mirror of https://github.com/YosysHQ/yosys.git
174 lines
8.3 KiB
Verilog
174 lines
8.3 KiB
Verilog
/*
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* yosys -- Yosys Open SYnthesis Suite
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*
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* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
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*
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* Permission to use, copy, modify, and/or distribute this software for any
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* purpose with or without fee is hereby granted, provided that the above
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* copyright notice and this permission notice appear in all copies.
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*
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* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
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* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
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* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
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* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
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* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
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* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
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* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
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*
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*/
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// Convert negative-polarity reset to positive-polarity
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module \$_DFF_NN0_ (input D, C, R, output Q); \$_DFF_NP0_ _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .R(~R)); endmodule
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module \$_DFF_PN0_ (input D, C, R, output Q); \$_DFF_PP0_ _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .R(~R)); endmodule
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module \$_DFF_NN1_ (input D, C, R, output Q); \$_DFF_NP1 _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .R(~R)); endmodule
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module \$_DFF_PN1_ (input D, C, R, output Q); \$_DFF_PP1 _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .R(~R)); endmodule
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module \$__SHREG_ (input C, input D, input E, output Q);
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parameter DEPTH = 0;
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parameter [DEPTH-1:0] INIT = 0;
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parameter CLKPOL = 1;
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parameter ENPOL = 2;
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\$__XILINX_SHREG_ #(.DEPTH(DEPTH), .INIT(INIT), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) _TECHMAP_REPLACE_ (.C(C), .D(D), .L(DEPTH-1), .E(E), .Q(Q));
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endmodule
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module \$__XILINX_SHREG_ (input C, input D, input [31:0] L, input E, output Q, output SO);
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parameter DEPTH = 0;
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parameter [DEPTH-1:0] INIT = 0;
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parameter CLKPOL = 1;
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parameter ENPOL = 2;
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// shregmap's INIT parameter shifts out LSB first;
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// however Xilinx expects MSB first
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function [DEPTH-1:0] brev;
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input [DEPTH-1:0] din;
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integer i;
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begin
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for (i = 0; i < DEPTH; i=i+1)
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brev[i] = din[DEPTH-1-i];
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end
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endfunction
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localparam [DEPTH-1:0] INIT_R = brev(INIT);
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parameter _TECHMAP_CONSTMSK_L_ = 0;
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parameter _TECHMAP_CONSTVAL_L_ = 0;
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wire CE;
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generate
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if (ENPOL == 0)
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assign CE = ~E;
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else if (ENPOL == 1)
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assign CE = E;
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else
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assign CE = 1'b1;
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if (DEPTH == 1) begin
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if (CLKPOL)
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FDRE #(.INIT(INIT_R)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(CE), .R(1'b0));
