yosys/techlibs/xilinx/abc_ff.v

/*
 *  yosys -- Yosys Open SYnthesis Suite
 *
 *  Copyright (C) 2012  Clifford Wolf <clifford@clifford.at>
 *                2019  Eddie Hung    <eddie@fpgeh.com>
 *
 *  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 FDRE (output reg Q, input C, CE, D, R);
  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;
  wire \$nextQ ;
  \$__ABC_FDRE #(
    .INIT(|0),
    .IS_C_INVERTED(IS_C_INVERTED),
    .IS_D_INVERTED(IS_D_INVERTED),
    .IS_R_INVERTED(IS_R_INVERTED),
    .\$abc_flop_clk_pol (!IS_C_INVERTED),
    .\$abc_flop_en_pol (1'b1)
  ) _TECHMAP_REPLACE_ (
    .D(D), .Q(\$nextQ ), .\$pastQ (Q), .C(C), .CE(CE), .R(R)
  );
  \$__ABC_FF_ abc_dff (.D(\$nextQ ), .Q(Q));
endmodule
module FDRE_1 (output reg Q, input C, CE, D, R);
  parameter [0:0] INIT = 1'b0;
  wire \$nextQ ;
  \$__ABC_FDRE_1 #(.INIT(|0),
    .\$abc_flop_clk_pol (1'b1),
    .\$abc_flop_en_pol (1'b1)
  ) _TECHMAP_REPLACE_ (
    .D(D), .Q(\$nextQ ), .\$pastQ (Q), .C(C), .CE(CE), .R(R)
  );
  \$__ABC_FF_ abc_dff (.D(\$nextQ ), .Q(Q));
endmodule

module FDCE (output reg Q, input C, CE, D, CLR);
  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;
  wire \$nextQ , \$currQ ;
  \$__ABC_FDCE #(
    .INIT(|0),
    .IS_C_INVERTED(IS_C_INVERTED),
    .IS_D_INVERTED(IS_D_INVERTED),
    .IS_CLR_INVERTED(IS_CLR_INVERTED),
    .\$abc_flop_clk_pol (!IS_C_INVERTED),
    .\$abc_flop_en_pol (1'b1)
  ) _TECHMAP_REPLACE_ (
    .D(D), .Q(\$nextQ ), .\$pastQ (Q), .C(C), .CE(CE), .CLR(CLR)
  );
  \$__ABC_FF_ abc_dff (.D(\$nextQ ), .Q(\$currQ ));
  generate
    if (IS_CLR_INVERTED)
      \$__ABC_FD_ASYNC_MUX abc_async_mux (.A(\$currQ ), .B(1'b0), .S(CLR), .Y(Q));
    else
      \$__ABC_FD_ASYNC_MUX abc_async_mux (.A(1'b0), .B(\$currQ ), .S(CLR), .Y(Q));
  endgenerate
endmodule
module FDCE_1 (output reg Q, input C, CE, D, CLR);
  parameter [0:0] INIT = 1'b0;
  wire \$nextQ , \$currQ ;
  \$__ABC_FDCE_1 #(
    .INIT(|0),
    .\$abc_flop_clk_pol (1'b1),
    .\$abc_flop_en_pol (1'b1)
  ) _TECHMAP_REPLACE_ (
    .D(D), .Q(\$nextQ ), .\$pastQ (Q), .C(C), .CE(CE), .CLR(CLR)
  );
  \$__ABC_FF_ abc_dff (.D(\$nextQ ), .Q(\$currQ ));
  \$__ABC_FD_ASYNC_MUX abc_async_mux (.A(\$currQ ), .B(1'b0), .S(CLR), .Y(Q));
endmodule

