yosys/techlibs/common/simcells.v

/*
 *  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.
 *
 *  ---
 *
 *  The internal logic cell simulation library.
 *
 *  This verilog library contains simple simulation models for the internal
 *  logic cells ($_NOT_ , $_AND_ , ...) that are generated by the default technology
 *  mapper (see "techmap.v" in this directory) and expected by the "abc" pass.
 *
 */

module  \$_BUF_ (A, Y);
input A;
output Y;
assign Y = A;
endmodule

module  \$_NOT_ (A, Y);
input A;
output Y;
assign Y = ~A;
endmodule

module  \$_AND_ (A, B, Y);
input A, B;
output Y;
assign Y = A & B;
endmodule

module  \$_NAND_ (A, B, Y);
input A, B;
output Y;
assign Y = ~(A & B);
endmodule

module  \$_OR_ (A, B, Y);
input A, B;
output Y;
assign Y = A | B;
endmodule

module  \$_NOR_ (A, B, Y);
input A, B;
output Y;
assign Y = ~(A | B);
endmodule

module  \$_XOR_ (A, B, Y);
input A, B;
output Y;
assign Y = A ^ B;
endmodule

module  \$_XNOR_ (A, B, Y);
input A, B;
output Y;
assign Y = ~(A ^ B);
endmodule

module \$_MUX_ (A, B, S, Y);
input A, B, S;
output Y;
assign Y = S ? B : A;
endmodule

module \$_MUX4_ (A, B, C, D, S, T, Y);
input A, B, C, D, S, T;
output Y;
assign Y = T ? (S ? D : C) :
               (S ? B : A);
endmodule

module \$_MUX8_ (A, B, C, D, E, F, G, H, S, T, U, Y);
input A, B, C, D, E, F, G, H, S, T, U;
output Y;
assign Y = U ? T ? (S ? H : G) :
                   (S ? F : E) :
               T ? (S ? D : C) :
                   (S ? B : A);
endmodule

module \$_MUX16_ (A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, S, T, U, V, Y);
input A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, S, T, U, V;
output Y;
assign Y = V ? U ? T ? (S ? P : O) :
                       (S ? N : M) :
                   T ? (S ? L : K) :
                       (S ? J : I) :
               U ? T ? (S ? H : G) :
                       (S ? F : E) :
                   T ? (S ? D : C) :
                       (S ? B : A);
endmodule

module  \$_AOI3_ (A, B, C, Y);
input A, B, C;
output Y;
assign Y = ~((A & B) | C);
endmodule

module  \$_OAI3_ (A, B, C, Y);
input A, B, C;
output Y;
assign Y = ~((A | B) & C);
endmodule

module  \$_AOI4_ (A, B, C, D, Y);
input A, B, C, D;
output Y;
assign Y = ~((A & B) | (C & D));
endmodule

module  \$_OAI4_ (A, B, C, D, Y);
input A, B, C, D;
output Y;
assign Y = ~((A | B) & (C | D));
endmodule

module  \$_SR_NN_ (S, R, Q);
input S, R;
output reg Q;
always @(negedge S, negedge R) begin
	if (R == 0)
		Q <= 0;
	else if (S == 0)
		Q <= 1;
end
endmodule

module  \$_SR_NP_ (S, R, Q);
input S, R;
output reg Q;
always @(negedge S, posedge R) begin
	if (R == 1)
		Q <= 0;
	else if (S == 0)
		Q <= 1;
end
endmodule

module  \$_SR_PN_ (S, R, Q);
input S, R;
output reg Q;
always @(posedge S, negedge R) begin
	if (R == 0)
		Q <= 0;
	else if (S == 1)
		Q <= 1;
end
endmodule

module  \$_SR_PP_ (S, R, Q);
input S, R;
output reg Q;
always @(posedge S, posedge R) begin
	if (R == 1)
		Q <= 0;
	else if (S == 1)
		Q <= 1;
end
endmodule

