yosys/techlibs/xilinx/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.
*
*/
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// See Xilinx UG953 and UG474 for a description of the cell types below.
// http://www.xilinx.com/support/documentation/user_guides/ug474_7Series_CLB.pdf
// http://www.xilinx.com/support/documentation/sw_manuals/xilinx2014_4/ug953-vivado-7series-libraries.pdf
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module VCC(output P);
assign P = 1;
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endmodule
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module GND(output G);
assign G = 0;
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endmodule
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module IBUF(output O, input I);
parameter IOSTANDARD = "default";
parameter IBUF_LOW_PWR = 0;
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assign O = I;
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endmodule
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module OBUF(output O, input I);
parameter IOSTANDARD = "default";
parameter DRIVE = 12;
parameter SLEW = "SLOW";
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assign O = I;
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endmodule
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module BUFG(output O, input I);
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assign O = I;
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endmodule
module BUFGCTRL(
output O,
input I0, input I1,
input S0, input S1,
input CE0, input CE1,
input IGNORE0, input IGNORE1);
parameter [0:0] INIT_OUT = 1'b0;
parameter PRESELECT_I0 = "FALSE";
parameter PRESELECT_I1 = "FALSE";
parameter [0:0] IS_CE0_INVERTED = 1'b0;
parameter [0:0] IS_CE1_INVERTED = 1'b0;
parameter [0:0] IS_S0_INVERTED = 1'b0;
parameter [0:0] IS_S1_INVERTED = 1'b0;
parameter [0:0] IS_IGNORE0_INVERTED = 1'b0;
parameter [0:0] IS_IGNORE1_INVERTED = 1'b0;
wire I0_internal = ((CE0 ^ IS_CE0_INVERTED) ? I0 : INIT_OUT);
wire I1_internal = ((CE1 ^ IS_CE1_INVERTED) ? I1 : INIT_OUT);
wire S0_true = (S0 ^ IS_S0_INVERTED);
wire S1_true = (S1 ^ IS_S1_INVERTED);
assign O = S0_true ? I0_internal : (S1_true ? I1_internal : INIT_OUT);
endmodule
module BUFHCE(output O, input I, input CE);
parameter [0:0] INIT_OUT = 1'b0;
parameter CE_TYPE = "SYNC";
parameter [0:0] IS_CE_INVERTED = 1'b0;
assign O = ((CE ^ IS_CE_INVERTED) ? I : INIT_OUT);
endmodule
// module OBUFT(output O, input I, T);
// assign O = T ? 1'bz : I;
// endmodule
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// module IOBUF(inout IO, output O, input I, T);
// assign O = IO, IO = T ? 1'bz : I;
// endmodule
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module INV(output O, input I);
assign O = !I;
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endmodule
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module LUT1(output O, input I0);
parameter [1:0] INIT = 0;
assign O = I0 ? INIT[1] : INIT[0];
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endmodule
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module LUT2(output O, input I0, I1);
parameter [3:0] INIT = 0;
wire [ 1: 0] s1 = I1 ? INIT[ 3: 2] : INIT[ 1: 0];
