Kuon. They are small, so they should be interpreted as
the delays to and from registers in the I/O (and generally I/Os are registered
today and that is when you timing analyze them.
-->
<mode name="inpad">
<pb_type name="inpad" blif_model=".input" num_pb="1">
<output name="inpad" num_pins="1"/>
</pb_type>
<interconnect>
<direct name="inpad" input="inpad.inpad" output="io.inpad">
<delay_constant max="4.243e-11" in_port="inpad.inpad" out_port="io.inpad"/>
</direct>
</interconnect>
</mode>
<mode name="outpad">
<pb_type name="outpad" blif_model=".output" num_pb="1">
<input name="outpad" num_pins="1"/>
</pb_type>
<interconnect>
<direct name="outpad" input="io.outpad" output="outpad.outpad">
<delay_constant max="1.394e-11" in_port="io.outpad" out_port="outpad.outpad"/>
</direct>
</interconnect>
</mode>
<!-- Every input pin is driven by 15% of the tracks in a channel, every output pin is driven by 10% of the tracks in a channel -->
<!-- IOs go on the periphery of the FPGA, for consistency,
make it physically equivalent on all sides so that only one definition of I/Os is needed.
If I do not make a physically equivalent definition, then I need to define 4 different I/Os, one for each side of the FPGA
-->
<!-- Place I/Os on the sides of the FPGA -->
<power method="ignore"/>
</pb_type>
<!-- Define I/O pads ends -->
<!-- Define general purpose logic block (CLB) begin -->
<!--- Area calculation: Total Stratix IV tile area is about 8100 um^2, and a minimum width transistor
area is 60 L^2 yields a tile area of 84375 MWTAs.
Routing at W=300 is 30481 MWTAs, leaving us with a total of 53000 MWTAs for logic block area
This means that only 37% of our area is in the general routing, and 63% is inside the logic
block. Note that the crossbar / local interconnect is considered part of the logic block
area in this analysis. That is a lower proportion of of routing area than most academics
assume, but note that the total routing area really includes the crossbar, which would push
routing area up significantly, we estimate into the ~70% range.
-->
<pb_type name="clb">
<input name="I0" num_pins="4" equivalent="full"/>
<input name="I1" num_pins="4" equivalent="full"/>
<input name="I2" num_pins="4" equivalent="full"/>
<input name="I3" num_pins="4" equivalent="full"/>
<input name="I4" num_pins="4" equivalent="full"/>
<input name="I5" num_pins="4" equivalent="full"/>
<input name="I6" num_pins="4" equivalent="full"/>
<input name="I7" num_pins="4" equivalent="full"/>
<input name="regin" num_pins="1"/>
<input name="scin" num_pins="1"/>
<output name="O" num_pins="16" equivalent="none"/>
<output name="regout" num_pins="1"/>
<output name="scout" num_pins="1"/>
<clock name="clk" num_pins="1"/>
<!-- Describe fracturable logic element.
Each fracturable logic element has a 6-LUT that can alternatively operate as two 5-LUTs with shared inputs.
The outputs of the fracturable logic element can be optionally registered
-->
<pb_type name="fle" num_pb="8">
<input name="in" num_pins="4"/>
<input name="regin" num_pins="1"/>
<input name="scin" num_pins="1"/>
<output name="out" num_pins="2"/>
<output name="regout" num_pins="1"/>
<output name="scout" num_pins="1"/>
<clock name="clk" num_pins="1"/>
<!-- Physical mode definition begin (physical implementation of the fle) -->
<mode name="physical" disabled_in_pack="true">
<pb_type name="fabric" num_pb="1">
<input name="in" num_pins="4"/>
<input name="regin" num_pins="1"/>
<input name="scin" num_pins="1"/>
<output name="out" num_pins="2"/>
<output name="regout" num_pins="1"/>
<output name="scout" num_pins="1"/>
<clock name="clk" num_pins="1"/>
<pb_type name="frac_logic" num_pb="1">
<input name="in" num_pins="4"/>
<output name="out" num_pins="2"/>
<!-- Define LUT -->
<pb_type name="frac_lut4" blif_model=".subckt frac_lut4" num_pb="1">
<input name="in" num_pins="4"/>
<output name="lut3_out" num_pins="2"/>
<output name="lut4_out" num_pins="1"/>
</pb_type>
<interconnect>
<direct name="direct1" input="frac_logic.in" output="frac_lut4.in"/>
<direct name="direct2" input="frac_lut4.lut3_out[1]" output="frac_logic.out[1]"/>
<!-- Xifan Tang: I use out[0] because the output of lut6 in lut6 mode is wired to the out[0] -->
<mux name="mux1" input="frac_lut4.lut4_out frac_lut4.lut3_out[0]" output="frac_logic.out[0]"/>
</interconnect>
</pb_type>
<!-- Define flip-flop with scan-chain capability, DI is the scan-chain data input -->
<pb_type name="ff" blif_model=".subckt scff" num_pb="2">
<input name="D" num_pins="1"/>
<input name="DI" num_pins="1"/>
<output name="Q" num_pins="1"/>
<clock name="clk" num_pins="1"/>
<T_setup value="66e-12" port="ff.D" clock="clk"/>
<T_setup value="66e-12" port="ff.DI" clock="clk"/>
<T_clock_to_Q max="124e-12" port="ff.Q" clock="clk"/>
</pb_type>
<interconnect>
<direct name="direct1" input="fabric.in" output="frac_logic.in"/>
<direct name="direct2" input="fabric.scin" output="ff[0].DI"/>
<direct name="direct3" input="ff[0].Q" output="ff[1].DI"/>
<direct name="direct4" input="ff[1].Q" output="fabric.scout"/>
<direct name="direct5" input="ff[1].Q" output="fabric.regout"/>
<direct name="direct6" input="frac_logic.out[1:1]" output="ff[1:1].D"/>
<complete name="complete1" input="fabric.clk" output="ff[1:0].clk"/>
<mux name="mux1" input="frac_logic.out[0:0] fabric.regin" output="ff[0:0].D">
<delay_constant max="25e-12" in_port="frac_logic.out[0:0]" out_port="ff[0:0].D"/>
<delay_constant max="45e-12" in_port="fabric.regin" out_port="ff[0:0].D"/>
</mux>
<mux name="mux2" input="ff[0].Q frac_logic.out[0]" output="fabric.out[0]">
<!-- LUT to output is faster than FF to output on a Stratix IV -->
<delay_constant max="25e-12" in_port="frac_logic.out[0]" out_port="fabric.out[0]"/>
<delay_constant max="45e-12" in_port="ff[0].Q" out_port="fabric.out[0]"/>
</mux>
