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AutoVCoder_round1

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35
6.69k
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float64
6.5
11.5
module ICC_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
6.805341
module ICUC_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
7.432029
module BBC1P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.778592
module BBC4P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.84676
module BBC8P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.996423
module BBC8SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.590749
module BBC16P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.820196
module BBC16SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.59108
module BBC16SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.603443
module BBC24P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.787872
module BBC24SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.554436
module BBCD1P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.570143
module BBCD4P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.707494
module BBCD8P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.759292
module BBCD16P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.697545
module BBCD24P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.594621
module BBCU1P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.709371
module BBCU4P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.858994
module BBCU4SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.528143
module BBCU8P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.854973
module BBCU8SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.593005
module BBCU16P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.892948
module BBCU16SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.570962
module BBCU16SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.703232
module BBCU24P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.80699
module BBCU24SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.534601
module BBS1P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.713837
module BBS4P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
7.057378
module BBS8P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.981331
module BBS8SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.538767
module BBS16P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.768944
module BBS24P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.747114
module BBSD1P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.61075
module BBSD4P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.948228
module BBSD8P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.856219
module BBSD8SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.503277
module BBSD16P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.705177
module BBSD24P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.660043
module BBSU1P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
7.063082
module BBSU4P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
7.40722
module BBSU4SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.963776
module BBSU8P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
7.069613
module BBSU8SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.663678
module BBSU8SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.825819
module BBSU16P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
7.025854
module BBSU16SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.685795
module BBSU16SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.779174
module BBSU24P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.991051
module BBSU24SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.694013
module BBSU24SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.752896
module BBT1P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.925749
module BBT4P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
7.221928
module BBT4SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.517507
module BBT8P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
7.185167
module BBT8SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.551309
module BBT8SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.757907
module BBT16P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
7.077955
module BBT16SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.689824
module BBT16SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.736351
module BBT24P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
7.021171
module BBT24SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.589927
module BBT24SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.635175
module BBTD1P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.54643
module BBTD4P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.908035
module BBTD8P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.608223
module BBTD16P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.74773
module BBTD24P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.586003
module BBTU1P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.88528
module BBTU4P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
7.281057
module BBTU4SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.749537
module BBTU8P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
7.018764
module BBTU8SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.55599
module BBTU8SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.83674
module BBTU16P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
7.110101
module BBTU16SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.66372
module BBTU16SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.832033
module BBTU24P_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.953933
module BBTU24SMP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.563641
module BBTU24SP_V5 ( A, EN, PAD, Y ); input A; input EN; inout PAD; output Y; buf (Y, PAD); bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); (PAD => Y) = (1, 1); endspecify `endif endmodule
6.728891
module BT1P_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
7.048007
module BT2P_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
7.542045
module BT4P_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
7.152432
module BT4SMP_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
6.653454
module BT8P_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
7.32229
module BT8SMP_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
6.788984
module BT8SP_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
6.817118
module BT12P_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
7.082106
module BT12SMP_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
6.808118
module BT12SP_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
6.612822
module BT16P_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
7.155065
module BT16SMP_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
6.821274
module BT16SP_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
6.706071
module BT24P_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
6.946353
module BT24SMP_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
6.611876
module BT24SP_V5 ( A, EN, PAD ); input A; input EN; output PAD; bufif0 (PAD, A, EN); `ifdef functional `else specify (A => PAD) = (1, 1); (EN => PAD) = (1, 1); endspecify `endif endmodule
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module BU1P_V5 ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BU2P_V5 ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BU4P_V5 ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BU4SMP_V5 ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.851186
module BU8P_V5 ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
7.3988