assign O = I0 ? s1[1] : s1[0];
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endmodule
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module LUT3(output O, input I0, I1, I2);
parameter [7:0] INIT = 0;
wire [ 3: 0] s2 = I2 ? INIT[ 7: 4] : INIT[ 3: 0];
wire [ 1: 0] s1 = I1 ? s2[ 3: 2] : s2[ 1: 0];
assign O = I0 ? s1[1] : s1[0];
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endmodule
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module LUT4(output O, input I0, I1, I2, I3);
parameter [15:0] INIT = 0;
wire [ 7: 0] s3 = I3 ? INIT[15: 8] : INIT[ 7: 0];
wire [ 3: 0] s2 = I2 ? s3[ 7: 4] : s3[ 3: 0];
wire [ 1: 0] s1 = I1 ? s2[ 3: 2] : s2[ 1: 0];
assign O = I0 ? s1[1] : s1[0];
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endmodule
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module LUT5(output O, input I0, I1, I2, I3, I4);
parameter [31:0] INIT = 0;
wire [15: 0] s4 = I4 ? INIT[31:16] : INIT[15: 0];
wire [ 7: 0] s3 = I3 ? s4[15: 8] : s4[ 7: 0];
wire [ 3: 0] s2 = I2 ? s3[ 7: 4] : s3[ 3: 0];
wire [ 1: 0] s1 = I1 ? s2[ 3: 2] : s2[ 1: 0];
assign O = I0 ? s1[1] : s1[0];
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endmodule
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module LUT6(output O, input I0, I1, I2, I3, I4, I5);
parameter [63:0] INIT = 0;
wire [31: 0] s5 = I5 ? INIT[63:32] : INIT[31: 0];
wire [15: 0] s4 = I4 ? s5[31:16] : s5[15: 0];
wire [ 7: 0] s3 = I3 ? s4[15: 8] : s4[ 7: 0];
wire [ 3: 0] s2 = I2 ? s3[ 7: 4] : s3[ 3: 0];
wire [ 1: 0] s1 = I1 ? s2[ 3: 2] : s2[ 1: 0];
assign O = I0 ? s1[1] : s1[0];
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endmodule
module LUT6_2(output O6, output O5, input I0, I1, I2, I3, I4, I5);
parameter [63:0] INIT = 0;
wire [31: 0] s5 = I5 ? INIT[63:32] : INIT[31: 0];
wire [15: 0] s4 = I4 ? s5[31:16] : s5[15: 0];
wire [ 7: 0] s3 = I3 ? s4[15: 8] : s4[ 7: 0];
wire [ 3: 0] s2 = I2 ? s3[ 7: 4] : s3[ 3: 0];
wire [ 1: 0] s1 = I1 ? s2[ 3: 2] : s2[ 1: 0];
assign O6 = I0 ? s1[1] : s1[0];
wire [15: 0] s5_4 = I4 ? INIT[31:16] : INIT[15: 0];
wire [ 7: 0] s5_3 = I3 ? s5_4[15: 8] : s5_4[ 7: 0];
wire [ 3: 0] s5_2 = I2 ? s5_3[ 7: 4] : s5_3[ 3: 0];
wire [ 1: 0] s5_1 = I1 ? s5_2[ 3: 2] : s5_2[ 1: 0];
assign O5 = I0 ? s5_1[1] : s5_1[0];
endmodule
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module MUXCY(output O, input CI, DI, S);
assign O = S ? CI : DI;
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endmodule
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(* abc_box_id = 1, lib_whitebox *)
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module MUXF7(output O, input I0, I1, S);
assign O = S ? I1 : I0;
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endmodule
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(* abc_box_id = 2, lib_whitebox *)
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module MUXF8(output O, input I0, I1, S);
assign O = S ? I1 : I0;
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endmodule
`ifdef _ABC
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(* abc_box_id = 3, lib_whitebox *)
module \$__XILINX_MUXF78 (output O, input I0, I1, I2, I3, S0, S1);
assign O = S1 ? (S0 ? I3 : I2)
: (S0 ? I1 : I0);
endmodule
