code stringlengths 35 6.69k | score float64 6.5 11.5 |
|---|---|
module st_weight_addr_gen_Add_33Sx32U_33S_4_2 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [32:0] in2;
input [31:0] in1;
output [32:0] out1;
wire [32:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_33Sx32U_33S_4_3 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [32:0] in2;
input [31:0] in1;
output [32:0] out1;
wire [32:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_33Sx32U_33S_4_4 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [32:0] in2;
input [31:0] in1;
output [32:0] out1;
wire [32:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_33Sx32U_33S_4_5 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [32:0] in2;
input [31:0] in1;
output [32:0] out1;
wire [32:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_33Sx32U_33S_4_6 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [32:0] in2;
input [31:0] in1;
output [32:0] out1;
wire [32:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_33Sx32U_33S_4_7 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [32:0] in2;
input [31:0] in1;
output [32:0] out1;
wire [32:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_33Sx32U_33S_4_8 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [32:0] in2;
input [31:0] in1;
output [32:0] out1;
wire [32:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_33Sx32U_33S_4_9 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [32:0] in2;
input [31:0] in1;
output [32:0] out1;
wire [32:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_1 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_0 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_1 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_10 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_11 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_12 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_13 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_14 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_2 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_3 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_4 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_5 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_6 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_7 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_8 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Add_8Ux8U_9U_4_9 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [7:0] in2, in1;
output [8:0] out1;
wire [8:0] asc001;
assign asc001 = +(in2) + (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_1 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_0 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_1 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_10 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_11 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_12 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_2 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_3 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_4 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_5 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_6 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_7 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_8 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_2S_1U_4_9 (
in1,
out1
); /* architecture "behavioural" */
input [1:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_1 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4_0 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4_1 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4_10 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4_11 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4_2 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4_3 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4_4 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4_5 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4_6 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4_7 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4_8 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_AndReduction_4S_1U_4_9 (
in1,
out1
); /* architecture "behavioural" */
input [3:0] in1;
output out1;
wire asc001;
assign asc001 = (&in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_1 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4_0 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4_1 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4_10 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4_11 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4_2 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4_3 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4_4 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4_5 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4_6 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4_7 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4_8 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_And_1Ux1U_1U_4_9 (
in2,
in1,
out1
); /* architecture "behavioural" */
input in2, in1;
output out1;
wire asc001;
assign asc001 = (in2) & (in1);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_1 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4_0 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4_1 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4_10 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4_11 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4_2 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4_3 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4_4 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4_5 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4_6 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4_7 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4_8 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi1u16u16_4_9 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000000001);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_1 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_0 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_1 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_10 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_11 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_12 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_13 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_14 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_2 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_3 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_4 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_5 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_6 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_7 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_8 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_EqSubi32u16u16_4_9 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [15:0] in2, in1;
output out1;
wire asc001;
wire [16:0] asc003;
assign asc003 = +(in1) - (17'B00000000000100000);
assign asc001 = ({{5{asc003[16]}}, asc003} == in2);
assign out1 = asc001;
endmodule
| 6.57659 |
module st_weight_addr_gen_Equal_17Sx16U_1U_1 (
in2,
in1,
out1
); /* architecture "behavioural" */
input [16:0] in2;
input [15:0] in1;
output out1;
wire asc001;
assign asc001 = (in1 == {{5{in2[16]}}, in2});
assign out1 = asc001;
endmodule
| 6.57659 |
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