module  \$_DFF_N_ (D, Q, C);
input D, C;
output reg Q;
always @(negedge C) begin
	Q <= D;
end
endmodule

module  \$_DFF_P_ (D, Q, C);
input D, C;
output reg Q;
always @(posedge C) begin
	Q <= D;
end
endmodule

module  \$_DFFE_NN_ (D, Q, C, E);
input D, C, E;
output reg Q;
always @(negedge C) begin
	if (!E) Q <= D;
end
endmodule

module  \$_DFFE_NP_ (D, Q, C, E);
input D, C, E;
output reg Q;
always @(negedge C) begin
	if (E) Q <= D;
end
endmodule

module  \$_DFFE_PN_ (D, Q, C, E);
input D, C, E;
output reg Q;
always @(posedge C) begin
	if (!E) Q <= D;
end
endmodule

module  \$_DFFE_PP_ (D, Q, C, E);
input D, C, E;
output reg Q;
always @(posedge C) begin
	if (E) Q <= D;
end
endmodule

module  \$_DFF_NN0_ (D, Q, C, R);
input D, C, R;
output reg Q;
always @(negedge C or negedge R) begin
	if (R == 0)
		Q <= 0;
	else
		Q <= D;
end
endmodule

module  \$_DFF_NN1_ (D, Q, C, R);
input D, C, R;
output reg Q;
always @(negedge C or negedge R) begin
	if (R == 0)
		Q <= 1;
	else
		Q <= D;
end
endmodule

module  \$_DFF_NP0_ (D, Q, C, R);
input D, C, R;
output reg Q;
always @(negedge C or posedge R) begin
	if (R == 1)
		Q <= 0;
	else
		Q <= D;
end
endmodule

module  \$_DFF_NP1_ (D, Q, C, R);
input D, C, R;
output reg Q;
always @(negedge C or posedge R) begin
	if (R == 1)
		Q <= 1;
	else
		Q <= D;
end
endmodule

module  \$_DFF_PN0_ (D, Q, C, R);
input D, C, R;
output reg Q;
always @(posedge C or negedge R) begin
	if (R == 0)
		Q <= 0;
	else
		Q <= D;
end
endmodule

module  \$_DFF_PN1_ (D, Q, C, R);
input D, C, R;
output reg Q;
always @(posedge C or negedge R) begin
	if (R == 0)
		Q <= 1;
	else
		Q <= D;
end
endmodule

module  \$_DFF_PP0_ (D, Q, C, R);
input D, C, R;
output reg Q;
always @(posedge C or posedge R) begin
	if (R == 1)
		Q <= 0;
	else
		Q <= D;
end
endmodule

module  \$_DFF_PP1_ (D, Q, C, R);
input D, C, R;
output reg Q;
always @(posedge C or posedge R) begin
	if (R == 1)
		Q <= 1;
	else
		Q <= D;
end
endmodule

module  \$_DFFSR_NNN_ (C, S, R, D, Q);
input C, S, R, D;
output reg Q;
always @(negedge C, negedge S, negedge R) begin
	if (R == 0)
		Q <= 0;
	else if (S == 0)
		Q <= 1;
	else
		Q <= D;
end
endmodule

module  \$_DFFSR_NNP_ (C, S, R, D, Q);
input C, S, R, D;
output reg Q;
always @(negedge C, negedge S, posedge R) begin
	if (R == 1)
		Q <= 0;
	else if (S == 0)
		Q <= 1;
	else
		Q <= D;
end
endmodule

module  \$_DFFSR_NPN_ (C, S, R, D, Q);
input C, S, R, D;
output reg Q;
always @(negedge C, posedge S, negedge R) begin
	if (R == 0)
		Q <= 0;
	else if (S == 1)
		Q <= 1;
	else
		Q <= D;
end
endmodule

module  \$_DFFSR_NPP_ (C, S, R, D, Q);
input C, S, R, D;
output reg Q;
always @(negedge C, posedge S, posedge R) begin
	if (R == 1)
		Q <= 0;
	else if (S == 1)
		Q <= 1;
	else
		Q <= D;
end
endmodule

