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Sturges
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AutoVCoder_round1

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35
6.69k
score
float64
6.5
11.5
module BBT24P_3B ( 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
6.782898
module BBTD1P_3B ( 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
6.550153
module BBTD4P_3B ( 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
6.964687
module BBTD16P_3B ( 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
6.778855
module BBTD16SP_3B ( 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
6.541187
module BBTU1P_3B ( 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
6.956752
module BBTU4P_3B ( 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
7.322252
module BBTU4SMP_3B ( 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
6.838218
module BBTU8P_3B ( 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
6.888615
module BBTU8SP_3B ( 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
6.641946
module BBTU16P_3B ( 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
7.132441
module BBTU16SMP_3B ( 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
6.68256
module BBTU16SP_3B ( 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
6.868319
module BBTU24P_3B ( 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
6.802098
module BBTU24SP_3B ( 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
6.573137
module BT1P_3B ( 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
6.750462
module BT2P_3B ( 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
6.938692
module BT4P_3B ( 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
6.852667
module BT8P_3B ( 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
6.828285
module BT12P_3B ( 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
6.760401
module BT12SMP_3B ( 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
6.549411
module BT16P_3B ( 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
6.79262
module BU1P_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.751677
module BU2P_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
7.100438
module BU4P_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
7.054889
module BU4SMP_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.549195
module BU8P_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.714495
module BU8SP_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.64937
module BU12P_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.973696
module BU12SMP_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.749457
module BU12SP_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.891901
module BU16P_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
7.042289
module BU16SMP_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.696833
module BU16SP_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.9613
module BU24P_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.704068
module BU24SP_3B ( A, PAD ); input A; output PAD; buf (PAD, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.65989
module BUDD2P_3B ( A, PAD ); input A; output PAD; bufif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.516039
module BUDD4P_3B ( A, PAD ); input A; output PAD; bufif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.534787
module BUDD12P_3B ( A, PAD ); input A; output PAD; bufif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.598811
module BUDD16P_3B ( A, PAD ); input A; output PAD; bufif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.580096
module BUDU2P_3B ( A, PAD ); input A; output PAD; notif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.7864
module BUDU4P_3B ( A, PAD ); input A; output PAD; notif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.761462
module BUDU12P_3B ( A, PAD ); input A; output PAD; notif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.835614
module BUDU16P_3B ( A, PAD ); input A; output PAD; notif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.908794
module BUDU24P_3B ( A, PAD ); input A; output PAD; notif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
6.678314
module CBU1P_3B ( A, Y ); input A; output Y; buf (Y, A); `ifdef functional `else specify (A => Y) = (1, 1); endspecify `endif endmodule
6.82747
module CBU2P_3B ( A, Y ); input A; output Y; buf (Y, A); `ifdef functional `else specify (A => Y) = (1, 1); endspecify `endif endmodule
7.122852
module ICCK2P_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
6.749199
module ICCK4P_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
6.808624
module ICCK8P_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
6.555898
module ICCK16P_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
6.732651
module ICDP_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
7.212021
module ICP_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
7.347608
module ICUP_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
7.11826
module ISDP_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
7.120252
module ISP_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
7.441405
module ISUP_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
7.369057
module ITCK2P_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
6.906692
module ITCK4P_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
6.893623
module ITCK8P_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
6.652115
module ITCK16P_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
6.888238
module ITDP_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
6.993566
module ITP_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
7.164415
module ITUP_3B ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
7.321774
module BBC1P ( 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
6.625516
module BBC4P ( 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
6.649122
module BBC8P ( 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
6.703538
module BBC16P ( 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
6.504155
module BBCD4P ( 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
6.52258
module BBCD8P ( 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
6.551508
module BBCU1P ( 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
6.521808
module BBCU4P ( 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
6.697927
module BBCU8P ( 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
6.573356
module BBCU16P ( 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
6.577674
module BBS1P ( 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
6.588907
module BBS4P ( 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
6.889065
module BBS8P ( 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
6.789394
module BBS16P ( 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
6.531403
module BBSD4P ( 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
6.679403
module BBSD8P ( 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
6.527409
module BBSU1P ( 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
6.814547
module BBSU4P ( 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
7.24198
module BBSU4SMP ( 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
6.897955
module BBSU8P ( 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
6.858034
module BBSU8SP ( 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
6.593334
module BBSU16P ( 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
6.752168
module BBSU24P ( 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
6.610261
module BBT1P ( 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
6.836806
module BBT4P ( 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
7.054702
module BBT8P ( 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
7.032338
module BBT16P ( 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
6.806352
module BBT24P ( 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
6.6291
module BBTD4P ( 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
6.684863
module BBTU1P ( 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
6.68023
module BBTU4P ( 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
7.190585
module BBTU4SMP ( 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
6.577732
module BBTU8P ( 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
6.845545
module BBTU8SP ( 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
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module BBTU16P ( 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
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module BBTU24P ( 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
6.57495