<mux name="mux3" input="ff[1].Q frac_logic.out[1]" output="fabric.out[1]">
<!-- LUT to output is faster than FF to output on a Stratix IV -->
<delay_constant max="25e-12" in_port="frac_logic.out[1]" out_port="fabric.out[1]"/>
<delay_constant max="45e-12" in_port="ff[1].Q" out_port="fabric.out[1]"/>
</mux>
</interconnect>
</pb_type>
<interconnect>
<direct name="direct1" input="fle.in" output="fabric.in"/>
<direct name="direct3" input="fle.regin" output="fabric.regin"/>
<direct name="direct4" input="fle.scin" output="fabric.scin"/>
<direct name="direct5" input="fabric.out" output="fle.out"/>
<direct name="direct7" input="fabric.regout" output="fle.regout"/>
<direct name="direct8" input="fabric.scout" output="fle.scout"/>
<direct name="direct9" input="fle.clk" output="fabric.clk"/>
</interconnect>
</mode>
<!-- Physical mode definition end (physical implementation of the fle) -->
<!-- Dual 3-LUT mode definition begin -->
<mode name="n2_lut3">
<pb_type name="lut3inter" num_pb="1">
<input name="in" num_pins="3"/>
<output name="out" num_pins="2"/>
<clock name="clk" num_pins="1"/>
<pb_type name="ble3" num_pb="2">
<input name="in" num_pins="3"/>
<output name="out" num_pins="1"/>
<clock name="clk" num_pins="1"/>
<!-- Define the LUT -->
<pb_type name="lut3" blif_model=".names" num_pb="1" class="lut">
<input name="in" num_pins="3" port_class="lut_in"/>
<output name="out" num_pins="1" port_class="lut_out"/>
<!-- LUT timing using delay matrix -->
<!-- These are the physical delay inputs on a Stratix IV LUT but because VPR cannot do LUT rebalancing,
we instead take the average of these numbers to get more stable results
82e-12
173e-12
261e-12
263e-12
398e-12
-->
<delay_matrix type="max" in_port="lut3.in" out_port="lut3.out">
235e-12
235e-12
235e-12
</delay_matrix>
</pb_type>
<!-- Define the flip-flop -->
<pb_type name="ff" blif_model=".latch" num_pb="1" class="flipflop">
<input name="D" num_pins="1" port_class="D"/>
<output name="Q" num_pins="1" port_class="Q"/>
<clock name="clk" num_pins="1" port_class="clock"/>
<T_setup value="66e-12" port="ff.D" clock="clk"/>
<T_clock_to_Q max="124e-12" port="ff.Q" clock="clk"/>
</pb_type>
<interconnect>
<direct name="direct1" input="ble3.in[2:0]" output="lut3[0:0].in[2:0]"/>
<direct name="direct2" input="lut3[0:0].out" output="ff[0:0].D">
<!-- Advanced user option that tells CAD tool to find LUT+FF pairs in netlist -->
<pack_pattern name="ble3" in_port="lut3[0:0].out" out_port="ff[0:0].D"/>
</direct>
<direct name="direct3" input="ble3.clk" output="ff[0:0].clk"/>
<mux name="mux1" input="ff[0:0].Q lut3.out[0:0]" output="ble3.out[0:0]">
<!-- LUT to output is faster than FF to output on a Stratix IV -->
<delay_constant max="25e-12" in_port="lut3.out[0:0]" out_port="ble3.out[0:0]"/>
<delay_constant max="45e-12" in_port="ff[0:0].Q" out_port="ble3.out[0:0]"/>
</mux>
</interconnect>
</pb_type>
<interconnect>
<direct name="direct1" input="lut3inter.in" output="ble3[0:0].in"/>
<direct name="direct2" input="lut3inter.in" output="ble3[1:1].in"/>
<direct name="direct3" input="ble3[1:0].out" output="lut3inter.out"/>
<complete name="complete1" input="lut3inter.clk" output="ble3[1:0].clk"/>
</interconnect>
</pb_type>
<interconnect>
<direct name="direct1" input="fle.in[2:0]" output="lut3inter.in"/>
<direct name="direct2" input="lut3inter.out" output="fle.out"/>
<direct name="direct3" input="fle.clk" output="lut3inter.clk"/>
</interconnect>
</mode>
<!-- Dual 3-LUT mode definition end -->
<!-- 4-LUT mode definition begin -->
<mode name="n1_lut4">
<!-- Define 4-LUT mode -->
<pb_type name="ble4" num_pb="1">
<input name="in" num_pins="4"/>
<output name="out" num_pins="1"/>
<clock name="clk" num_pins="1"/>
<!-- Define LUT -->
<pb_type name="lut4" blif_model=".names" num_pb="1" class="lut">
<input name="in" num_pins="4" port_class="lut_in"/>
<output name="out" num_pins="1" port_class="lut_out"/>
<!-- LUT timing using delay matrix -->
<!-- These are the physical delay inputs on a Stratix IV LUT but because VPR cannot do LUT rebalancing,
we instead take the average of these numbers to get more stable results
82e-12
173e-12
261e-12
263e-12
398e-12
397e-12
-->
<delay_matrix type="max" in_port="lut4.in" out_port="lut4.out">
261e-12
261e-12
261e-12
261e-12
</delay_matrix>
</pb_type>
<!-- Define flip-flop -->
<pb_type name="ff" blif_model=".latch" num_pb="1" class="flipflop">
<input name="D" num_pins="1" port_class="D"/>
<output name="Q" num_pins="1" port_class="Q"/>
<clock name="clk" num_pins="1" port_class="clock"/>
<T_setup value="66e-12" port="ff.D" clock="clk"/>
<T_clock_to_Q max="124e-12" port="ff.Q" clock="clk"/>
</pb_type>
<interconnect>
<direct name="direct1" input="ble4.in" output="lut4[0:0].in"/>
<direct name="direct2" input="lut4.out" output="ff.D">
<!-- Advanced user option that tells CAD tool to find LUT+FF pairs in netlist -->
<pack_pattern name="ble4" in_port="lut4.out" out_port="ff.D"/>
</direct>
<direct name="direct3" input="ble4.clk" output="ff.clk"/>
<mux name="mux1" input="ff.Q lut4.out" output="ble4.out">
<!-- LUT to output is faster than FF to output on a Stratix IV -->
<delay_constant max="25e-12" in_port="lut4.out" out_port="ble4.out"/>
<delay_constant max="45e-12" in_port="ff.Q" out_port="ble4.out"/>
</mux>
</interconnect>
</pb_type>
<interconnect>
<direct name="direct1" input="fle.in" output="ble4.in"/>
<direct name="direct2" input="ble4.out" output="fle.out[0:0]"/>
<direct name="direct3" input="fle.clk" output="ble4.clk"/>
</interconnect>
</mode>
<!-- 4-LUT mode definition end -->
<!-- Define shift register begin -->
<mode name="shift_register">
<pb_type name="shift_reg" num_pb="1">
<input name="regin" num_pins="1"/>
<output name="regout" num_pins="1"/>
<clock name="clk" num_pins="1"/>
<pb_type name="ff" blif_model=".latch" num_pb="2" class="flipflop">
<input name="D" num_pins="1" port_class="D"/>