`endif
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module XORCY(output O, input CI, LI);
assign O = CI ^ LI;
endmodule
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(* abc_box_id = 4, abc_carry="CI,CO", lib_whitebox *)
module CARRY4(output [3:0] CO, O, input CI, CYINIT, input [3:0] DI, S);
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assign O = S ^ {CO[2:0], CI | CYINIT};
assign CO[0] = S[0] ? CI | CYINIT : DI[0];
assign CO[1] = S[1] ? CO[0] : DI[1];
assign CO[2] = S[2] ? CO[1] : DI[2];
assign CO[3] = S[3] ? CO[2] : DI[3];
endmodule
`ifdef _EXPLICIT_CARRY
module CARRY0(output CO_CHAIN, CO_FABRIC, O, input CI, CI_INIT, DI, S);
parameter CYINIT_FABRIC = 0;
wire CI_COMBINE;
if(CYINIT_FABRIC) begin
assign CI_COMBINE = CI_INIT;
end else begin
assign CI_COMBINE = CI;
end
assign CO_CHAIN = S ? CI_COMBINE : DI;
assign CO_FABRIC = S ? CI_COMBINE : DI;
assign O = S ^ CI_COMBINE;
endmodule
module CARRY(output CO_CHAIN, CO_FABRIC, O, input CI, DI, S);
assign CO_CHAIN = S ? CI : DI;
assign CO_FABRIC = S ? CI : DI;
assign O = S ^ CI;
endmodule
`endif
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module FDRE (output reg Q, input C, CE, D, R);
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parameter [0:0] INIT = 1'b0;
parameter [0:0] IS_C_INVERTED = 1'b0;
parameter [0:0] IS_D_INVERTED = 1'b0;
parameter [0:0] IS_R_INVERTED = 1'b0;
initial Q <= INIT;
generate case (|IS_C_INVERTED)
1'b0: always @(posedge C) if (R == !IS_R_INVERTED) Q <= 1'b0; else if (CE) Q <= D ^ IS_D_INVERTED;
1'b1: always @(negedge C) if (R == !IS_R_INVERTED) Q <= 1'b0; else if (CE) Q <= D ^ IS_D_INVERTED;
endcase endgenerate
endmodule
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module FDSE (output reg Q, input C, CE, D, S);
parameter [0:0] INIT = 1'b1;
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parameter [0:0] IS_C_INVERTED = 1'b0;
parameter [0:0] IS_D_INVERTED = 1'b0;
parameter [0:0] IS_S_INVERTED = 1'b0;
initial Q <= INIT;
generate case (|IS_C_INVERTED)
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1'b0: always @(posedge C) if (S == !IS_S_INVERTED) Q <= 1'b1; else if (CE) Q <= D ^ IS_D_INVERTED;
1'b1: always @(negedge C) if (S == !IS_S_INVERTED) Q <= 1'b1; else if (CE) Q <= D ^ IS_D_INVERTED;
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endcase endgenerate
endmodule
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module FDCE (output reg Q, input C, CE, D, CLR);
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parameter [0:0] INIT = 1'b0;
parameter [0:0] IS_C_INVERTED = 1'b0;
parameter [0:0] IS_D_INVERTED = 1'b0;
parameter [0:0] IS_CLR_INVERTED = 1'b0;
initial Q <= INIT;
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generate case ({|IS_C_INVERTED, |IS_CLR_INVERTED})
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2'b00: always @(posedge C, posedge CLR) if ( CLR) Q <= 1'b0; else if (CE) Q <= D ^ IS_D_INVERTED;
2'b01: always @(posedge C, negedge CLR) if (!CLR) Q <= 1'b0; else if (CE) Q <= D ^ IS_D_INVERTED;
2'b10: always @(negedge C, posedge CLR) if ( CLR) Q <= 1'b0; else if (CE) Q <= D ^ IS_D_INVERTED;
2'b11: always @(negedge C, negedge CLR) if (!CLR) Q <= 1'b0; else if (CE) Q <= D ^ IS_D_INVERTED;
