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Mark seq output ports with "abc_flop_q" attr

This commit is contained in:
Eddie Hung 2019-04-17 12:27:45 -07:00
parent 1eade06671
commit 58847df1b9
1 changed files with 24 additions and 24 deletions
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48
techlibs/ice40/cells_sim.v
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@ -132,18 +132,18 @@ endmodule
// Positive Edge SiliconBlue FF Cells
module SB_DFF (output `SB_DFF_REG, input C, D);
module SB_DFF ((* abc_flop_q *) output `SB_DFF_REG, input C, D);
always @(posedge C)
Q <= D;
endmodule
module SB_DFFE (output `SB_DFF_REG, input C, E, D);
module SB_DFFE ((* abc_flop_q *) output `SB_DFF_REG, input C, E, D);
always @(posedge C)
if (E)
Q <= D;
endmodule
module SB_DFFSR (output `SB_DFF_REG, input C, R, D);
module SB_DFFSR ((* abc_flop_q *) output `SB_DFF_REG, input C, R, D);
always @(posedge C)
if (R)
Q <= 0;
@ -151,7 +151,7 @@ module SB_DFFSR (output `SB_DFF_REG, input C, R, D);
Q <= D;
endmodule
module SB_DFFR (output `SB_DFF_REG, input C, R, D);
module SB_DFFR ((* abc_flop_q *) output `SB_DFF_REG, input C, R, D);
always @(posedge C, posedge R)
if (R)
Q <= 0;
@ -159,7 +159,7 @@ module SB_DFFR (output `SB_DFF_REG, input C, R, D);
Q <= D;
endmodule
module SB_DFFSS (output `SB_DFF_REG, input C, S, D);
module SB_DFFSS ((* abc_flop_q *) output `SB_DFF_REG, input C, S, D);
always @(posedge C)
if (S)
Q <= 1;
@ -167,7 +167,7 @@ module SB_DFFSS (output `SB_DFF_REG, input C, S, D);
Q <= D;
endmodule
module SB_DFFS (output `SB_DFF_REG, input C, S, D);
module SB_DFFS ((* abc_flop_q *) output `SB_DFF_REG, input C, S, D);
always @(posedge C, posedge S)
if (S)
Q <= 1;
@ -175,7 +175,7 @@ module SB_DFFS (output `SB_DFF_REG, input C, S, D);
Q <= D;
endmodule
module SB_DFFESR (output `SB_DFF_REG, input C, E, R, D);
module SB_DFFESR ((* abc_flop_q *) output `SB_DFF_REG, input C, E, R, D);
always @(posedge C)
if (E) begin
if (R)
@ -185,7 +185,7 @@ module SB_DFFESR (output `SB_DFF_REG, input C, E, R, D);
end
endmodule
module SB_DFFER (output `SB_DFF_REG, input C, E, R, D);
module SB_DFFER ((* abc_flop_q *) output `SB_DFF_REG, input C, E, R, D);
always @(posedge C, posedge R)
if (R)
Q <= 0;
@ -193,7 +193,7 @@ module SB_DFFER (output `SB_DFF_REG, input C, E, R, D);
Q <= D;
endmodule
module SB_DFFESS (output `SB_DFF_REG, input C, E, S, D);
module SB_DFFESS ((* abc_flop_q *) output `SB_DFF_REG, input C, E, S, D);
always @(posedge C)
if (E) begin
if (S)
@ -203,7 +203,7 @@ module SB_DFFESS (output `SB_DFF_REG, input C, E, S, D);
end
endmodule
module SB_DFFES (output `SB_DFF_REG, input C, E, S, D);
module SB_DFFES ((* abc_flop_q *) output `SB_DFF_REG, input C, E, S, D);
always @(posedge C, posedge S)
if (S)
Q <= 1;
@ -213,18 +213,18 @@ endmodule
// Negative Edge SiliconBlue FF Cells
module SB_DFFN (output `SB_DFF_REG, input C, D);
module SB_DFFN ((* abc_flop_q *) output `SB_DFF_REG, input C, D);
always @(negedge C)
Q <= D;
endmodule