<output name="Q" num_pins="1" port_class="Q"/>
<clock name="clk" num_pins="1" port_class="clock"/>
<T_setup value="66e-12" port="ff.D" clock="clk"/>
<T_clock_to_Q max="124e-12" port="ff.Q" clock="clk"/>
</pb_type>
<interconnect>
<direct name="direct1" input="shift_reg.regin" output="ff[0].D"/>
<direct name="direct2" input="ff[0].Q" output="ff[1].D"/>
<direct name="direct3" input="ff[1].Q" output="shift_reg.regout"/>
<complete name="complete1" input="shift_reg.clk" output="ff.clk"/>
</interconnect>
</pb_type>
<interconnect>
<direct name="direct1" input="fle.regin" output="shift_reg.regin"/>
<direct name="direct2" input="shift_reg.regout" output="fle.regout"/>
<direct name="direct3" input="fle.clk" output="shift_reg.clk"/>
</interconnect>
</mode>
<!-- Define shift register end -->
</pb_type>
<interconnect>
<!-- We use a full crossbar to get logical equivalence at inputs of CLB
The delays below come from Stratix IV. the delay through a connection block
input mux + the crossbar in Stratix IV is 167 ps. We already have a 72 ps
delay on the connection block input mux (modeled by Ian Kuon), so the remaining
delay within the crossbar is 95 ps.
The delays of cluster feedbacks in Stratix IV is 100 ps, when driven by a LUT.
Since all our outputs LUT outputs go to a BLE output, and have a delay of
25 ps to do so, we subtract 25 ps from the 100 ps delay of a feedback
to get the part that should be marked on the crossbar. -->
<direct name="direct_fle0" input="clb.I0" output="fle[0:0].in">
</direct>
<direct name="direct_fle1" input="clb.I1" output="fle[1:1].in">
</direct>
<direct name="direct_fle2" input="clb.I2" output="fle[2:2].in">
</direct>
<direct name="direct_fle3" input="clb.I3" output="fle[3:3].in">
</direct>
<direct name="direct_fle4" input="clb.I4" output="fle[4:4].in">
</direct>
<direct name="direct_fle5" input="clb.I5" output="fle[5:5].in">
</direct>
<direct name="direct_fle6" input="clb.I6" output="fle[6:6].in">
</direct>
<direct name="direct_fle7" input="clb.I7" output="fle[7:7].in">
</direct>
<complete name="clks" input="clb.clk" output="fle[7:0].clk">
</complete>
<!-- This way of specifying direct connection to clb outputs is important because this architecture uses automatic spreading of opins.
By grouping to output pins in this fashion, if a logic block is completely filled by 6-LUTs,
then the outputs those 6-LUTs take get evenly distributed across all four sides of the CLB instead of clumped on two sides (which is what happens with a more
naive specification).
-->
<direct name="clbouts1" input="fle[3:0].out[0:1]" output="clb.O[7:0]"/>
<direct name="clbouts2" input="fle[7:4].out[0:1]" output="clb.O[15:8]"/>
<!-- Shift register chain links -->
<direct name="shift_register_in" input="clb.regin" output="fle[0:0].regin">
<!-- Put all inter-block carry chain delay on this one edge -->
<delay_constant max="0.16e-9" in_port="clb.regin" out_port="fle[0:0].regin"/>
<!--pack_pattern name="chain" in_port="clb.regin" out_port="fle[0:0].regin"/-->
</direct>
<direct name="shift_register_out" input="fle[7:7].regout" output="clb.regout">
<!--pack_pattern name="chain" in_port="fle[7:7].regout" out_port="clb.regout"/-->
</direct>
<direct name="shift_register_link" input="fle[6:0].regout" output="fle[7:1].regin">
<!--pack_pattern name="chain" in_port="fle[6:0].regout" out_port="fle[7:1].regin"/-->
</direct>
<!-- Scan chain links -->
<direct name="scan_chain_in" input="clb.scin" output="fle[0:0].scin">
<!-- Put all inter-block carry chain delay on this one edge -->
<delay_constant max="0.16e-9" in_port="clb.scin" out_port="fle[0:0].scin"/>
</direct>
<direct name="scan_chain_out" input="fle[7:7].scout" output="clb.scout">
</direct>
<direct name="scan_chain_link" input="fle[6:0].scout" output="fle[7:1].scin">
</direct>
</interconnect>
<!-- Every input pin is driven by 15% of the tracks in a channel, every output pin is driven by 10% of the tracks in a channel -->
<!-- Place this general purpose logic block in any unspecified column -->
</pb_type>
<!-- Define general purpose logic block (CLB) ends -->
</complexblocklist>
</architecture>

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# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
# Configuration file for running experiments
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
# timeout_each_job : FPGA Task script splits fpga flow into multiple jobs
# Each job execute fpga_flow script on combination of architecture & benchmark
# timeout_each_job is timeout for each job
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
[GENERAL]
run_engine=openfpga_shell
power_analysis = false
spice_output=false
verilog_output=true
timeout_each_job = 20*60
fpga_flow=vpr_blif
[OpenFPGA_SHELL]
openfpga_shell_template=${PATH:TASK_DIR}/generate_fabric.openfpga
openfpga_arch_file=${PATH:TASK_DIR}/arch/openfpga_arch.xml
openfpga_sim_setting_file=${PATH:OPENFPGA_PATH}/openfpga_flow/openfpga_simulation_settings/auto_sim_openfpga.xml
external_fabric_key_file=${PATH:TASK_DIR}/arch/fabric_key.xml
openfpga_vpr_device_layout=12x12
openfpga_vpr_route_chan_width=40
[ARCHITECTURES]
arch0=${PATH:TASK_DIR}/arch/vpr_arch.xml
[BENCHMARKS]
bench0=${PATH:TASK_DIR}/micro_benchmark/and.blif
[SYNTHESIS_PARAM]
bench0_top = top
bench0_act = ${PATH:TASK_DIR}/micro_benchmark/and.act
bench0_verilog = ${PATH:TASK_DIR}/micro_benchmark/and.v
[SCRIPT_PARAM_MIN_ROUTE_CHAN_WIDTH]
vpr_fpga_verilog_formal_verification_top_netlist=

37
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_task/config/task_generation.conf Normal file
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# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
# Configuration file for running experiments
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