endcase endgenerate
endmodule
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module FDPE (output reg Q, input C, CE, D, PRE);
parameter [0:0] INIT = 1'b1;
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parameter [0:0] IS_C_INVERTED = 1'b0;
parameter [0:0] IS_D_INVERTED = 1'b0;
parameter [0:0] IS_PRE_INVERTED = 1'b0;
initial Q <= INIT;
generate case ({|IS_C_INVERTED, |IS_PRE_INVERTED})
2'b00: always @(posedge C, posedge PRE) if ( PRE) Q <= 1'b1; else if (CE) Q <= D ^ IS_D_INVERTED;
2'b01: always @(posedge C, negedge PRE) if (!PRE) Q <= 1'b1; else if (CE) Q <= D ^ IS_D_INVERTED;
2'b10: always @(negedge C, posedge PRE) if ( PRE) Q <= 1'b1; else if (CE) Q <= D ^ IS_D_INVERTED;
2'b11: always @(negedge C, negedge PRE) if (!PRE) Q <= 1'b1; else if (CE) Q <= D ^ IS_D_INVERTED;
endcase endgenerate
endmodule
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module FDRE_1 (output reg Q, input C, CE, D, R);
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parameter [0:0] INIT = 1'b0;
initial Q <= INIT;
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always @(negedge C) if (R) Q <= 1'b0; else if(CE) Q <= D;
endmodule
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module FDSE_1 (output reg Q, input C, CE, D, S);
parameter [0:0] INIT = 1'b1;
initial Q <= INIT;
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always @(negedge C) if (S) Q <= 1'b1; else if(CE) Q <= D;
endmodule
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module FDCE_1 (output reg Q, input C, CE, D, CLR);
parameter [0:0] INIT = 1'b0;
initial Q <= INIT;
always @(negedge C, posedge CLR) if (CLR) Q <= 1'b0; else if (CE) Q <= D;
endmodule
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module FDPE_1 (output reg Q, input C, CE, D, PRE);
parameter [0:0] INIT = 1'b1;
initial Q <= INIT;
always @(negedge C, posedge PRE) if (PRE) Q <= 1'b1; else if (CE) Q <= D;
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endmodule
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(* abc_box_id = 5, abc_scc_break="D,WE" *)
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module RAM32X1D (
output DPO, SPO,
input D, WCLK, WE,
input A0, A1, A2, A3, A4,
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input DPRA0, DPRA1, DPRA2, DPRA3, DPRA4
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);
parameter INIT = 32'h0;
parameter IS_WCLK_INVERTED = 1'b0;
wire [4:0] a = {A4, A3, A2, A1, A0};
wire [4:0] dpra = {DPRA4, DPRA3, DPRA2, DPRA1, DPRA0};
reg [31:0] mem = INIT;
assign SPO = mem[a];
assign DPO = mem[dpra];
wire clk = WCLK ^ IS_WCLK_INVERTED;
always @(posedge clk) if (WE) mem[a] <= D;
endmodule
(* abc_box_id = 6, abc_scc_break="D,WE" *)
module RAM64X1D (
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output DPO, SPO,
input D, WCLK, WE,
input A0, A1, A2, A3, A4, A5,
input DPRA0, DPRA1, DPRA2, DPRA3, DPRA4, DPRA5
);
parameter INIT = 64'h0;
parameter IS_WCLK_INVERTED = 1'b0;
wire [5:0] a = {A5, A4, A3, A2, A1, A0};
wire [5:0] dpra = {DPRA5, DPRA4, DPRA3, DPRA2, DPRA1, DPRA0};
reg [63:0] mem = INIT;
assign SPO = mem[a];
assign DPO = mem[dpra];
wire clk = WCLK ^ IS_WCLK_INVERTED;
always @(posedge clk) if (WE) mem[a] <= D;
endmodule
(* abc_box_id = 7, abc_scc_break="D,WE" *)