module  \$_DFFSR_PNN_ (C, S, R, D, Q);
input C, S, R, D;
output reg Q;
always @(posedge C, negedge S, negedge R) begin
	if (R == 0)
		Q <= 0;
	else if (S == 0)
		Q <= 1;
	else
		Q <= D;
end
endmodule

module  \$_DFFSR_PNP_ (C, S, R, D, Q);
input C, S, R, D;
output reg Q;
always @(posedge C, negedge S, posedge R) begin
	if (R == 1)
		Q <= 0;
	else if (S == 0)
		Q <= 1;
	else
		Q <= D;
end
endmodule

module  \$_DFFSR_PPN_ (C, S, R, D, Q);
input C, S, R, D;
output reg Q;
always @(posedge C, posedge S, negedge R) begin
	if (R == 0)
		Q <= 0;
	else if (S == 1)
		Q <= 1;
	else
		Q <= D;
end
endmodule

module  \$_DFFSR_PPP_ (C, S, R, D, Q);
input C, S, R, D;
output reg Q;
always @(posedge C, posedge S, posedge R) begin
	if (R == 1)
		Q <= 0;
	else if (S == 1)
		Q <= 1;
	else
		Q <= D;
end
endmodule

module  \$_DLATCH_N_ (E, D, Q);
input E, D;
output reg Q;
always @* begin
	if (E == 0)
		Q <= D;
end
endmodule

module  \$_DLATCH_P_ (E, D, Q);
input E, D;
output reg Q;
always @* begin
	if (E == 1)
		Q <= D;
end
endmodule

module  \$_DLATCHSR_NNN_ (E, S, R, D, Q);
input E, S, R, D;
output reg Q;
always @* begin
	if (R == 0)
		Q <= 0;
	else if (S == 0)
		Q <= 1;
	else if (E == 0)
		Q <= D;
end
endmodule

module  \$_DLATCHSR_NNP_ (E, S, R, D, Q);
input E, S, R, D;
output reg Q;
always @* begin
	if (R == 1)
		Q <= 0;
	else if (S == 0)
		Q <= 1;
	else if (E == 0)
		Q <= D;
end
endmodule

module  \$_DLATCHSR_NPN_ (E, S, R, D, Q);
input E, S, R, D;
output reg Q;
always @* begin
	if (R == 0)
		Q <= 0;
	else if (S == 1)
		Q <= 1;
	else if (E == 0)
		Q <= D;
end
endmodule

module  \$_DLATCHSR_NPP_ (E, S, R, D, Q);
input E, S, R, D;
output reg Q;
always @* begin
	if (R == 1)
		Q <= 0;
	else if (S == 1)
		Q <= 1;
	else if (E == 0)
		Q <= D;
end
endmodule

module  \$_DLATCHSR_PNN_ (E, S, R, D, Q);
input E, S, R, D;
output reg Q;
always @* begin
	if (R == 0)
		Q <= 0;
	else if (S == 0)
		Q <= 1;
	else if (E == 1)
		Q <= D;
end
endmodule

module  \$_DLATCHSR_PNP_ (E, S, R, D, Q);
input E, S, R, D;
output reg Q;
always @* begin
	if (R == 1)
		Q <= 0;
	else if (S == 0)
		Q <= 1;
	else if (E == 1)
		Q <= D;
end
endmodule

module  \$_DLATCHSR_PPN_ (E, S, R, D, Q);
input E, S, R, D;
output reg Q;
always @* begin
	if (R == 0)
		Q <= 0;
	else if (S == 1)
		Q <= 1;
	else if (E == 1)
		Q <= D;
end
endmodule

