//////////////////////////////////////////////////////////////////////////////// // Copyright (c) 1995-2011 Xilinx, Inc. All rights reserved. //////////////////////////////////////////////////////////////////////////////// // ____ ____ // / /\/ / // /___/ \ / Vendor: Xilinx // \ \ \/ Version : 13.3 // \ \ Application : sch2hdl // / / Filename : sev_seg_disp.vf // /___/ /\ Timestamp : 02/15/2012 15:00:08 // \ \ / \ // \___\/\___\ // //Command: sch2hdl -intstyle ise -family spartan6 -verilog "X:/My Documents/ec311/lab1/sev_seg_disp.vf" -w "X:/My Documents/ec311/lab1/sev_seg_disp.sch" //Design Name: sev_seg_disp //Device: spartan6 //Purpose: // This verilog netlist is translated from an ECS schematic.It can be // synthesized and simulated, but it should not be modified. // `timescale 1ns / 1ps module sev_seg_disp(A, B, C, D, AN0, AN1, AN2, AN3, a_out, b_out, c_out, d_out, e_out, f_out, g_out, sign); input A; input B; input C; input D; output AN0; output AN1; output AN2; output AN3; output a_out; output b_out; output c_out; output d_out; output e_out; output f_out; output g_out; output sign; wire A_BAR; wire B_BAR; wire C_BAR; wire D_BAR; wire XLXN_14; wire XLXN_24; wire XLXN_61; wire XLXN_62; wire XLXN_63; wire XLXN_64; wire XLXN_65; wire XLXN_91; wire XLXN_92; wire XLXN_93; wire XLXN_94; wire XLXN_105; wire XLXN_113; wire XLXN_114; wire XLXN_125; wire XLXN_126; wire XLXN_128; wire XLXN_129; wire XLXN_130; wire XLXN_131; wire XLXN_145; wire XLXN_146; wire XLXN_147; wire XLXN_148; wire XLXN_149; wire XLXN_151; wire XLXN_155; wire XLXN_156; wire XLXN_158; wire XLXN_160; wire XLXN_162; wire XLXN_165; BUF XLXI_5 (.I(XLXN_14), .O(AN0)); BUF XLXI_6 (.I(XLXN_14), .O(AN1)); BUF XLXI_7 (.I(XLXN_14), .O(AN2)); BUF XLXI_8 (.I(XLXN_24), .O(AN3)); GND XLXI_11 (.G(XLXN_24)); VCC XLXI_12 (.P(XLXN_14)); AND3 XLXI_30 (.I0(B), .I1(C_BAR), .I2(D), .O(XLXN_61)); AND3 XLXI_31 (.I0(A_BAR), .I1(D), .I2(C), .O(XLXN_62)); AND2 XLXI_32 (.I0(B_BAR), .I1(D_BAR), .O(XLXN_63)); AND2 XLXI_33 (.I0(C), .I1(D_BAR), .O(XLXN_64)); OR5 XLXI_34 (.I0(XLXN_65), .I1(XLXN_64), .I2(XLXN_63), .I3(XLXN_62), .I4(XLXN_61), .O(XLXN_149)); AND2 XLXI_35 (.I0(B_BAR), .I1(A), .O(XLXN_65)); INV XLXI_37 (.I(A), .O(A_BAR)); INV XLXI_38 (.I(B), .O(B_BAR)); INV XLXI_39 (.I(C), .O(C_BAR)); INV XLXI_40 (.I(D), .O(D_BAR)); OR4 XLXI_41 (.I0(XLXN_94), .I1(XLXN_93), .I2(XLXN_92), .I3(XLXN_91), .O(XLXN_151)); XNOR2 XLXI_42 (.I0(B), .I1(A), .O(XLXN_91)); AND2 XLXI_43 (.I0(D_BAR), .I1(C_BAR), .O(XLXN_92)); AND2 XLXI_44 (.I0(B_BAR), .I1(C_BAR), .O(XLXN_93)); AND3 XLXI_45 (.I0(A_BAR), .I1(D), .I2(C), .O(XLXN_94)); XOR2 XLXI_46 (.I0(B), .I1(A), .O(XLXN_105)); OR3 XLXI_47 (.I0(D), .I1(C_BAR), .I2(XLXN_105), .O(XLXN_155)); AND2 XLXI_48 (.I0(D_BAR), .I1(C), .O(XLXN_125)); AND2 XLXI_49 (.I0(D_BAR), .I1(B_BAR), .O(XLXN_126)); AND2 XLXI_50 (.I0(C), .I1(B_BAR), .O(XLXN_113)); AND3 XLXI_51 (.I0(C_BAR), .I1(D), .I2(B), .O(XLXN_114)); OR4 XLXI_52 (.I0(XLXN_114), .I1(XLXN_113), .I2(XLXN_126), .I3(XLXN_125), .O(XLXN_156)); OR2 XLXI_53 (.I0(XLXN_126), .I1(XLXN_125), .O(XLXN_158)); AND3 XLXI_54 (.I0(C_BAR), .I1(B), .I2(A_BAR), .O(XLXN_128)); AND3 XLXI_55 (.I0(C), .I1(B_BAR), .I2(A), .O(XLXN_129)); AND3 XLXI_56 (.I0(D_BAR), .I1(B), .I2(A_BAR), .O(XLXN_130)); AND2 XLXI_57 (.I0(D_BAR), .I1(C_BAR), .O(XLXN_131)); OR4 XLXI_58 (.I0(XLXN_131), .I1(XLXN_130), .I2(XLXN_129), .I3(XLXN_128), .O(XLXN_160)); OR4 XLXI_60 (.I0(XLXN_148), .I1(XLXN_147), .I2(XLXN_146), .I3(XLXN_145), .O(XLXN_162)); AND2 XLXI_61 (.I0(C_BAR), .I1(B), .O(XLXN_145)); AND2 XLXI_62 (.I0(D_BAR), .I1(C), .O(XLXN_146)); AND2 XLXI_63 (.I0(B_BAR), .I1(C), .O(XLXN_147)); AND2 XLXI_64 (.I0(D_BAR), .I1(A), .O(XLXN_148)); INV XLXI_65 (.I(XLXN_149), .O(a_out)); INV XLXI_66 (.I(XLXN_151), .O(b_out)); INV XLXI_67 (.I(XLXN_155), .O(c_out)); INV XLXI_68 (.I(XLXN_158), .O(e_out)); INV XLXI_69 (.I(XLXN_156), .O(d_out)); INV XLXI_70 (.I(XLXN_160), .O(f_out)); INV XLXI_71 (.I(XLXN_162), .O(g_out)); INV XLXI_72 (.I(A_BAR), .O(XLXN_165)); INV XLXI_73 (.I(XLXN_165), .O(sign)); endmodule