yosys/techlibs/intel/cyclonev/cells_sim.v

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
*/
module VCC (output V);
assign V = 1'b1;
endmodule // VCC
module GND (output G);
assign G = 1'b0;
endmodule // GND
/* Altera Cyclone V devices Input Buffer Primitive */
module cyclonev_io_ibuf
(output o, input i, input ibar);
assign ibar = ibar;
assign o = i;
endmodule // cyclonev_io_ibuf
/* Altera Cyclone V devices Output Buffer Primitive */
module cyclonev_io_obuf
(output o, input i, input oe);
assign o = i;
assign oe = oe;
endmodule // cyclonev_io_obuf
/* Altera Cyclone V LUT Primitive */
module cyclonev_lcell_comb
(output combout, cout, sumout, shareout,
input dataa, datab, datac, datad,
input datae, dataf, datag, cin,
input sharein);
parameter lut_mask = 64'hFFFFFFFFFFFFFFFF;
parameter dont_touch = "off";
parameter lpm_type = "cyclonev_lcell_comb";
parameter shared_arith = "off";
parameter extended_lut = "off";
// Internal variables
// Sub mask for fragmented LUTs
wire [15:0] mask_a, mask_b, mask_c, mask_d;
// Independent output for fragmented LUTs
wire output_0, output_1, output_2, output_3;
// Extended mode uses mux to define the output
wire mux_0, mux_1;
// Input for hold the shared LUT mode value
wire shared_lut_alm;
// Simulation model of 4-input LUT
function lut4;
input [15:0] mask;
input dataa, datab, datac, datad;
reg [7:0] s3;
reg [3:0] s2;
reg [1:0] s1;
begin
s3 = datad ? mask[15:8] : mask[7:0];
s2 = datac ? s3[7:4] : s3[3:0];
s1 = datab ? s2[3:2] : s2[1:0];
lut4 = dataa ? s1[1] : s1[0];
end
endfunction // lut4
// Simulation model of 5-input LUT
function lut5;
input [31:0] mask; // wp-01003.pdf, page 3: "a 5-LUT can be built with two 4-LUTs and a multiplexer.
input dataa, datab, datac, datad, datae;
reg upper_lut_value;
reg lower_lut_value;
begin
upper_lut_value = lut4(mask[31:16], dataa, datab, datac, datad);
lower_lut_value = lut4(mask[15:0], dataa, datab, datac, datad);
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lut5 = (datae) ? upper_lut_value : lower_lut_value;
end
endfunction // lut5
// Simulation model of 6-input LUT
function lut6;
input [63:0] mask;
input dataa, datab, datac, datad, datae, dataf;
reg upper_lut_value;
reg lower_lut_value;
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reg out_0, out_1, out_2, out_3;
begin
upper_lut_value = lut5(mask[63:32], dataa, datab, datac, datad, datae);
lower_lut_value = lut5(mask[31:0], dataa, datab, datac, datad, datae);
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lut6 = (dataf) ? upper_lut_value : lower_lut_value;
end
endfunction // lut6
assign {mask_a, mask_b, mask_c, mask_d} = {lut_mask[15:0], lut_mask[31:16], lut_mask[47:32], lut_mask[63:48]};
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`ifdef ADVANCED_ALM
always @(*) begin
if(extended_lut == "on")
shared_lut_alm = datag;
else
shared_lut_alm = datac;
// Build the ALM behaviour
out_0 = lut4(mask_a, dataa, datab, datac, datad);
out_1 = lut4(mask_b, dataa, datab, shared_lut_alm, datad);
out_2 = lut4(mask_c, dataa, datab, datac, datad);
out_3 = lut4(mask_d, dataa, datab, shared_lut_alm, datad);
end
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`else
`ifdef DEBUG
initial $display("Advanced ALM lut combine is not implemented yet");
`endif
`endif
endmodule // cyclonev_lcell_comb
/* Altera D Flip-Flop Primitive */
module dffeas
(output q,
input d, clk, clrn, prn, ena,
input asdata, aload, sclr, sload);
// Timing simulation is not covered
parameter power_up="dontcare";
parameter is_wysiwyg="false";
reg q_tmp;
wire reset;
reg [7:0] debug_net;
assign reset = (prn && sclr && ~clrn && ena);
assign q = q_tmp & 1'b1;
always @(posedge clk, posedge aload) begin
if(reset) q_tmp <= 0;
else q_tmp <= d;
end
assign q = q_tmp;
endmodule // dffeas