module  \$_DLATCHSR_PPP_ (E, S, R, D, Q);
input E, S, R, D;
output reg Q;
always @* begin
	if (R == 1)
		Q <= 0;
	else if (S == 1)
		Q <= 1;
	else if (E == 1)
		Q <= D;
end
endmodule
initial import 2013-01-05 04:13:26 -06:00			`/*`
			`* yosys -- Yosys Open SYnthesis Suite`
			`*`
			`* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>`
Fixed trailing whitespaces 2015-07-02 04:14:30 -05:00			`*`
initial import 2013-01-05 04:13:26 -06:00			`* 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.`
Fixed trailing whitespaces 2015-07-02 04:14:30 -05:00			`*`
initial import 2013-01-05 04:13:26 -06:00			`* 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.`
			`*`
			`* ---`
			`*`
			`* The internal logic cell simulation library.`
			`*`
			`* This verilog library contains simple simulation models for the internal`
Renamed $_INV_ cell type to $_NOT_ 2014-08-15 07:11:40 -05:00			`* logic cells ($_NOT_ , $_AND_ , ...) that are generated by the default technology`
Renamed "stdcells.v" to "techmap.v" 2014-07-30 19:32:00 -05:00			`* mapper (see "techmap.v" in this directory) and expected by the "abc" pass.`
initial import 2013-01-05 04:13:26 -06:00			`*`
			`*/`

Added $_BUF_ cell type 2014-10-03 03:12:28 -05:00			`module \$_BUF_ (A, Y);`
			`input A;`
			`output Y;`
			`assign Y = A;`
			`endmodule`

Renamed $_INV_ cell type to $_NOT_ 2014-08-15 07:11:40 -05:00			`module \$_NOT_ (A, Y);`
initial import 2013-01-05 04:13:26 -06:00			`input A;`
			`output Y;`
			`assign Y = ~A;`
			`endmodule`

			`module \$_AND_ (A, B, Y);`
			`input A, B;`
			`output Y;`
			`assign Y = A & B;`
			`endmodule`

Added additional gate types: $_NAND_ $_NOR_ $_XNOR_ $_AOI3_ $_OAI3_ $_AOI4_ $_OAI4_ 2014-08-16 11:18:30 -05:00			`module \$_NAND_ (A, B, Y);`
			`input A, B;`
			`output Y;`
			`assign Y = ~(A & B);`
			`endmodule`

initial import 2013-01-05 04:13:26 -06:00			`module \$_OR_ (A, B, Y);`
			`input A, B;`
			`output Y;`
			`assign Y = A \| B;`
			`endmodule`

Added additional gate types: $_NAND_ $_NOR_ $_XNOR_ $_AOI3_ $_OAI3_ $_AOI4_ $_OAI4_ 2014-08-16 11:18:30 -05:00			`module \$_NOR_ (A, B, Y);`
			`input A, B;`
			`output Y;`
			`assign Y = ~(A \| B);`
			`endmodule`

initial import 2013-01-05 04:13:26 -06:00			`module \$_XOR_ (A, B, Y);`
			`input A, B;`
			`output Y;`
			`assign Y = A ^ B;`
			`endmodule`

Added additional gate types: $_NAND_ $_NOR_ $_XNOR_ $_AOI3_ $_OAI3_ $_AOI4_ $_OAI4_ 2014-08-16 11:18:30 -05:00			`module \$_XNOR_ (A, B, Y);`
			`input A, B;`
			`output Y;`
			`assign Y = ~(A ^ B);`
			`endmodule`

initial import 2013-01-05 04:13:26 -06:00			`module \$_MUX_ (A, B, S, Y);`
			`input A, B, S;`
Renamed stdcells_sim.v to simcells.v and fixed blackbox.v 2013-11-24 13:44:00 -06:00			`output Y;`
			`assign Y = S ? B : A;`
initial import 2013-01-05 04:13:26 -06:00			`endmodule`

Added $_MUX4_, $_MUX8_, and $_MUX16_ cell types 2015-04-05 02:45:14 -05:00			`module \$_MUX4_ (A, B, C, D, S, T, Y);`
			`input A, B, C, D, S, T;`
			`output Y;`
			`assign Y = T ? (S ? D : C) :`
			`(S ? B : A);`
			`endmodule`