module RAM128X1D (
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output DPO, SPO,
input D, WCLK, WE,
input [6:0] A, DPRA
);
parameter INIT = 128'h0;
parameter IS_WCLK_INVERTED = 1'b0;
reg [127:0] mem = INIT;
assign SPO = mem[A];
assign DPO = mem[DPRA];
wire clk = WCLK ^ IS_WCLK_INVERTED;
always @(posedge clk) if (WE) mem[A] <= D;
endmodule
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module SRL16E (
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output Q,
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input A0, A1, A2, A3, CE, CLK, D
);
parameter [15:0] INIT = 16'h0000;
parameter [0:0] IS_CLK_INVERTED = 1'b0;
reg [15:0] r = INIT;
assign Q = r[{A3,A2,A1,A0}];
generate
if (IS_CLK_INVERTED) begin
always @(negedge CLK) if (CE) r <= { r[14:0], D };
end
else
always @(posedge CLK) if (CE) r <= { r[14:0], D };
endgenerate
endmodule
module SRLC32E (
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output Q,
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output Q31,
input [4:0] A,
input CE, CLK, D
);
parameter [31:0] INIT = 32'h00000000;
parameter [0:0] IS_CLK_INVERTED = 1'b0;
reg [31:0] r = INIT;
assign Q31 = r[31];
assign Q = r[A];
generate
if (IS_CLK_INVERTED) begin
always @(negedge CLK) if (CE) r <= { r[30:0], D };
end
else
always @(posedge CLK) if (CE) r <= { r[30:0], D };
endgenerate
endmodule
module DSP48E1 (
output [29:0] ACOUT,
output [17:0] BCOUT,
output CARRYCASCOUT,
output [3:0] CARRYOUT,
output MULTSIGNOUT,
output OVERFLOW,
output reg [47:0] P,
output PATTERNBDETECT,
output PATTERNDETECT,
output [47:0] PCOUT,
output UNDERFLOW,
input [29:0] A,
input [29:0] ACIN,
input [3:0] ALUMODE,
input [17:0] B,
input [17:0] BCIN,
input [47:0] C,
input CARRYCASCIN,
input CARRYIN,
input [2:0] CARRYINSEL,
input CEA1,
input CEA2,
input CEAD,
input CEALUMODE,
input CEB1,
input CEB2,
input CEC,
input CECARRYIN,
input CECTRL,
input CED,
input CEINMODE,
input CEM,
input CEP,
input CLK,
input [24:0] D,
input [4:0] INMODE,
input MULTSIGNIN,
input [6:0] OPMODE,
input [47:0] PCIN,
input RSTA,
input RSTALLCARRYIN,
input RSTALUMODE,
input RSTB,
input RSTC,
input RSTCTRL,
input RSTD,
input RSTINMODE,
input RSTM,
input RSTP
);
parameter integer ACASCREG = 1;
parameter integer ADREG = 1;
parameter integer ALUMODEREG = 1;
parameter integer AREG = 1;
parameter AUTORESET_PATDET = "NO_RESET";
parameter A_INPUT = "DIRECT";
parameter integer BCASCREG = 1;
parameter integer BREG = 1;
parameter B_INPUT = "DIRECT";
parameter integer CARRYINREG = 1;
parameter integer CARRYINSELREG = 1;
parameter integer CREG = 1;
parameter integer DREG = 1;
parameter integer INMODEREG = 1;
parameter integer MREG = 1;
parameter integer OPMODEREG = 1;
parameter integer PREG = 1;
parameter SEL_MASK = "MASK";
parameter SEL_PATTERN = "PATTERN";
parameter USE_DPORT = "FALSE";
parameter USE_MULT = "MULTIPLY";
parameter USE_PATTERN_DETECT = "NO_PATDET";
parameter USE_SIMD = "ONE48";
parameter [47:0] MASK = 48'h3FFFFFFFFFFF;
parameter [47:0] PATTERN = 48'h000000000000;
parameter [3:0] IS_ALUMODE_INVERTED = 4'b0;
parameter [0:0] IS_CARRYIN_INVERTED = 1'b0;
parameter [0:0] IS_CLK_INVERTED = 1'b0;
parameter [4:0] IS_INMODE_INVERTED = 5'b0;
parameter [6:0] IS_OPMODE_INVERTED = 7'b0;