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else
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FDRE_1 #(.INIT(INIT_R)) _TECHMAP_REPLACE_ (.D(D), .Q(Q), .C(C), .CE(CE), .R(1'b0));
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end else
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if (DEPTH <= 16) begin
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SRL16E #(.INIT(INIT_R), .IS_CLK_INVERTED(~CLKPOL[0])) _TECHMAP_REPLACE_ (.A0(L[0]), .A1(L[1]), .A2(L[2]), .A3(L[3]), .CE(CE), .CLK(C), .D(D), .Q(Q));
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end else
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if (DEPTH > 17 && DEPTH <= 32) begin
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SRLC32E #(.INIT(INIT_R), .IS_CLK_INVERTED(~CLKPOL[0])) _TECHMAP_REPLACE_ (.A(L[4:0]), .CE(CE), .CLK(C), .D(D), .Q(Q));
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end else
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if (DEPTH > 33 && DEPTH <= 64) begin
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wire T0, T1, T2;
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SRLC32E #(.INIT(INIT_R[32-1:0]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_0 (.A(L[4:0]), .CE(CE), .CLK(C), .D(D), .Q(T0), .Q31(T1));
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\$__XILINX_SHREG_ #(.DEPTH(DEPTH-32), .INIT(INIT[DEPTH-32-1:0]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl_1 (.C(C), .D(T1), .L(L), .E(E), .Q(T2));
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if (&_TECHMAP_CONSTMSK_L_)
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assign Q = T2;
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else
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MUXF7 fpga_mux_0 (.O(Q), .I0(T0), .I1(T2), .S(L[5]));
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end else
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if (DEPTH > 65 && DEPTH <= 96) begin
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wire T0, T1, T2, T3, T4, T5, T6;
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SRLC32E #(.INIT(INIT_R[32-1: 0]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_0 (.A(L[4:0]), .CE(CE), .CLK(C), .D( D), .Q(T0), .Q31(T1));
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SRLC32E #(.INIT(INIT_R[64-1:32]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_1 (.A(L[4:0]), .CE(CE), .CLK(C), .D(T1), .Q(T2), .Q31(T3));
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\$__XILINX_SHREG_ #(.DEPTH(DEPTH-64), .INIT(INIT[DEPTH-64-1:0]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl_2 (.C(C), .D(T3), .L(L[4:0]), .E(E), .Q(T4));
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if (&_TECHMAP_CONSTMSK_L_)
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assign Q = T4;
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else begin
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MUXF7 fpga_mux_0 (.O(T5), .I0(T0), .I1(T2), .S(L[5]));
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MUXF7 fpga_mux_1 (.O(T6), .I0(T4), .I1(1'b0 /* unused */), .S(L[5]));
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MUXF8 fpga_mux_2 (.O(Q), .I0(T5), .I1(T6), .S(L[6]));
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end
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end else
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if (DEPTH > 97 && DEPTH < 128) begin
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wire T0, T1, T2, T3, T4, T5, T6, T7, T8;
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SRLC32E #(.INIT(INIT_R[32-1: 0]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_0 (.A(L[4:0]), .CE(CE), .CLK(C), .D( D), .Q(T0), .Q31(T1));
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SRLC32E #(.INIT(INIT_R[64-1:32]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_1 (.A(L[4:0]), .CE(CE), .CLK(C), .D(T1), .Q(T2), .Q31(T3));
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SRLC32E #(.INIT(INIT_R[96-1:64]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_2 (.A(L[4:0]), .CE(CE), .CLK(C), .D(T3), .Q(T4), .Q31(T5));
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\$__XILINX_SHREG_ #(.DEPTH(DEPTH-96), .INIT(INIT[DEPTH-96-1:0]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl_3 (.C(C), .D(T5), .L(L[4:0]), .E(E), .Q(T6));
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if (&_TECHMAP_CONSTMSK_L_)
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assign Q = T6;
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else begin
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MUXF7 fpga_mux_0 (.O(T7), .I0(T0), .I1(T2), .S(L[5]));
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MUXF7 fpga_mux_1 (.O(T8), .I0(T4), .I1(T6), .S(L[5]));
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MUXF8 fpga_mux_2 (.O(Q), .I0(T7), .I1(T8), .S(L[6]));
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end
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end
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else if (DEPTH == 128) begin
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wire T0, T1, T2, T3, T4, T5, T6;
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SRLC32E #(.INIT(INIT_R[ 32-1: 0]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_0 (.A(L[4:0]), .CE(CE), .CLK(C), .D( D), .Q(T0), .Q31(T1));
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SRLC32E #(.INIT(INIT_R[ 64-1:32]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_1 (.A(L[4:0]), .CE(CE), .CLK(C), .D(T1), .Q(T2), .Q31(T3));