module SB_DFFNE (output `SB_DFF_REG, input C, E, D);
module SB_DFFNE ((* abc_flop_q *) output `SB_DFF_REG, input C, E, D);
always @(negedge C)
if (E)
Q <= D;
endmodule
module SB_DFFNSR (output `SB_DFF_REG, input C, R, D);
module SB_DFFNSR ((* abc_flop_q *) output `SB_DFF_REG, input C, R, D);
always @(negedge C)
if (R)
Q <= 0;
@ -232,7 +232,7 @@ module SB_DFFNSR (output `SB_DFF_REG, input C, R, D);
Q <= D;
endmodule
module SB_DFFNR (output `SB_DFF_REG, input C, R, D);
module SB_DFFNR ((* abc_flop_q *) output `SB_DFF_REG, input C, R, D);
always @(negedge C, posedge R)
if (R)
Q <= 0;
@ -240,7 +240,7 @@ module SB_DFFNR (output `SB_DFF_REG, input C, R, D);
Q <= D;
endmodule
module SB_DFFNSS (output `SB_DFF_REG, input C, S, D);
module SB_DFFNSS ((* abc_flop_q *) output `SB_DFF_REG, input C, S, D);
always @(negedge C)
if (S)
Q <= 1;
@ -248,7 +248,7 @@ module SB_DFFNSS (output `SB_DFF_REG, input C, S, D);
Q <= D;
endmodule
module SB_DFFNS (output `SB_DFF_REG, input C, S, D);
module SB_DFFNS ((* abc_flop_q *) output `SB_DFF_REG, input C, S, D);
always @(negedge C, posedge S)
if (S)
Q <= 1;
@ -256,7 +256,7 @@ module SB_DFFNS (output `SB_DFF_REG, input C, S, D);
Q <= D;
endmodule
module SB_DFFNESR (output `SB_DFF_REG, input C, E, R, D);
module SB_DFFNESR ((* abc_flop_q *) output `SB_DFF_REG, input C, E, R, D);
always @(negedge C)
if (E) begin
if (R)
@ -266,7 +266,7 @@ module SB_DFFNESR (output `SB_DFF_REG, input C, E, R, D);
end
endmodule
module SB_DFFNER (output `SB_DFF_REG, input C, E, R, D);
module SB_DFFNER ((* abc_flop_q *) output `SB_DFF_REG, input C, E, R, D);
always @(negedge C, posedge R)
if (R)
Q <= 0;
@ -274,7 +274,7 @@ module SB_DFFNER (output `SB_DFF_REG, input C, E, R, D);
Q <= D;
endmodule
module SB_DFFNESS (output `SB_DFF_REG, input C, E, S, D);
module SB_DFFNESS ((* abc_flop_q *) output `SB_DFF_REG, input C, E, S, D);
always @(negedge C)
if (E) begin
if (S)
@ -284,7 +284,7 @@ module SB_DFFNESS (output `SB_DFF_REG, input C, E, S, D);
end
endmodule
module SB_DFFNES (output `SB_DFF_REG, input C, E, S, D);
module SB_DFFNES ((* abc_flop_q *) output `SB_DFF_REG, input C, E, S, D);
always @(negedge C, posedge S)
if (S)
Q <= 1;
@ -295,7 +295,7 @@ endmodule
// SiliconBlue RAM Cells
module SB_RAM40_4K (
output [15:0] RDATA,
(* abc_flop_q *) output [15:0] RDATA,
input RCLK, RCLKE, RE,
input [10:0] RADDR,
input WCLK, WCLKE, WE,
@ -463,7 +463,7 @@ module SB_RAM40_4K (
endmodule
module SB_RAM40_4KNR (
output [15:0] RDATA,
(* abc_flop_q *) output [15:0] RDATA,
input RCLKN, RCLKE, RE,
input [10:0] RADDR,
input WCLK, WCLKE, WE,
@ -528,7 +528,7 @@ module SB_RAM40_4KNR (
endmodule
module SB_RAM40_4KNW (
output [15:0] RDATA,
(* abc_flop_q *) output [15:0] RDATA,
input RCLK, RCLKE, RE,
input [10:0] RADDR,
input WCLKN, WCLKE, WE,
@ -593,7 +593,7 @@ module SB_RAM40_4KNW (
endmodule
module SB_RAM40_4KNRNW (
output [15:0] RDATA,
(* abc_flop_q *) output [15:0] RDATA,
input RCLKN, RCLKE, RE,
input [10:0] RADDR,
input WCLKN, WCLKE, WE,