module FDPE (output reg Q, input C, CE, D, PRE);
  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_PRE_INVERTED = 1'b0;
  wire \$nextQ , \$currQ ;
  \$__ABC_FDPE #(
    .INIT(|0),
    .IS_C_INVERTED(IS_C_INVERTED),
    .IS_D_INVERTED(IS_D_INVERTED),
    .IS_PRE_INVERTED(IS_PRE_INVERTED),
    .\$abc_flop_clk_pol (!IS_C_INVERTED),
    .\$abc_flop_en_pol (1'b1)
  ) _TECHMAP_REPLACE_ (
    .D(D), .Q(\$nextQ ), .\$pastQ (Q), .C(C), .CE(CE), .PRE(PRE)
  );
  \$__ABC_FF_ abc_dff (.D(\$nextQ ), .Q(\$currQ ));
  generate
    if (IS_PRE_INVERTED)
      \$__ABC_FD_ASYNC_MUX abc_async_mux (.A(\$currQ ), .B(1'b1), .S(PRE), .Y(Q));
    else
      \$__ABC_FD_ASYNC_MUX abc_async_mux (.A(1'b1), .B(\$currQ ), .S(PRE), .Y(Q));
  endgenerate
endmodule
module FDPE_1 (output reg Q, input C, CE, D, PRE);
  parameter [0:0] INIT = 1'b0;
  wire \$nextQ , \$currQ ;
  \$__ABC_FDPE_1 #(
    .INIT(|0),
    .\$abc_flop_clk_pol (1'b1),
    .\$abc_flop_en_pol (1'b1)
  ) _TECHMAP_REPLACE_ (
    .D(D), .Q(\$nextQ ), .\$pastQ (Q), .C(C), .CE(CE), .PRE(PRE)
  );
  \$__ABC_FF_ abc_dff (.D(\$nextQ ), .Q(\$currQ ));
  \$__ABC_FD_ASYNC_MUX abc_async_mux (.A(\$currQ ), .B(1'b1), .S(PRE), .Y(Q));
endmodule

`ifndef _ABC
module \$__ABC_FF_ (input C, D, output Q);
endmodule

(* abc_box_id = 1000 *)
module \$__ABC_FD_ASYNC_MUX (input A, B, S, output Q);
//  assign Q = S ? B : A;
endmodule

(* abc_box_id = 1001, lib_whitebox, abc_flop = "FDRE" *)
module \$__ABC_FDRE ((* abc_flop_q *)   output Q,
                     (* abc_flop_clk *) input C,
                     (* abc_flop_en *)  input CE,
                     (* abc_flop_d *)   input D,
                     input R, \$pastQ );
  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;
  parameter \$abc_flop_clk_pol = ~IS_C_INVERTED;
  parameter \$abc_flop_en_pol = 1'b1;
  assign Q = (R ^ IS_R_INVERTED) ? 1'b0 : (CE ? (D ^ IS_D_INVERTED) : \$pastQ );
endmodule

(* abc_box_id = 1002, lib_whitebox, abc_flop = "FDRE_1" *)
module \$__ABC_FDRE_1 ((* abc_flop_q *)   output Q,
                       (* abc_flop_clk *) input C,
                       (* abc_flop_en *)  input CE,
                       (* abc_flop_d *)   input D,
                       input R, \$pastQ );
  parameter [0:0] INIT = 1'b0;
  parameter \$abc_flop_clk_pol = 1'b0;
  parameter \$abc_flop_en_pol = 1'b1;
  assign Q = R ? 1'b0 : (CE ? D : \$pastQ );
endmodule

(* abc_box_id = 1003, lib_whitebox, abc_flop = "FDCE" *)
module \$__ABC_FDCE ((* abc_flop_q *)   output Q,
                     (* abc_flop_clk *) input C,
                     (* abc_flop_en *)  input CE,
                     (* abc_flop_d *)   input D,
                     input CLR, \$pastQ );
  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;
  parameter \$abc_flop_clk_pol = ~IS_C_INVERTED;
  parameter \$abc_flop_en_pol = 1'b1;
  assign Q = (CE && !(CLR ^ IS_CLR_INVERTED)) ? (D ^ IS_D_INVERTED) : \$pastQ ;
endmodule

