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AutoVCoder_round1

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6.5
11.5
module BU8SMP_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 BU8SP_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 BU12P_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 BU12SMP_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 BU12SP_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 BU16P_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 BU16SMP_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 BU16SP_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 BU24P_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 BU24SMP_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 BU24SP_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 BUDD2P_V5 ( A, PAD ); input A; output PAD; bufif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BUDD4P_V5 ( A, PAD ); input A; output PAD; bufif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BUDD8P_V5 ( A, PAD ); input A; output PAD; bufif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BUDD12P_V5 ( A, PAD ); input A; output PAD; bufif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BUDD16P_V5 ( A, PAD ); input A; output PAD; bufif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BUDD24P_V5 ( A, PAD ); input A; output PAD; bufif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BUDU1P_V5 ( A, PAD ); input A; output PAD; notif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BUDU2P_V5 ( A, PAD ); input A; output PAD; notif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BUDU4P_V5 ( A, PAD ); input A; output PAD; notif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BUDU8P_V5 ( A, PAD ); input A; output PAD; notif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BUDU12P_V5 ( A, PAD ); input A; output PAD; notif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BUDU16P_V5 ( A, PAD ); input A; output PAD; notif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module BUDU24P_V5 ( A, PAD ); input A; output PAD; notif0 (PAD, 0, A); `ifdef functional `else specify (A => PAD) = (1, 1); endspecify `endif endmodule
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module CBU1P_V5 ( A, Y ); input A; output Y; buf (Y, A); `ifdef functional `else specify (A => Y) = (1, 1); endspecify `endif endmodule
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module CBU2P_V5 ( A, Y ); input A; output Y; buf (Y, A); `ifdef functional `else specify (A => Y) = (1, 1); endspecify `endif endmodule
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module ICCK2P_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module ICCK4P_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module ICDP_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module ICP_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module ICUP_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module ISDP_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module ISP_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module ISUP_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module ITCK2P_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module ITCK4P_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module ITDP_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module ITP_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module ITUP_V5 ( PAD, Y ); input PAD; output Y; buf (Y, PAD); `ifdef functional `else specify (PAD => Y) = (1, 1); endspecify `endif endmodule
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module BBC1P_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
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module BBC4P_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
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module BBC4SMP_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
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module BBC8P_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
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module BBC8SP_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
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module BBC16P_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
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module BBC16SMP_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
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module BBC16SP_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
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module BBC24P_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
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module BBCD1P_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
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module BBCD4P_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
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module BBCD4SMP_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
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module BBCD8P_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
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module BBCD8SP_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
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module BBCD16P_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
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module BBCD16SP_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
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module BBCD24P_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
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module BBCU1P_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
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module BBCU4P_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
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module BBCU4SMP_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
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module BBCU8P_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
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module BBCU8SP_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
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module BBCU16P_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
6.911985
module BBCU16SMP_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
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module BBCU16SP_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
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module BBCU24P_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
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module BBS1P_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
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module BBS4P_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
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module BBS4SMP_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
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module BBS8P_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
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module BBS16P_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
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module BBS16SP_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
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module BBS24P_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
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module BBSD1P_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
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module BBSD4P_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
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module BBSD4SMP_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
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module BBSD8P_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
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module BBSD8SP_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
6.50756
module BBSD16P_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
6.802267
module BBSD16SP_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
6.575751
module BBSD24P_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
6.57169
module BBSU1P_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
7.078755
module BBSU4P_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
7.454321
module BBSU4SMP_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
7.189555
module BBSU8P_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
6.965458
module BBSU8SMP_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
6.542726
module BBSU8SP_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
6.746588
module BBSU16P_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
7.157764
module BBSU16SMP_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
6.763775
module BBSU16SP_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
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module BBSU24P_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
6.881354
module BBSU24SMP_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
6.625945
module BBSU24SP_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
6.71677
module BBT1P_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
6.93048
module BBT4P_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
7.330671
module BBT4SMP_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
6.698675
module BBT8P_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
6.909958
module BBT8SP_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
6.67916
module BBT16P_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
7.080574
module BBT16SMP_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
6.594098
module BBT16SP_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
6.706454