			`module \$_MUX8_ (A, B, C, D, E, F, G, H, S, T, U, Y);`
			`input A, B, C, D, E, F, G, H, S, T, U;`
			`output Y;`
			`assign Y = U ? T ? (S ? H : G) :`
			`(S ? F : E) :`
			`T ? (S ? D : C) :`
			`(S ? B : A);`
			`endmodule`

			`module \$_MUX16_ (A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, S, T, U, V, Y);`
			`input A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, S, T, U, V;`
			`output Y;`
			`assign Y = V ? U ? T ? (S ? P : O) :`
			`(S ? N : M) :`
			`T ? (S ? L : K) :`
			`(S ? J : I) :`
			`U ? T ? (S ? H : G) :`
			`(S ? F : E) :`
			`T ? (S ? D : C) :`
			`(S ? B : A);`
			`endmodule`

Added additional gate types: $_NAND_ $_NOR_ $_XNOR_ $_AOI3_ $_OAI3_ $_AOI4_ $_OAI4_ 2014-08-16 11:18:30 -05:00			`module \$_AOI3_ (A, B, C, Y);`
			`input A, B, C;`
			`output Y;`
			`assign Y = ~((A & B) \| C);`
			`endmodule`

			`module \$_OAI3_ (A, B, C, Y);`
			`input A, B, C;`
			`output Y;`
			`assign Y = ~((A \| B) & C);`
			`endmodule`

			`module \$_AOI4_ (A, B, C, D, Y);`
			`input A, B, C, D;`
			`output Y;`
			`assign Y = ~((A & B) \| (C & D));`
			`endmodule`

			`module \$_OAI4_ (A, B, C, D, Y);`
			`input A, B, C, D;`
			`output Y;`
			`assign Y = ~((A \| B) & (C \| D));`
			`endmodule`

Added $_SR_[PN][PN]_, $_DFFSR_[PN][PN][PN]_, $_DLATCH_[PN]_ 2013-10-18 05:13:34 -05:00			`module \$_SR_NN_ (S, R, Q);`
			`input S, R;`
			`output reg Q;`
			`always @(negedge S, negedge R) begin`
			`if (R == 0)`
			`Q <= 0;`
			`else if (S == 0)`
			`Q <= 1;`
			`end`
			`endmodule`

			`module \$_SR_NP_ (S, R, Q);`
			`input S, R;`
			`output reg Q;`
			`always @(negedge S, posedge R) begin`
			`if (R == 1)`
			`Q <= 0;`
			`else if (S == 0)`
			`Q <= 1;`
			`end`
			`endmodule`

			`module \$_SR_PN_ (S, R, Q);`
			`input S, R;`
			`output reg Q;`
			`always @(posedge S, negedge R) begin`
			`if (R == 0)`
			`Q <= 0;`
			`else if (S == 1)`
			`Q <= 1;`
			`end`
			`endmodule`

			`module \$_SR_PP_ (S, R, Q);`
			`input S, R;`
			`output reg Q;`
			`always @(posedge S, posedge R) begin`
			`if (R == 1)`
			`Q <= 0;`
			`else if (S == 1)`
			`Q <= 1;`
			`end`
			`endmodule`

initial import 2013-01-05 04:13:26 -06:00			`module \$_DFF_N_ (D, Q, C);`
			`input D, C;`
			`output reg Q;`
			`always @(negedge C) begin`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFF_P_ (D, Q, C);`
			`input D, C;`
			`output reg Q;`
			`always @(posedge C) begin`
			`Q <= D;`
			`end`
			`endmodule`

Added $_DFFE_??_ cell types 2014-12-08 03:43:38 -06:00			`module \$_DFFE_NN_ (D, Q, C, E);`
			`input D, C, E;`
			`output reg Q;`
			`always @(negedge C) begin`
			`if (!E) Q <= D;`
			`end`
			`endmodule`