# timeout_each_job : FPGA Task script splits fpga flow into multiple jobs
# Each job execute fpga_flow script on combination of architecture & benchmark
# timeout_each_job is timeout for each job
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
[GENERAL]
run_engine=openfpga_shell
power_analysis = false
spice_output=false
verilog_output=true
timeout_each_job = 20*60
fpga_flow=vpr_blif
[OpenFPGA_SHELL]
openfpga_shell_template=${PATH:TASK_DIR}/generate_fabric.openfpga
openfpga_arch_file=${PATH:TASK_DIR}/arch/openfpga_arch.xml
openfpga_sim_setting_file=${PATH:OPENFPGA_PATH}/openfpga_flow/openfpga_simulation_settings/auto_sim_openfpga.xml
external_fabric_key_file=${PATH:TASK_DIR}/arch/fabric_key.xml
openfpga_vpr_device_layout=12x12
openfpga_vpr_route_chan_width=40
[ARCHITECTURES]
arch0=${PATH:TASK_DIR}/arch/vpr_arch.xml
[BENCHMARKS]
bench0=${PATH:TASK_DIR}/micro_benchmark/and.blif
[SYNTHESIS_PARAM]
bench0_top = top
bench0_act = ${PATH:TASK_DIR}/micro_benchmark/and.act
bench0_verilog = ${PATH:TASK_DIR}/micro_benchmark/and.v
[SCRIPT_PARAM_MIN_ROUTE_CHAN_WIDTH]
vpr_fpga_verilog_formal_verification_top_netlist=

33
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_task/config/task_simulation.conf Normal file
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@ -0,0 +1,33 @@
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
# Configuration file for running experiments
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
# timeout_each_job : FPGA Task script splits fpga flow into multiple jobs
# Each job execute fpga_flow script on combination of architecture & benchmark
# timeout_each_job is timeout for each job
# = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
[GENERAL]
run_engine=openfpga_shell
power_analysis = false
spice_output=false
verilog_output=true
timeout_each_job = 20*60
fpga_flow=vpr_blif
openfpga_shell_template=${PATH:TASK_DIR}/openfpga_flow/tasks/FPGA22_MODULAR_task/generate_testbench.openfpga
openfpga_arch_file=${PATH:OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_MODULAR_task/arch/openfpga_arch.xml
openfpga_sim_setting_file=${PATH:OPENFPGA_PATH}/openfpga_flow/openfpga_simulation_settings/auto_sim_openfpga.xml
external_fabric_key_file=${PATH:OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_MODULAR_task/arch/fabric_key.xml
[ARCHITECTURES]
arch0=${PATH:OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_MODULAR_task/arch/vpr_arch.xml
[BENCHMARKS]
bench0=${PATH:OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_MODULAR_task/micro_benchmark/and.blif
[SYNTHESIS_PARAM]
bench0_top = top
bench0_act = ${PATH:OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_MODULAR_task/micro_benchmark/and.act
bench0_verilog = ${PATH:OPENFPGA_PATH}/openfpga_flow/tasks/FPGA22_MODULAR_task/micro_benchmark/and.v
[SCRIPT_PARAM_MIN_ROUTE_CHAN_WIDTH]
vpr_fpga_verilog_formal_verification_top_netlist=

71
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_task/expand_sdc.py Normal file
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import yaml
import argparse
import pprint as pp
import glob
import os
def formatter(prog): return argparse.HelpFormatter(prog, max_help_position=60)
parser = argparse.ArgumentParser(formatter_class=formatter)
# Mandatory arguments
parser.add_argument('--hierfile', type=str, default="design.hier")
parser.add_argument('--shellscript_name', type=str, default="sdc_expand.sh")
parser.add_argument('--in_dir', type=str, default="./sdc/")
parser.add_argument('--out_dir', type=str, default="./sdc/expanded")
parser.add_argument('--extract_format', type=str, default="tcl")
parser.add_argument('--compress', type=bool, default=False)
args = parser.parse_args()
print(f"In_dir = {args.in_dir}")
print(f"Out_dir = {args.out_dir}")
if args.extract_format == "sdc":
with open(args.hierfile) as f:
with open(args.shellscript_name, 'w') as fp:
designHier = yaml.load(f, Loader=yaml.FullLoader)
for eachHier in designHier:
for eachMod, instanceList in eachHier.items():
fp.write(f"mkdir -p {eachMod}\n")
for eachInst in instanceList:
eachInst = eachInst.replace("/", "_")
st = (f"sed \"s/{eachMod}/{eachInst}/g\" {args.in_dir}/{eachMod}.sdc " +
f"> {args.out_dir}/{eachInst}/{eachInst}.sdc\n")
fp.write(st)
if args.compress:
fp.write(f"tar -zcvf {args.out_dir}/{eachMod}.tar.gz "
f"{args.out_dir}/{eachInst}/")
elif args.extract_format == "tcl":
files = glob.glob(os.path.join(args.in_dir, 'grid*.txt'))
filename = files[0]
print(f"Reading {filename}")
with open(filename) as f:
with open(args.shellscript_name, 'w') as fp:
designHier = yaml.load(f, Loader=yaml.FullLoader)[:5]
for eachModule in designHier:
ForLoopStruct = []
while True:
instList = eachModule[list(eachModule.keys())[0]]
iterAgain = all([isinstance(ele, str) for ele in instList])
if (iterAgain):
# print(list(eachModule.keys())[0])
# print(f">> leaf Instance {instList}")
ForLoopStruct.append({
list(eachModule.keys())[0]:
instList
})
break
else:
ForLoopStruct.append({
list(eachModule.keys())[0]:
[list(ee.keys())[0] for ee in instList]
})
# print(list(eachModule.keys())[0])
# print([list(ee.keys())[0] for ee in instList])
eachModule = instList[0]
del ForLoopStruct[1::2]
print("= = "*10)
print("ForLoop Struct")
pp.pprint(ForLoopStruct)
print("= = "*10)

46
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_task/generate_fabric.openfpga Normal file
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# This script is designed to generate fabric Verilog netlists
# with a fixed device layout
# It will only output netlists to be used by backend tools,
# i.e., Synopsys ICC2, including
# - Verilog netlists
# - fabric hierarchy description for ICC2's hierarchical flow
# - Timing/Design constraints
#
vpr ${VPR_ARCH_FILE} ${VPR_TESTBENCH_BLIF} --clock_modeling route --device ${OPENFPGA_VPR_DEVICE_LAYOUT} --route_chan_width ${OPENFPGA_VPR_ROUTE_CHAN_WIDTH} --absorb_buffer_luts off