initial begin
`ifdef __ICARUS__
if (ACASCREG != 0) $fatal(1, "Unsupported ACASCREG value");
if (ADREG != 0) $fatal(1, "Unsupported ADREG value");
if (ALUMODEREG != 0) $fatal(1, "Unsupported ALUMODEREG value");
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if (AREG == 2) $fatal(1, "Unsupported AREG value");
if (AUTORESET_PATDET != "NO_RESET") $fatal(1, "Unsupported AUTORESET_PATDET value");
if (A_INPUT != "DIRECT") $fatal(1, "Unsupported A_INPUT value");
if (BCASCREG != 0) $fatal(1, "Unsupported BCASCREG value");
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if (BREG == 2) $fatal(1, "Unsupported BREG value");
if (B_INPUT != "DIRECT") $fatal(1, "Unsupported B_INPUT value");
if (CARRYINREG != 0) $fatal(1, "Unsupported CARRYINREG value");
if (CARRYINSELREG != 0) $fatal(1, "Unsupported CARRYINSELREG value");
if (CREG != 0) $fatal(1, "Unsupported CREG value");
if (DREG != 0) $fatal(1, "Unsupported DREG value");
if (INMODEREG != 0) $fatal(1, "Unsupported INMODEREG value");
if (MREG != 0) $fatal(1, "Unsupported MREG value");
if (OPMODEREG != 0) $fatal(1, "Unsupported OPMODEREG value");
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//if (PREG != 0) $fatal(1, "Unsupported PREG value");
if (SEL_MASK != "MASK") $fatal(1, "Unsupported SEL_MASK value");
if (SEL_PATTERN != "PATTERN") $fatal(1, "Unsupported SEL_PATTERN value");
if (USE_DPORT != "FALSE") $fatal(1, "Unsupported USE_DPORT value");
if (USE_MULT != "MULTIPLY") $fatal(1, "Unsupported USE_MULT value");
if (USE_PATTERN_DETECT != "NO_PATDET") $fatal(1, "Unsupported USE_PATTERN_DETECT value");
if (USE_SIMD != "ONE48") $fatal(1, "Unsupported USE_SIMD value");
if (IS_ALUMODE_INVERTED != 4'b0) $fatal(1, "Unsupported IS_ALUMODE_INVERTED value");
if (IS_CARRYIN_INVERTED != 1'b0) $fatal(1, "Unsupported IS_CARRYIN_INVERTED value");
if (IS_CLK_INVERTED != 1'b0) $fatal(1, "Unsupported IS_CLK_INVERTED value");
if (IS_INMODE_INVERTED != 5'b0) $fatal(1, "Unsupported IS_INMODE_INVERTED value");
if (IS_OPMODE_INVERTED != 7'b0) $fatal(1, "Unsupported IS_OPMODE_INVERTED value");
`endif
end
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reg [29:0] Ar;
reg [17:0] Br;
reg [47:0] Pr;
generate
if (AREG == 1) begin always @(posedge CLK) if (CEA2) Ar <= A; end
else always @* Ar <= A;
if (BREG == 1) begin always @(posedge CLK) if (CEB2) Br <= B; end
else always @* Br <= B;
endgenerate
always @* begin
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Pr <= {48{1'bx}};
`ifdef __ICARUS__
if (INMODE != 4'b0000) $fatal(1, "Unsupported INMODE value");
if (ALUMODE != 4'b0000) $fatal(1, "Unsupported ALUMODE value");
if (OPMODE != 7'b000101) $fatal(1, "Unsupported OPMODE value");
if (CARRYINSEL != 3'b000) $fatal(1, "Unsupported CARRYINSEL value");
if (ACIN != 30'b0) $fatal(1, "Unsupported ACIN value");
if (BCIN != 18'b0) $fatal(1, "Unsupported BCIN value");
if (PCIN != 48'b0) $fatal(1, "Unsupported PCIN value");
if (CARRYIN != 1'b0) $fatal(1, "Unsupported CARRYIN value");
`endif
Pr[42:0] <= $signed(Ar[24:0]) * $signed(Br);
end
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generate
if (PREG == 1) begin always @(posedge CLK) if (CEP) P <= Pr; end
else always @* P <= Pr;
endgenerate
endmodule