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SRLC32E #(.INIT(INIT_R[ 96-1:64]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_2 (.A(L[4:0]), .CE(CE), .CLK(C), .D(T3), .Q(T4), .Q31(T5));
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SRLC32E #(.INIT(INIT_R[128-1:96]), .IS_CLK_INVERTED(~CLKPOL[0])) fpga_srl_3 (.A(L[4:0]), .CE(CE), .CLK(C), .D(T5), .Q(T6), .Q31(SO));
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if (&_TECHMAP_CONSTMSK_L_)
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assign Q = T6;
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else begin
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wire T7, T8;
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MUXF7 fpga_mux_0 (.O(T7), .I0(T0), .I1(T2), .S(L[5]));
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MUXF7 fpga_mux_1 (.O(T8), .I0(T4), .I1(T6), .S(L[5]));
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MUXF8 fpga_mux_2 (.O(Q), .I0(T7), .I1(T8), .S(L[6]));
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end
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end
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else if (DEPTH <= 129 && ~&_TECHMAP_CONSTMSK_L_) begin
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// Handle cases where fixed-length depth is
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// just 1 over a convenient value
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\$__XILINX_SHREG_ #(.DEPTH(DEPTH+1), .INIT({INIT,1'b0}), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) _TECHMAP_REPLACE_ (.C(C), .D(D), .L(L), .E(E), .Q(Q));
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end
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else begin
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localparam lower_clog2 = $clog2((DEPTH+1)/2);
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localparam lower_depth = 2 ** lower_clog2;
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wire T0, T1, T2, T3;
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if (&_TECHMAP_CONSTMSK_L_) begin
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\$__XILINX_SHREG_ #(.DEPTH(lower_depth), .INIT(INIT[DEPTH-1:DEPTH-lower_depth]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl_0 (.C(C), .D(D), .L(lower_depth-1), .E(E), .Q(T0));
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\$__XILINX_SHREG_ #(.DEPTH(DEPTH-lower_depth), .INIT(INIT[DEPTH-lower_depth-1:0]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl_1 (.C(C), .D(T0), .L(DEPTH-lower_depth-1), .E(E), .Q(Q), .SO(T3));
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end
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else begin
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\$__XILINX_SHREG_ #(.DEPTH(lower_depth), .INIT(INIT[DEPTH-1:DEPTH-lower_depth]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl_0 (.C(C), .D(D), .L(L[lower_clog2-1:0]), .E(E), .Q(T0), .SO(T1));
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\$__XILINX_SHREG_ #(.DEPTH(DEPTH-lower_depth), .INIT(INIT[DEPTH-lower_depth-1:0]), .CLKPOL(CLKPOL), .ENPOL(ENPOL)) fpga_srl_1 (.C(C), .D(T1), .L(L[lower_clog2-1:0]), .E(E), .Q(T2), .SO(T3));
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assign Q = L[lower_clog2] ? T2 : T0;
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end
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if (DEPTH == 2 * lower_depth)
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assign SO = T3;
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end
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endgenerate
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endmodule
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`ifndef NO_MUXFN
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module \$_MUX8_ (A, B, C, D, E, F, G, H, S, T, U, Y);
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input A, B, C, D, E, F, G, H, S, T, U;
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output Y;
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wire [1:0] Z;
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assign Z = T ? (S ? {D,H} : {C,G}) :
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(S ? {B,F} : {A,E});
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MUXF7 fpga_muxf7 (.I0(Z[0]), .I1(Z[1]), .S(U), .O(Y));
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endmodule
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module \$_MUX16_ (A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, S, T, U, V, Y);
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input A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, S, T, U, V;
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output Y;
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wire [1:0] Z;
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\$_MUX8_ fpga_mux8_0 (.A(A), .B(B), .C(C), .D(D), .E(E), .F(F), .G(G), .H(H), .S(S), .T(T), .U(U), .Y(Z[0]));
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\$_MUX8_ fpga_mux8_1 (.A(I), .B(J), .C(K), .D(L), .E(M), .F(N), .G(O), .H(P), .S(S), .T(T), .U(U), .Y(Z[1]));
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MUXF8 fpga_muxf8 (.I0(Z[0]), .I1(Z[1]), .S(V), .O(Y));
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endmodule
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`endif // NO_MUXFN
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