mirror of https://github.com/YosysHQ/yosys.git
512 lines
8.0 KiB
Verilog
512 lines
8.0 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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*
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* The internal logic cell simulation library.
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*
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* This verilog library contains simple simulation models for the internal
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* logic cells ($_NOT_ , $_AND_ , ...) that are generated by the default technology
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* mapper (see "techmap.v" in this directory) and expected by the "abc" pass.
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*
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*/
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module \$_BUF_ (A, Y);
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input A;
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output Y;
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assign Y = A;
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endmodule
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module \$_NOT_ (A, Y);
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input A;
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output Y;
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assign Y = ~A;
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endmodule
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module \$_AND_ (A, B, Y);
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input A, B;
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output Y;
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assign Y = A & B;
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endmodule
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module \$_NAND_ (A, B, Y);
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input A, B;
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output Y;
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assign Y = ~(A & B);
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endmodule
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module \$_OR_ (A, B, Y);
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input A, B;
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output Y;
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assign Y = A | B;
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endmodule
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module \$_NOR_ (A, B, Y);
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input A, B;
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output Y;
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assign Y = ~(A | B);
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endmodule
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module \$_XOR_ (A, B, Y);
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input A, B;
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output Y;
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assign Y = A ^ B;
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endmodule
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module \$_XNOR_ (A, B, Y);
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input A, B;
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output Y;
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assign Y = ~(A ^ B);
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endmodule
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module \$_MUX_ (A, B, S, Y);
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input A, B, S;
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output Y;
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assign Y = S ? B : A;
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endmodule
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module \$_AOI3_ (A, B, C, Y);
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input A, B, C;
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output Y;
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assign Y = ~((A & B) | C);
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endmodule
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module \$_OAI3_ (A, B, C, Y);
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input A, B, C;
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output Y;
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assign Y = ~((A | B) & C);
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endmodule
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module \$_AOI4_ (A, B, C, D, Y);
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input A, B, C, D;
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output Y;
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assign Y = ~((A & B) | (C & D));
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endmodule
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module \$_OAI4_ (A, B, C, D, Y);
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input A, B, C, D;
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output Y;
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assign Y = ~((A | B) & (C | D));
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endmodule
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module \$_SR_NN_ (S, R, Q);
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input S, R;
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output reg Q;
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always @(negedge S, negedge R) begin
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if (R == 0)
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Q <= 0;
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else if (S == 0)
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Q <= 1;
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end
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endmodule
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module \$_SR_NP_ (S, R, Q);
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input S, R;
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output reg Q;
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always @(negedge S, posedge R) begin
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if (R == 1)
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Q <= 0;
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else if (S == 0)
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Q <= 1;
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end
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endmodule
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module \$_SR_PN_ (S, R, Q);
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input S, R;
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output reg Q;
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always @(posedge S, negedge R) begin
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if (R == 0)
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Q <= 0;
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else if (S == 1)
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Q <= 1;
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end
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endmodule
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module \$_SR_PP_ (S, R, Q);
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input S, R;
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output reg Q;
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always @(posedge S, posedge R) begin
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if (R == 1)
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Q <= 0;
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else if (S == 1)
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Q <= 1;
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end
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endmodule
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module \$_DFF_N_ (D, Q, C);
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input D, C;
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output reg Q;
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always @(negedge C) begin
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Q <= D;
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end
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endmodule
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module \$_DFF_P_ (D, Q, C);
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input D, C;
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output reg Q;
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always @(posedge C) begin
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Q <= D;
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end
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endmodule
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module \$_DFFE_NN_ (D, Q, C, E);
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input D, C, E;
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output reg Q;
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always @(negedge C) begin
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if (!E) Q <= D;
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end
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endmodule
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module \$_DFFE_NP_ (D, Q, C, E);
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input D, C, E;
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output reg Q;
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always @(negedge C) begin
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if (E) Q <= D;
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end
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endmodule
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module \$_DFFE_PN_ (D, Q, C, E);
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input D, C, E;
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output reg Q;
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always @(posedge C) begin
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if (!E) Q <= D;
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end
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endmodule
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module \$_DFFE_PP_ (D, Q, C, E);
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input D, C, E;
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output reg Q;
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always @(posedge C) begin
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if (E) Q <= D;
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end
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endmodule
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module \$_DFF_NN0_ (D, Q, C, R);
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input D, C, R;
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output reg Q;
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always @(negedge C or negedge R) begin
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if (R == 0)
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Q <= 0;
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else
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Q <= D;
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end
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endmodule
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module \$_DFF_NN1_ (D, Q, C, R);
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input D, C, R;
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output reg Q;
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always @(negedge C or negedge R) begin
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if (R == 0)
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Q <= 1;
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else
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Q <= D;
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end
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endmodule
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module \$_DFF_NP0_ (D, Q, C, R);
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input D, C, R;
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output reg Q;
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always @(negedge C or posedge R) begin
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if (R == 1)
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Q <= 0;
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else
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Q <= D;
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end
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endmodule
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module \$_DFF_NP1_ (D, Q, C, R);
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input D, C, R;
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output reg Q;
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always @(negedge C or posedge R) begin
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if (R == 1)
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Q <= 1;
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else
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Q <= D;
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end
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endmodule
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module \$_DFF_PN0_ (D, Q, C, R);
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input D, C, R;
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output reg Q;
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always @(posedge C or negedge R) begin
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if (R == 0)
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Q <= 0;
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else
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Q <= D;
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end
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endmodule
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module \$_DFF_PN1_ (D, Q, C, R);
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input D, C, R;
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output reg Q;
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always @(posedge C or negedge R) begin
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if (R == 0)
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Q <= 1;
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else
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Q <= D;
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end
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endmodule
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module \$_DFF_PP0_ (D, Q, C, R);
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input D, C, R;
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output reg Q;