			`module \$_DFFE_NP_ (D, Q, C, E);`
			`input D, C, E;`
			`output reg Q;`
			`always @(negedge C) begin`
			`if (E) Q <= D;`
			`end`
			`endmodule`

			`module \$_DFFE_PN_ (D, Q, C, E);`
			`input D, C, E;`
			`output reg Q;`
			`always @(posedge C) begin`
			`if (!E) Q <= D;`
			`end`
			`endmodule`

			`module \$_DFFE_PP_ (D, Q, C, E);`
			`input D, C, E;`
			`output reg Q;`
			`always @(posedge C) begin`
			`if (E) Q <= D;`
			`end`
			`endmodule`

initial import 2013-01-05 04:13:26 -06:00			`module \$_DFF_NN0_ (D, Q, C, R);`
			`input D, C, R;`
			`output reg Q;`
			`always @(negedge C or negedge R) begin`
			`if (R == 0)`
			`Q <= 0;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFF_NN1_ (D, Q, C, R);`
			`input D, C, R;`
			`output reg Q;`
			`always @(negedge C or negedge R) begin`
			`if (R == 0)`
			`Q <= 1;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFF_NP0_ (D, Q, C, R);`
			`input D, C, R;`
			`output reg Q;`
			`always @(negedge C or posedge R) begin`
			`if (R == 1)`
			`Q <= 0;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFF_NP1_ (D, Q, C, R);`
			`input D, C, R;`
			`output reg Q;`
			`always @(negedge C or posedge R) begin`
			`if (R == 1)`
			`Q <= 1;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFF_PN0_ (D, Q, C, R);`
			`input D, C, R;`
			`output reg Q;`
			`always @(posedge C or negedge R) begin`
			`if (R == 0)`
			`Q <= 0;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFF_PN1_ (D, Q, C, R);`
			`input D, C, R;`
			`output reg Q;`
			`always @(posedge C or negedge R) begin`
			`if (R == 0)`
			`Q <= 1;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFF_PP0_ (D, Q, C, R);`
			`input D, C, R;`
			`output reg Q;`
			`always @(posedge C or posedge R) begin`
			`if (R == 1)`
			`Q <= 0;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFF_PP1_ (D, Q, C, R);`
			`input D, C, R;`
			`output reg Q;`
			`always @(posedge C or posedge R) begin`
			`if (R == 1)`
			`Q <= 1;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

Added $_SR_[PN][PN]_, $_DFFSR_[PN][PN][PN]_, $_DLATCH_[PN]_ 2013-10-18 05:13:34 -05:00			`module \$_DFFSR_NNN_ (C, S, R, D, Q);`
			`input C, S, R, D;`
			`output reg Q;`
			`always @(negedge C, negedge S, negedge R) begin`
			`if (R == 0)`
			`Q <= 0;`
			`else if (S == 0)`
			`Q <= 1;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFFSR_NNP_ (C, S, R, D, Q);`
			`input C, S, R, D;`
			`output reg Q;`
			`always @(negedge C, negedge S, posedge R) begin`
			`if (R == 1)`
			`Q <= 0;`
			`else if (S == 0)`
			`Q <= 1;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFFSR_NPN_ (C, S, R, D, Q);`
			`input C, S, R, D;`
			`output reg Q;`
			`always @(negedge C, posedge S, negedge R) begin`
			`if (R == 0)`
			`Q <= 0;`
			`else if (S == 1)`
			`Q <= 1;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFFSR_NPP_ (C, S, R, D, Q);`
			`input C, S, R, D;`
			`output reg Q;`
			`always @(negedge C, posedge S, posedge R) begin`
			`if (R == 1)`
			`Q <= 0;`
			`else if (S == 1)`
			`Q <= 1;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFFSR_PNN_ (C, S, R, D, Q);`
			`input C, S, R, D;`
			`output reg Q;`
			`always @(posedge C, negedge S, negedge R) begin`
			`if (R == 0)`
			`Q <= 0;`
			`else if (S == 0)`
			`Q <= 1;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFFSR_PNP_ (C, S, R, D, Q);`
			`input C, S, R, D;`
			`output reg Q;`
			`always @(posedge C, negedge S, posedge R) begin`
			`if (R == 1)`
			`Q <= 0;`
			`else if (S == 0)`
			`Q <= 1;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFFSR_PPN_ (C, S, R, D, Q);`
			`input C, S, R, D;`
			`output reg Q;`
			`always @(posedge C, posedge S, negedge R) begin`
			`if (R == 0)`
			`Q <= 0;`
			`else if (S == 1)`
			`Q <= 1;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DFFSR_PPP_ (C, S, R, D, Q);`
			`input C, S, R, D;`
			`output reg Q;`
			`always @(posedge C, posedge S, posedge R) begin`
			`if (R == 1)`
			`Q <= 0;`
			`else if (S == 1)`
			`Q <= 1;`
			`else`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DLATCH_N_ (E, D, Q);`
			`input E, D;`
			`output reg Q;`
			`always @* begin`
			`if (E == 0)`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DLATCH_P_ (E, D, Q);`
			`input E, D;`
			`output reg Q;`
			`always @* begin`
			`if (E == 1)`
			`Q <= D;`
			`end`
			`endmodule`