(* abc_box_id = 1004, lib_whitebox, abc_flop = "FDCE_1" *)
module \$__ABC_FDCE_1 ((* abc_flop_q *)   output Q,
                       (* abc_flop_clk *) input C,
                       (* abc_flop_en *)  input CE,
                       (* abc_flop_d *)   input D,
                       input CLR, \$pastQ );
  parameter [0:0] INIT = 1'b0;
  parameter \$abc_flop_clk_pol = 1'b0;
  parameter \$abc_flop_en_inv = 1'b1;
  assign Q = (CE && !CLR) ? D : \$pastQ ;
endmodule

(* abc_box_id = 1005, lib_whitebox, abc_flop = "FDPE" *)
module \$__ABC_FDPE ((* abc_flop_q *)   output Q,
                     (* abc_flop_clk *) input C,
                     (* abc_flop_en *)  input CE,
                     (* abc_flop_d *)   input D,
                     input PRE, \$pastQ );
  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_PRE_INVERTED = 1'b0;
  parameter \$abc_flop_clk_pol = ~IS_C_INVERTED;
  parameter \$abc_flop_en_pol = 1'b1;
  assign Q = (CE && !(PRE ^ IS_PRE_INVERTED)) ? (D ^ IS_D_INVERTED) : \$pastQ ;
endmodule

(* abc_box_id = 1006, lib_whitebox, abc_flop = "FDPE_1" *)
module \$__ABC_FDPE_1 ((* abc_flop_q *)   output Q,
                       (* abc_flop_clk *) input C,
                       (* abc_flop_en *)  input CE,
                       (* abc_flop_d *)   input D,
                       input PRE, \$pastQ );
  parameter [0:0] INIT = 1'b0;
  parameter \$abc_flop_clk_pol = 1'b0;
  parameter \$abc_flop_en_pol = 1'b1;
  assign Q = (CE && !PRE) ? D : \$pastQ ;
endmodule

`endif
Add +/xilinx/abc_ff 2019-06-16 00:41:29 -05:00			`/*`
			`* yosys -- Yosys Open SYnthesis Suite`
			`*`
			`* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>`
			`* 2019 Eddie Hung <eddie@fpgeh.com>`
			`*`
			`* 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.`
			`*`
			`*/`

			`// ============================================================================`

Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`module FDRE (output reg Q, input C, CE, D, R);`
			`parameter [0:0] INIT = 1'b0;`
			`parameter [0:0] IS_C_INVERTED = 1'b0;`
			`parameter [0:0] IS_D_INVERTED = 1'b0;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`parameter [0:0] IS_R_INVERTED = 1'b0;`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`wire \$nextQ ;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`\$__ABC_FDRE #(`
			`.INIT(\|0),`
			`.IS_C_INVERTED(IS_C_INVERTED),`
			`.IS_D_INVERTED(IS_D_INVERTED),`
			`.IS_R_INVERTED(IS_R_INVERTED),`
			`.\$abc_flop_clk_pol (!IS_C_INVERTED),`
			`.\$abc_flop_en_pol (1'b1)`
			`) _TECHMAP_REPLACE_ (`
			`.D(D), .Q(\$nextQ ), .\$pastQ (Q), .C(C), .CE(CE), .R(R)`
			`);`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`\$__ABC_FF_ abc_dff (.D(\$nextQ ), .Q(Q));`
			`endmodule`
			`module FDRE_1 (output reg Q, input C, CE, D, R);`
			`parameter [0:0] INIT = 1'b0;`
			`wire \$nextQ ;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`\$__ABC_FDRE_1 #(.INIT(\|0),`
			`.\$abc_flop_clk_pol (1'b1),`
			`.\$abc_flop_en_pol (1'b1)`
			`) _TECHMAP_REPLACE_ (`
			`.D(D), .Q(\$nextQ ), .\$pastQ (Q), .C(C), .CE(CE), .R(R)`
			`);`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`\$__ABC_FF_ abc_dff (.D(\$nextQ ), .Q(Q));`
			`endmodule`