# Read OpenFPGA architecture definition
read_openfpga_arch -f ${OPENFPGA_ARCH_FILE}
# Read OpenFPGA simulation settings
read_openfpga_simulation_setting -f ${OPENFPGA_SIM_SETTING_FILE}
# Annotate the OpenFPGA architecture to VPR data base
# to debug use --verbose options
link_openfpga_arch --activity_file ${ACTIVITY_FILE} --sort_gsb_chan_node_in_edges
# Build the module graph
# - Enabled compression on routing architecture modules
# - Enable pin duplication on grid modules
build_fabric --compress_routing --duplicate_grid_pin --load_fabric_key ${EXTERNAL_FABRIC_KEY_FILE}
# Repack the netlist to physical pbs
# This must be done before bitstream generator and testbench generation
# Strongly recommend it is done after all the fix-up have been applied
repack
build_architecture_bitstream --write_file fabric_indepenent_bitstream.xml
build_fabric_bitstream
write_fabric_bitstream --format plain_text --file fabric_bitstream.bit
write_fabric_bitstream --format xml --file fabric_bitstream.xml
# Write the Verilog netlist for FPGA fabric
# - Enable the use of explicit port mapping in Verilog netlist
write_fabric_verilog --file ./SRC --explicit_port_mapping --include_timing --include_signal_init --support_icarus_simulator --verbose
write_verilog_testbench --file ./SRC --reference_benchmark_file_path ${REFERENCE_VERILOG_TESTBENCH} --print_top_testbench --print_preconfig_top_testbench --print_simulation_ini ./SimulationDeck/simulation_deck.ini --explicit_port_mapping
# Finish and exit OpenFPGA
exit
# Note :
# To run verification at the end of the flow maintain source in ./SRC directory

70
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# Run VPR for the 'and' design
#--write_rr_graph example_rr_graph.xml
vpr ${VPR_ARCH_FILE} ${VPR_TESTBENCH_BLIF} --clock_modeling route --route_chan_width 200
# Read OpenFPGA architecture definition
read_openfpga_arch -f ${OPENFPGA_ARCH_FILE}
# Read OpenFPGA simulation settings
read_openfpga_simulation_setting -f ${OPENFPGA_SIM_SETTING_FILE}
# Annotate the OpenFPGA architecture to VPR data base
# to debug use --verbose options
link_openfpga_arch --activity_file ${ACTIVITY_FILE} --sort_gsb_chan_node_in_edges
# Check and correct any naming conflicts in the BLIF netlist
check_netlist_naming_conflict --fix --report ./netlist_renaming.xml
# Apply fix-up to clustering nets based on routing results
pb_pin_fixup --verbose
# Apply fix-up to Look-Up Table truth tables based on packing results
lut_truth_table_fixup
# Build the module graph
# - Enabled compression on routing architecture modules
# - Enable pin duplication on grid modules
build_fabric --compress_routing --duplicate_grid_pin --load_fabric_key ${EXTERNAL_FABRIC_KEY_FILE}
# Write the fabric hierarchy of module graph to a file
# This is used by hierarchical PnR flows
write_fabric_hierarchy --file ./fabric_hierarchy.txt
# Repack the netlist to physical pbs
# This must be done before bitstream generator and testbench generation
# Strongly recommend it is done after all the fix-up have been applied
repack #--verbose
# Build the bitstream
# - Output the fabric-independent bitstream to a file
build_architecture_bitstream --verbose --write_file fabric_indepenent_bitstream.xml
build_fabric_bitstream
# Build fabric-dependent bitstream
build_fabric_bitstream
write_fabric_bitstream --format plain_text --file fabric_bitstream.bit
write_fabric_bitstream --format xml --file fabric_bitstream.xml
# Write the Verilog testbench for FPGA fabric
# - We suggest the use of same output directory as fabric Verilog netlists
# - Must specify the reference benchmark file if you want to output any testbenches
# - Enable top-level testbench which is a full verification including programming circuit and core logic of FPGA
# - Enable pre-configured top-level testbench which is a fast verification skipping programming phase
# - Simulation ini file is optional and is needed only when you need to interface different HDL simulators using openfpga flow-run scripts
write_verilog_testbench --file ./SRC --reference_benchmark_file_path ${REFERENCE_VERILOG_TESTBENCH} --print_top_testbench --print_preconfig_top_testbench --print_simulation_ini ./SimulationDeck/simulation_deck.ini --explicit_port_mapping
# Write the SDC files for PnR backend
# - Turn on every options here
write_pnr_sdc --file ./SDC
# Write SDC to disable timing for configure ports
write_sdc_disable_timing_configure_ports --file ./SDC/disable_configure_ports.sdc
# Write the SDC to run timing analysis for a mapped FPGA fabric
write_analysis_sdc --file ./SDC_analysis
# Finish and exit OpenFPGA
exit
# Note :
# To run verification at the end of the flow maintain source in ./SRC directory

3
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a 0.5 0.5
b 0.5 0.5
c 0.25 0.25

8
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.model top
.inputs a b
.outputs c
.names a b c
11 1
.end

14
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_task/micro_benchmark/and.v Normal file
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`timescale 1ns / 1ps
module top(
a,
b,
c);
input wire a;
input wire b;
output wire c;
assign c = a & b;
endmodule

29
FPGA1212_FC_HD_SKY_PNR/FPGA1212_FC_HD_SKY_task/sc_verilog/std_cell_extract.v Normal file
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`timescale 1ns/1ps
//
//
//
//
//
//
//
//
//
module GPIO (A, IE, OE, Y, in, out, mem_out);
output A;
output IE;
output OE;
output Y;
input in;
output out;
input mem_out;
assign A = in;
assign out = Y;
assign IE = mem_out;
sky130_fd_sc_hd__inv_1 ie_oe_inv (
.A (mem_out),
.Y (OE) );
endmodule

23
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FPGA1212_FC_HD_SKY_PNR
====================
12x12 FPGA designed using hierarchical flow and `SKY130_FD_SC_HD`.