Added support for dlatchsr cells 2014-03-31 07:14:40 -05:00			`module \$_DLATCHSR_NNN_ (E, S, R, D, Q);`
			`input E, S, R, D;`
			`output reg Q;`
			`always @* begin`
			`if (R == 0)`
			`Q <= 0;`
			`else if (S == 0)`
			`Q <= 1;`
			`else if (E == 0)`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DLATCHSR_NNP_ (E, S, R, D, Q);`
			`input E, S, R, D;`
			`output reg Q;`
			`always @* begin`
			`if (R == 1)`
			`Q <= 0;`
			`else if (S == 0)`
			`Q <= 1;`
			`else if (E == 0)`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DLATCHSR_NPN_ (E, S, R, D, Q);`
			`input E, S, R, D;`
			`output reg Q;`
			`always @* begin`
			`if (R == 0)`
			`Q <= 0;`
			`else if (S == 1)`
			`Q <= 1;`
			`else if (E == 0)`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DLATCHSR_NPP_ (E, S, R, D, Q);`
			`input E, S, R, D;`
			`output reg Q;`
			`always @* begin`
			`if (R == 1)`
			`Q <= 0;`
			`else if (S == 1)`
			`Q <= 1;`
			`else if (E == 0)`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DLATCHSR_PNN_ (E, S, R, D, Q);`
			`input E, S, R, D;`
			`output reg Q;`
			`always @* begin`
			`if (R == 0)`
			`Q <= 0;`
			`else if (S == 0)`
			`Q <= 1;`
			`else if (E == 1)`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DLATCHSR_PNP_ (E, S, R, D, Q);`
			`input E, S, R, D;`
			`output reg Q;`
			`always @* begin`
			`if (R == 1)`
			`Q <= 0;`
			`else if (S == 0)`
			`Q <= 1;`
			`else if (E == 1)`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DLATCHSR_PPN_ (E, S, R, D, Q);`
			`input E, S, R, D;`
			`output reg Q;`
			`always @* begin`
			`if (R == 0)`
			`Q <= 0;`
			`else if (S == 1)`
			`Q <= 1;`
			`else if (E == 1)`
			`Q <= D;`
			`end`
			`endmodule`

			`module \$_DLATCHSR_PPP_ (E, S, R, D, Q);`
			`input E, S, R, D;`
			`output reg Q;`
			`always @* begin`
			`if (R == 1)`
			`Q <= 0;`
			`else if (S == 1)`
			`Q <= 1;`
			`else if (E == 1)`
			`Q <= D;`
			`end`
			`endmodule`