			`module FDCE (output reg Q, input C, CE, D, CLR);`
			`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;`
			`wire \$nextQ , \$currQ ;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`\$__ABC_FDCE #(`
			`.INIT(\|0),`
			`.IS_C_INVERTED(IS_C_INVERTED),`
			`.IS_D_INVERTED(IS_D_INVERTED),`
			`.IS_CLR_INVERTED(IS_CLR_INVERTED),`
			`.\$abc_flop_clk_pol (!IS_C_INVERTED),`
			`.\$abc_flop_en_pol (1'b1)`
			`) _TECHMAP_REPLACE_ (`
			`.D(D), .Q(\$nextQ ), .\$pastQ (Q), .C(C), .CE(CE), .CLR(CLR)`
			`);`
Use \$currQ 2019-07-10 21:01:13 -05:00			`\$__ABC_FF_ abc_dff (.D(\$nextQ ), .Q(\$currQ ));`
			`generate`
Another typo 2019-07-10 21:05:53 -05:00			`if (IS_CLR_INVERTED)`
Use \$currQ 2019-07-10 21:01:13 -05:00			`\$__ABC_FD_ASYNC_MUX abc_async_mux (.A(\$currQ ), .B(1'b0), .S(CLR), .Y(Q));`
			`else`
			`\$__ABC_FD_ASYNC_MUX abc_async_mux (.A(1'b0), .B(\$currQ ), .S(CLR), .Y(Q));`
			`endgenerate`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`endmodule`
			`module FDCE_1 (output reg Q, input C, CE, D, CLR);`
			`parameter [0:0] INIT = 1'b0;`
			`wire \$nextQ , \$currQ ;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`\$__ABC_FDCE_1 #(`
			`.INIT(\|0),`
			`.\$abc_flop_clk_pol (1'b1),`
			`.\$abc_flop_en_pol (1'b1)`
			`) _TECHMAP_REPLACE_ (`
			`.D(D), .Q(\$nextQ ), .\$pastQ (Q), .C(C), .CE(CE), .CLR(CLR)`
			`);`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`\$__ABC_FF_ abc_dff (.D(\$nextQ ), .Q(\$currQ ));`
Fix typo, and have !{PRE,CLR} behave as CE 2019-07-10 19:15:49 -05:00			`\$__ABC_FD_ASYNC_MUX abc_async_mux (.A(\$currQ ), .B(1'b0), .S(CLR), .Y(Q));`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`endmodule`

			`module FDPE (output reg Q, input C, CE, D, PRE);`
			`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_PRE_INVERTED = 1'b0;`
			`wire \$nextQ , \$currQ ;`
Another typo 2019-07-10 21:59:24 -05:00			`\$__ABC_FDPE #(`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`.INIT(\|0),`
			`.IS_C_INVERTED(IS_C_INVERTED),`
			`.IS_D_INVERTED(IS_D_INVERTED),`
			`.IS_PRE_INVERTED(IS_PRE_INVERTED),`
			`.\$abc_flop_clk_pol (!IS_C_INVERTED),`
			`.\$abc_flop_en_pol (1'b1)`
			`) _TECHMAP_REPLACE_ (`
			`.D(D), .Q(\$nextQ ), .\$pastQ (Q), .C(C), .CE(CE), .PRE(PRE)`
			`);`
Use \$currQ 2019-07-10 21:01:13 -05:00			`\$__ABC_FF_ abc_dff (.D(\$nextQ ), .Q(\$currQ ));`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`generate`
			`if (IS_PRE_INVERTED)`
Fix typo, and have !{PRE,CLR} behave as CE 2019-07-10 19:15:49 -05:00			`\$__ABC_FD_ASYNC_MUX abc_async_mux (.A(\$currQ ), .B(1'b1), .S(PRE), .Y(Q));`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`else`
Fix typo, and have !{PRE,CLR} behave as CE 2019-07-10 19:15:49 -05:00			`\$__ABC_FD_ASYNC_MUX abc_async_mux (.A(1'b1), .B(\$currQ ), .S(PRE), .Y(Q));`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`endgenerate`
			`endmodule`
Another typo 2019-07-11 00:33:35 -05:00			`module FDPE_1 (output reg Q, input C, CE, D, PRE);`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`parameter [0:0] INIT = 1'b0;`
			`wire \$nextQ , \$currQ ;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`\$__ABC_FDPE_1 #(`
			`.INIT(\|0),`
			`.\$abc_flop_clk_pol (1'b1),`
			`.\$abc_flop_en_pol (1'b1)`
			`) _TECHMAP_REPLACE_ (`
			`.D(D), .Q(\$nextQ ), .\$pastQ (Q), .C(C), .CE(CE), .PRE(PRE)`
			`);`
Use \$currQ 2019-07-10 21:01:13 -05:00			`\$__ABC_FF_ abc_dff (.D(\$nextQ ), .Q(\$currQ ));`
Fix typo, and have !{PRE,CLR} behave as CE 2019-07-10 19:15:49 -05:00			`\$__ABC_FD_ASYNC_MUX abc_async_mux (.A(\$currQ ), .B(1'b1), .S(PRE), .Y(Q));`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`endmodule`