Directory Structure
-------------------
- **FPGA1212_HIER_SKY_task** :- OpenFPGA task directory and all related files
- **FPGA1212_HIER_SKY_Verilog** :- Verilog-netlist used for this design
- **modules** :- Final files of each module (lef,def,spef,v,gds)
- **fpga_core** :- Final files of fpga_core (eFPGA design)
- **fpga_top** :- Reserved for design with GPIOs or caravel
Checks
---------
- .tech file DRC - Clean
- Timing SignOff - Clean
Pending
---------
- DRC SignOff
- LVS SignOff
- PostPnR function simulation

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363
FPGA1212_FC_HD_SKY_PNR/fpga_core/fpga_core_icv_in_design.lef Normal file
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VERSION 5.7 ;
BUSBITCHARS "[]" ;
UNITS
DATABASE MICRONS 1000 ;
END UNITS
MANUFACTURINGGRID 0.005 ;
LAYER nwell
TYPE MASTERSLICE ;
END nwell
LAYER pwell
TYPE MASTERSLICE ;
END pwell
LAYER fieldpoly
TYPE MASTERSLICE ;
END fieldpoly
LAYER li1
TYPE ROUTING ;
DIRECTION VERTICAL ;
PITCH 0.46 ;
WIDTH 0.17 ;
END li1
LAYER mcon
TYPE CUT ;
END mcon
LAYER met1
TYPE ROUTING ;
DIRECTION HORIZONTAL ;
PITCH 0.34 ;
WIDTH 0.14 ;
END met1
LAYER via
TYPE CUT ;
END via
LAYER met2
TYPE ROUTING ;
DIRECTION VERTICAL ;
PITCH 0.46 ;
WIDTH 0.14 ;
END met2
LAYER via2
TYPE CUT ;
END via2
LAYER met3
TYPE ROUTING ;
DIRECTION HORIZONTAL ;
PITCH 0.68 ;
WIDTH 0.3 ;
END met3
LAYER via3
TYPE CUT ;
END via3
LAYER met4
TYPE ROUTING ;
DIRECTION VERTICAL ;
PITCH 0.92 ;
WIDTH 0.3 ;
END met4
LAYER via4
TYPE CUT ;
END via4
LAYER met5
TYPE ROUTING ;
DIRECTION HORIZONTAL ;
PITCH 3.4 ;
WIDTH 1.6 ;
END met5
LAYER diff
TYPE MASTERSLICE ;
END diff
LAYER licon1
TYPE MASTERSLICE ;
END licon1
VIA L1M1_PR
LAYER li1 ;
RECT -0.085 -0.085 0.085 0.085 ;
LAYER mcon ;
RECT -0.085 -0.085 0.085 0.085 ;
LAYER met1 ;
RECT -0.145 -0.115 0.145 0.115 ;
END L1M1_PR
VIA L1M1_PR_R
LAYER li1 ;
RECT -0.085 -0.085 0.085 0.085 ;
LAYER mcon ;
RECT -0.085 -0.085 0.085 0.085 ;
LAYER met1 ;
RECT -0.115 -0.145 0.115 0.145 ;
END L1M1_PR_R
VIA L1M1_PR_M
LAYER li1 ;
RECT -0.085 -0.085 0.085 0.085 ;
LAYER mcon ;
RECT -0.085 -0.085 0.085 0.085 ;
LAYER met1 ;
RECT -0.115 -0.145 0.115 0.145 ;
END L1M1_PR_M
VIA L1M1_PR_MR
LAYER li1 ;
RECT -0.085 -0.085 0.085 0.085 ;
LAYER mcon ;
RECT -0.085 -0.085 0.085 0.085 ;
LAYER met1 ;
RECT -0.145 -0.115 0.145 0.115 ;
END L1M1_PR_MR
VIA L1M1_PR_C
LAYER li1 ;
RECT -0.085 -0.085 0.085 0.085 ;
LAYER mcon ;
RECT -0.085 -0.085 0.085 0.085 ;
LAYER met1 ;
RECT -0.145 -0.145 0.145 0.145 ;
END L1M1_PR_C
VIA M1M2_PR
LAYER met1 ;
RECT -0.16 -0.13 0.16 0.13 ;
LAYER via ;
RECT -0.075 -0.075 0.075 0.075 ;
LAYER met2 ;
RECT -0.13 -0.16 0.13 0.16 ;
END M1M2_PR
VIA M1M2_PR_Enc
LAYER met1 ;
RECT -0.16 -0.13 0.16 0.13 ;
LAYER via ;
RECT -0.075 -0.075 0.075 0.075 ;
LAYER met2 ;
RECT -0.16 -0.13 0.16 0.13 ;
END M1M2_PR_Enc
VIA M1M2_PR_R
LAYER met1 ;
RECT -0.13 -0.16 0.13 0.16 ;
LAYER via ;
RECT -0.075 -0.075 0.075 0.075 ;
LAYER met2 ;
RECT -0.16 -0.13 0.16 0.13 ;
END M1M2_PR_R
VIA M1M2_PR_R_Enc
LAYER met1 ;
RECT -0.13 -0.16 0.13 0.16 ;
LAYER via ;
RECT -0.075 -0.075 0.075 0.075 ;
LAYER met2 ;
RECT -0.13 -0.16 0.13 0.16 ;
END M1M2_PR_R_Enc
VIA M1M2_PR_M
LAYER met1 ;
RECT -0.16 -0.13 0.16 0.13 ;
LAYER via ;
RECT -0.075 -0.075 0.075 0.075 ;
LAYER met2 ;
RECT -0.16 -0.13 0.16 0.13 ;
END M1M2_PR_M
VIA M1M2_PR_M_Enc
LAYER met1 ;
RECT -0.16 -0.13 0.16 0.13 ;
LAYER via ;
RECT -0.075 -0.075 0.075 0.075 ;
LAYER met2 ;
RECT -0.13 -0.16 0.13 0.16 ;
END M1M2_PR_M_Enc
VIA M1M2_PR_MR
LAYER met1 ;
RECT -0.13 -0.16 0.13 0.16 ;
LAYER via ;
RECT -0.075 -0.075 0.075 0.075 ;
LAYER met2 ;
RECT -0.13 -0.16 0.13 0.16 ;
END M1M2_PR_MR
VIA M1M2_PR_MR_Enc