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always @(posedge C or posedge R) begin
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if (R == 1)
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Q <= 0;
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else
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Q <= D;
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end
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endmodule
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module \$_DFF_PP1_ (D, Q, C, R);
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input D, C, R;
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output reg Q;
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always @(posedge C or posedge R) begin
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if (R == 1)
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Q <= 1;
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else
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Q <= D;
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end
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endmodule
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module \$_DFFSR_NNN_ (C, S, R, D, Q);
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input C, S, R, D;
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output reg Q;
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always @(negedge C, negedge S, negedge R) begin
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if (R == 0)
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Q <= 0;
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else if (S == 0)
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Q <= 1;
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else
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Q <= D;
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end
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endmodule
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module \$_DFFSR_NNP_ (C, S, R, D, Q);
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input C, S, R, D;
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output reg Q;
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always @(negedge C, negedge S, posedge R) begin
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if (R == 1)
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Q <= 0;
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else if (S == 0)
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Q <= 1;
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else
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Q <= D;
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end
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endmodule
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module \$_DFFSR_NPN_ (C, S, R, D, Q);
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input C, S, R, D;
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output reg Q;
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always @(negedge C, posedge S, negedge R) begin
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if (R == 0)
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Q <= 0;
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else if (S == 1)
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Q <= 1;
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else
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Q <= D;
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end
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endmodule
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module \$_DFFSR_NPP_ (C, S, R, D, Q);
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input C, S, R, D;
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output reg Q;
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always @(negedge C, posedge S, posedge R) begin
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if (R == 1)
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Q <= 0;
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else if (S == 1)
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Q <= 1;
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else
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Q <= D;
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end
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endmodule
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module \$_DFFSR_PNN_ (C, S, R, D, Q);
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input C, S, R, D;
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output reg Q;
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always @(posedge C, negedge S, negedge R) begin
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if (R == 0)
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Q <= 0;
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else if (S == 0)
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Q <= 1;
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else
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Q <= D;
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end
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endmodule
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module \$_DFFSR_PNP_ (C, S, R, D, Q);
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input C, S, R, D;
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output reg Q;
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always @(posedge C, negedge S, posedge R) begin
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if (R == 1)
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Q <= 0;
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else if (S == 0)
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Q <= 1;
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else
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Q <= D;
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end
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endmodule
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module \$_DFFSR_PPN_ (C, S, R, D, Q);
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input C, S, R, D;
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output reg Q;
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always @(posedge C, posedge S, negedge R) begin
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if (R == 0)
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Q <= 0;
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else if (S == 1)
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Q <= 1;
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else
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Q <= D;
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end
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endmodule
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module \$_DFFSR_PPP_ (C, S, R, D, Q);
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input C, S, R, D;
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output reg Q;
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always @(posedge C, posedge S, posedge R) begin
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if (R == 1)
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Q <= 0;
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else if (S == 1)
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Q <= 1;
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else
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Q <= D;
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end
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endmodule
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module \$_DLATCH_N_ (E, D, Q);
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input E, D;
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output reg Q;
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always @* begin
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if (E == 0)
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Q <= D;
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end
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endmodule
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module \$_DLATCH_P_ (E, D, Q);
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input E, D;
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output reg Q;
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always @* begin
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if (E == 1)
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Q <= D;
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end
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endmodule
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module \$_DLATCHSR_NNN_ (E, S, R, D, Q);
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input E, S, R, D;
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output reg Q;
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always @* begin
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if (R == 0)
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Q <= 0;
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else if (S == 0)
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Q <= 1;
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else if (E == 0)
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Q <= D;
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end
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endmodule
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module \$_DLATCHSR_NNP_ (E, S, R, D, Q);
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input E, S, R, D;
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output reg Q;
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always @* begin
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if (R == 1)
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Q <= 0;
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else if (S == 0)
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Q <= 1;
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else if (E == 0)
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Q <= D;
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end
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endmodule
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module \$_DLATCHSR_NPN_ (E, S, R, D, Q);
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input E, S, R, D;
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output reg Q;
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always @* begin
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if (R == 0)
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Q <= 0;
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else if (S == 1)
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Q <= 1;
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else if (E == 0)
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Q <= D;
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end
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endmodule
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module \$_DLATCHSR_NPP_ (E, S, R, D, Q);
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input E, S, R, D;
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output reg Q;
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always @* begin
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if (R == 1)
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Q <= 0;
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else if (S == 1)
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Q <= 1;
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else if (E == 0)
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Q <= D;
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end
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endmodule
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module \$_DLATCHSR_PNN_ (E, S, R, D, Q);
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input E, S, R, D;
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output reg Q;
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always @* begin
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if (R == 0)
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Q <= 0;
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else if (S == 0)
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Q <= 1;
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else if (E == 1)
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Q <= D;
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end
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endmodule
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module \$_DLATCHSR_PNP_ (E, S, R, D, Q);
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input E, S, R, D;
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output reg Q;
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always @* begin
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if (R == 1)
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Q <= 0;
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else if (S == 0)
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Q <= 1;
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else if (E == 1)
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Q <= D;
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end
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endmodule
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module \$_DLATCHSR_PPN_ (E, S, R, D, Q);
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input E, S, R, D;
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output reg Q;
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always @* begin
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if (R == 0)
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Q <= 0;
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else if (S == 1)
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Q <= 1;
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else if (E == 1)
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Q <= D;
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end
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endmodule
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module \$_DLATCHSR_PPP_ (E, S, R, D, Q);
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input E, S, R, D;
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output reg Q;
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always @* begin
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if (R == 1)
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Q <= 0;
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else if (S == 1)
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Q <= 1;
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else if (E == 1)
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Q <= D;
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end
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endmodule
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