			`ifndef _ABC
Add +/xilinx/abc_ff 2019-06-16 00:41:29 -05:00			`module \$__ABC_FF_ (input C, D, output Q);`
			`endmodule`

Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`(* abc_box_id = 1000 *)`
Fix typo, and have !{PRE,CLR} behave as CE 2019-07-10 19:15:49 -05:00			`module \$__ABC_FD_ASYNC_MUX (input A, B, S, output Q);`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`// assign Q = S ? B : A;`
			`endmodule`

Change how to specify flops to ABC again 2019-07-10 19:54:56 -05:00			`(* abc_box_id = 1001, lib_whitebox, abc_flop = "FDRE" *)`
			`module \$__ABC_FDRE ((* abc_flop_q *) output Q,`
			`(* abc_flop_clk *) input C,`
			`(* abc_flop_en *) input CE,`
			`(* abc_flop_d *) input D,`
			`input R, \$pastQ );`
Add +/xilinx/abc_ff 2019-06-16 00:41:29 -05:00			`parameter [0:0] INIT = 1'b0;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`parameter [0:0] IS_C_INVERTED = 1'b0;`
Add +/xilinx/abc_ff 2019-06-16 00:41:29 -05:00			`parameter [0:0] IS_D_INVERTED = 1'b0;`
			`parameter [0:0] IS_R_INVERTED = 1'b0;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`parameter \$abc_flop_clk_pol = ~IS_C_INVERTED;`
			`parameter \$abc_flop_en_pol = 1'b1;`
Cleanup 2019-06-16 12:42:00 -05:00			`assign Q = (R ^ IS_R_INVERTED) ? 1'b0 : (CE ? (D ^ IS_D_INVERTED) : \$pastQ );`
Add +/xilinx/abc_ff 2019-06-16 00:41:29 -05:00			`endmodule`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00
Change how to specify flops to ABC again 2019-07-10 19:54:56 -05:00			`(* abc_box_id = 1002, lib_whitebox, abc_flop = "FDRE_1" *)`
			`module \$__ABC_FDRE_1 ((* abc_flop_q *) output Q,`
			`(* abc_flop_clk *) input C,`
			`(* abc_flop_en *) input CE,`
			`(* abc_flop_d *) input D,`
			`input R, \$pastQ );`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`parameter [0:0] INIT = 1'b0;`
Fix clk_pol for FD*_1 2019-07-10 22:10:20 -05:00			`parameter \$abc_flop_clk_pol = 1'b0;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`parameter \$abc_flop_en_pol = 1'b1;`
Remove params from FD*_1 variants 2019-07-10 19:17:54 -05:00			`assign Q = R ? 1'b0 : (CE ? D : \$pastQ );`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`endmodule`