LAYER met1 ;
RECT -0.13 -0.16 0.13 0.16 ;
LAYER via ;
RECT -0.075 -0.075 0.075 0.075 ;
LAYER met2 ;
RECT -0.16 -0.13 0.16 0.13 ;
END M1M2_PR_MR_Enc
VIA M1M2_PR_C
LAYER met1 ;
RECT -0.16 -0.16 0.16 0.16 ;
LAYER via ;
RECT -0.075 -0.075 0.075 0.075 ;
LAYER met2 ;
RECT -0.16 -0.16 0.16 0.16 ;
END M1M2_PR_C
VIA M2M3_PR
LAYER met2 ;
RECT -0.14 -0.185 0.14 0.185 ;
LAYER via2 ;
RECT -0.1 -0.1 0.1 0.1 ;
LAYER met3 ;
RECT -0.165 -0.165 0.165 0.165 ;
END M2M3_PR
VIA M2M3_PR_R
LAYER met2 ;
RECT -0.185 -0.14 0.185 0.14 ;
LAYER via2 ;
RECT -0.1 -0.1 0.1 0.1 ;
LAYER met3 ;
RECT -0.165 -0.165 0.165 0.165 ;
END M2M3_PR_R
VIA M2M3_PR_M
LAYER met2 ;
RECT -0.14 -0.185 0.14 0.185 ;
LAYER via2 ;
RECT -0.1 -0.1 0.1 0.1 ;
LAYER met3 ;
RECT -0.165 -0.165 0.165 0.165 ;
END M2M3_PR_M
VIA M2M3_PR_MR
LAYER met2 ;
RECT -0.185 -0.14 0.185 0.14 ;
LAYER via2 ;
RECT -0.1 -0.1 0.1 0.1 ;
LAYER met3 ;
RECT -0.165 -0.165 0.165 0.165 ;
END M2M3_PR_MR
VIA M2M3_PR_C
LAYER met2 ;
RECT -0.185 -0.185 0.185 0.185 ;
LAYER via2 ;
RECT -0.1 -0.1 0.1 0.1 ;
LAYER met3 ;
RECT -0.165 -0.165 0.165 0.165 ;
END M2M3_PR_C
VIA M3M4_PR
LAYER met3 ;
RECT -0.19 -0.16 0.19 0.16 ;
LAYER via3 ;
RECT -0.1 -0.1 0.1 0.1 ;
LAYER met4 ;
RECT -0.165 -0.165 0.165 0.165 ;
END M3M4_PR
VIA M3M4_PR_R
LAYER met3 ;
RECT -0.16 -0.19 0.16 0.19 ;
LAYER via3 ;
RECT -0.1 -0.1 0.1 0.1 ;
LAYER met4 ;
RECT -0.165 -0.165 0.165 0.165 ;
END M3M4_PR_R
VIA M3M4_PR_M
LAYER met3 ;
RECT -0.19 -0.16 0.19 0.16 ;
LAYER via3 ;
RECT -0.1 -0.1 0.1 0.1 ;
LAYER met4 ;
RECT -0.165 -0.165 0.165 0.165 ;
END M3M4_PR_M
VIA M3M4_PR_MR
LAYER met3 ;
RECT -0.16 -0.19 0.16 0.19 ;
LAYER via3 ;
RECT -0.1 -0.1 0.1 0.1 ;
LAYER met4 ;
RECT -0.165 -0.165 0.165 0.165 ;
END M3M4_PR_MR
VIA M3M4_PR_C
LAYER met3 ;
RECT -0.19 -0.19 0.19 0.19 ;
LAYER via3 ;
RECT -0.1 -0.1 0.1 0.1 ;
LAYER met4 ;
RECT -0.165 -0.165 0.165 0.165 ;
END M3M4_PR_C
VIA M4M5_PR
LAYER met4 ;
RECT -0.59 -0.59 0.59 0.59 ;
LAYER via4 ;
RECT -0.4 -0.4 0.4 0.4 ;
LAYER met5 ;
RECT -0.71 -0.71 0.71 0.71 ;
END M4M5_PR
VIA M4M5_PR_R
LAYER met4 ;
RECT -0.59 -0.59 0.59 0.59 ;
LAYER via4 ;
RECT -0.4 -0.4 0.4 0.4 ;
LAYER met5 ;
RECT -0.71 -0.71 0.71 0.71 ;
END M4M5_PR_R
VIA M4M5_PR_M
LAYER met4 ;
RECT -0.59 -0.59 0.59 0.59 ;
LAYER via4 ;
RECT -0.4 -0.4 0.4 0.4 ;
LAYER met5 ;
RECT -0.71 -0.71 0.71 0.71 ;
END M4M5_PR_M
VIA M4M5_PR_MR
LAYER met4 ;
RECT -0.59 -0.59 0.59 0.59 ;
LAYER via4 ;
RECT -0.4 -0.4 0.4 0.4 ;
LAYER met5 ;
RECT -0.71 -0.71 0.71 0.71 ;
END M4M5_PR_MR
VIA M4M5_PR_C
LAYER met4 ;
RECT -0.59 -0.59 0.59 0.59 ;
LAYER via4 ;
RECT -0.4 -0.4 0.4 0.4 ;
LAYER met5 ;
RECT -0.71 -0.71 0.71 0.71 ;
END M4M5_PR_C
SITE unit
CLASS CORE ;
SIZE 0.46 BY 2.72 ;
END unit
SITE unithddbl
CLASS CORE ;
SIZE 0.46 BY 5.44 ;
END unithddbl
END LIBRARY

442162
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FPGA1212_FC_HD_SKY_PNR/fpga_core/rpts_icc2/module_utilization.tsv Normal file
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Module Util Area Sites Insts Std. Cells
=====================================================================
sb_0__0_ 37.27 6606.336000 5280 1 89
sb_0__1_ 61.36 7687.372800 6144 11 131
sb_0__12_ 23.88 6606.336000 5280 1 90
sb_1__0_ 71.41 7807.488000 6240 11 122
sb_1__1_ 82.24 8888.524800 7104 121 120
sb_1__12_ 64.46 7807.488000 6240 11 132
sb_12__0_ 59.45 6606.336000 5280 1 99
sb_12__1_ 69.32 7687.372800 6144 11 125
sb_12__12_ 41.88 6606.336000 5280 1 88
cbx_1__0_ 81.67 5044.838400 4032 12 79
cbx_1__1_ 80.36 5044.838400 4032 132 87
cbx_1__12_ 25.62 5044.838400 4032 12 92
cby_0__1_ 31.99 5044.838400 4032 12 103
cby_1__1_ 81.99 5044.838400 4032 144 86
grid_clb_1__1_ 75.36 12411.904000 9920 144 43
grid_io_bottom_1__0_ 6.85 1681.612800 1344 12 6
grid_io_left_0__1_ 8.21 1401.344000 1120 12 5
grid_io_right_13__1_ 9.73 1401.344000 1120 12 6
grid_io_top_1__13_ 8.93 1681.612800 1344 12 6
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FPGA1212_FC_HD_SKY_PNR/fpga_core/rpts_icc2/timing_reports.txt Normal file
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****************************************
Report : clock timing
-type latency
-launch
-nworst 1
-setup
Design : fpga_core
Version: P-2019.03-SP4
Date : Wed Oct 28 12:14:45 2020
****************************************
Information: Timer using 'PrimeTime Delay Calculation, SI, Timing Window Analysis, AWP, CRPR'. (TIM-050)
Mode: full_chip
Clock: CLK
--- Latency ---
Clock Pin Trans Source Offset Network Total Corner
---------------------------------------------------------------------------------------------------
grid_clb_3__8_/logical_tile_clb_mode_clb__0/logical_tile_clb_mode_default__fle_7/logical_tile_clb_mode_default__fle_mode_physical__fabric_0/logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_1/sky130_fd_sc_hd__sdfxbp_1_0_/CLK 1.419 0.000 -- 4.601 4.601 rp-+ nominal
---------------------------------------------------------------------------------------------------
Mode: full_chip
Clock: PROG_CLK
--- Latency ---
Clock Pin Trans Source Offset Network Total Corner
---------------------------------------------------------------------------------------------------
sb_4__3_/mem_left_track_17/sky130_fd_sc_hd__dfxbp_1_2_/CLK 1.246 0.000 -- 5.502 5.502 rp-+ nominal
---------------------------------------------------------------------------------------------------
****************************************
Report : clock timing
-type skew
-nworst 1
-setup
Design : fpga_core
Version: P-2019.03-SP4
Date : Wed Oct 28 12:14:45 2020
****************************************
Information: Timer using 'PrimeTime Delay Calculation, SI, Timing Window Analysis, AWP, CRPR'. (TIM-050)
Mode: full_chip
Clock: CLK
Clock Pin Latency CRP Skew Corner
---------------------------------------------------------------------------------------------------
grid_clb_3__11_/logical_tile_clb_mode_clb__0/logical_tile_clb_mode_default__fle_7/logical_tile_clb_mode_default__fle_mode_physical__fabric_0/logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_1/sky130_fd_sc_hd__sdfxbp_1_0_/CLK 4.526 rp-+ nominal
grid_clb_3__10_/logical_tile_clb_mode_clb__0/logical_tile_clb_mode_default__fle_0/logical_tile_clb_mode_default__fle_mode_physical__fabric_0/logical_tile_clb_mode_default__fle_mode_physical__fabric_mode_default__ff_0/sky130_fd_sc_hd__sdfxbp_1_0_/CLK 3.089 0.000 1.437 rp-+ nominal
---------------------------------------------------------------------------------------------------
Mode: full_chip
Clock: PROG_CLK
Clock Pin Latency CRP Skew Corner
---------------------------------------------------------------------------------------------------
sb_7__12_/mem_left_track_33/sky130_fd_sc_hd__dfxbp_1_2_/CLK 5.258 rp-+ nominal
cbx_7__12_/mem_bottom_ipin_0/sky130_fd_sc_hd__dfxbp_1_0_/CLK 4.164 0.000 1.094 rp-+ nominal
---------------------------------------------------------------------------------------------------
Information: Timer using 'PrimeTime Delay Calculation, SI, Timing Window Analysis, AWP, CRPR'. (TIM-050)
****************************************
Report : global timing
-format { narrow }
Design : fpga_core
Version: P-2019.03-SP4
Date : Wed Oct 28 12:14:45 2020
****************************************
No setup violations found.
No hold violations found.
1

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