Change how to specify flops to ABC again 2019-07-10 19:54:56 -05:00			`(* abc_box_id = 1003, lib_whitebox, abc_flop = "FDCE" *)`
			`module \$__ABC_FDCE ((* abc_flop_q *) output Q,`
			`(* abc_flop_clk *) input C,`
			`(* abc_flop_en *) input CE,`
			`(* abc_flop_d *) input D,`
			`input CLR, \$pastQ );`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`parameter [0:0] INIT = 1'b0;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`parameter [0:0] IS_C_INVERTED = 1'b0;`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`parameter [0:0] IS_D_INVERTED = 1'b0;`
Fix typo, and have !{PRE,CLR} behave as CE 2019-07-10 19:15:49 -05:00			`parameter [0:0] IS_CLR_INVERTED = 1'b0;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`parameter \$abc_flop_clk_pol = ~IS_C_INVERTED;`
			`parameter \$abc_flop_en_pol = 1'b1;`
Fix typo, and have !{PRE,CLR} behave as CE 2019-07-10 19:15:49 -05:00			`assign Q = (CE && !(CLR ^ IS_CLR_INVERTED)) ? (D ^ IS_D_INVERTED) : \$pastQ ;`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`endmodule`

Change how to specify flops to ABC again 2019-07-10 19:54:56 -05:00			`(* abc_box_id = 1004, lib_whitebox, abc_flop = "FDCE_1" *)`
			`module \$__ABC_FDCE_1 ((* abc_flop_q *) output Q,`
			`(* abc_flop_clk *) input C,`
			`(* abc_flop_en *) input CE,`
			`(* abc_flop_d *) input D,`
			`input CLR, \$pastQ );`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`parameter [0:0] INIT = 1'b0;`
Fix clk_pol for FD*_1 2019-07-10 22:10:20 -05:00			`parameter \$abc_flop_clk_pol = 1'b0;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`parameter \$abc_flop_en_inv = 1'b1;`
Remove params from FD*_1 variants 2019-07-10 19:17:54 -05:00			`assign Q = (CE && !CLR) ? D : \$pastQ ;`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`endmodule`

Change how to specify flops to ABC again 2019-07-10 19:54:56 -05:00			`(* abc_box_id = 1005, lib_whitebox, abc_flop = "FDPE" *)`
			`module \$__ABC_FDPE ((* abc_flop_q *) output Q,`
			`(* abc_flop_clk *) input C,`
			`(* abc_flop_en *) input CE,`
			`(* abc_flop_d *) input D,`
			`input PRE, \$pastQ );`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`parameter [0:0] INIT = 1'b0;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`parameter [0:0] IS_C_INVERTED = 1'b0;`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`parameter [0:0] IS_D_INVERTED = 1'b0;`
Fix typo, and have !{PRE,CLR} behave as CE 2019-07-10 19:15:49 -05:00			`parameter [0:0] IS_PRE_INVERTED = 1'b0;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`parameter \$abc_flop_clk_pol = ~IS_C_INVERTED;`
			`parameter \$abc_flop_en_pol = 1'b1;`
Fix typo, and have !{PRE,CLR} behave as CE 2019-07-10 19:15:49 -05:00			`assign Q = (CE && !(PRE ^ IS_PRE_INVERTED)) ? (D ^ IS_D_INVERTED) : \$pastQ ;`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`endmodule`

Change how to specify flops to ABC again 2019-07-10 19:54:56 -05:00			`(* abc_box_id = 1006, lib_whitebox, abc_flop = "FDPE_1" *)`
			`module \$__ABC_FDPE_1 ((* abc_flop_q *) output Q,`
			`(* abc_flop_clk *) input C,`
			`(* abc_flop_en *) input CE,`
			`(* abc_flop_d *) input D,`
			`input PRE, \$pastQ );`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`parameter [0:0] INIT = 1'b0;`
Fix clk_pol for FD*_1 2019-07-10 22:10:20 -05:00			`parameter \$abc_flop_clk_pol = 1'b0;`
Preserve all parameters, plus some extra ones for clk/en polarity 2019-07-10 20:57:11 -05:00			`parameter \$abc_flop_en_pol = 1'b1;`
Remove params from FD*_1 variants 2019-07-10 19:17:54 -05:00			`assign Q = (CE && !PRE) ? D : \$pastQ ;`
Move ABC FF stuff to abc_ff.v; add support for other FD* types 2019-07-10 19:06:05 -05:00			`endmodule`

			`endif