//////////////////////////////////////////////////////////////////////////////// // Copyright (c) 1995-2011 Xilinx, Inc. All rights reserved. //////////////////////////////////////////////////////////////////////////////// // ____ ____ // / /\/ / // /___/ \ / Vendor: Xilinx // \ \ \/ Version : 13.3 // \ \ Application : sch2hdl // / / Filename : Modulo.vf // /___/ /\ Timestamp : 02/16/2012 19:52:31 // \ \ / \ // \___\/\___\ // //Command: sch2hdl -intstyle ise -family spartan6 -verilog "X:/My Documents/ec311/ec311-lab1/Modulo.vf" -w "X:/My Documents/ec311/ec311-lab1/Modulo.sch" //Design Name: Modulo //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 Modulo_0_MUSER_Modulo(b0, b1, b2, b3, result); input b0; input b1; input b2; input b3; output result; wire XLXN_1; wire XLXN_3; wire XLXN_4; wire XLXN_12; wire XLXN_14; wire XLXN_15; wire XLXN_16; wire XLXN_27; wire XLXN_28; AND2 XLXI_2 (.I0(XLXN_1), .I1(b2), .O(XLXN_4)); OR2 XLXI_4 (.I0(XLXN_4), .I1(XLXN_3), .O(result)); INV XLXI_9 (.I(b1), .O(XLXN_15)); INV XLXI_10 (.I(b0), .O(XLXN_16)); AND3 XLXI_11 (.I0(b0), .I1(XLXN_28), .I2(XLXN_27), .O(XLXN_3)); INV XLXI_12 (.I(b2), .O(XLXN_27)); INV XLXI_13 (.I(b1), .O(XLXN_28)); OR2 XLXI_14 (.I0(XLXN_14), .I1(XLXN_12), .O(XLXN_1)); AND2 XLXI_15 (.I0(b0), .I1(b1), .O(XLXN_12)); AND2 XLXI_16 (.I0(XLXN_16), .I1(XLXN_15), .O(XLXN_14)); endmodule `timescale 1ns / 1ps module Modulo_1_MUSER_Modulo(b0, b1, b2, b3, result); input b0; input b1; input b2; input b3; output result; wire XLXN_2; wire XLXN_3; wire XLXN_5; wire XLXN_6; wire XLXN_7; wire XLXN_23; wire XLXN_24; wire XLXN_50; wire XLXN_51; wire XLXN_54; wire XLXN_55; wire XLXN_56; wire XLXN_57; AND3 XLXI_1 (.I0(b1), .I1(b2), .I2(b3), .O(XLXN_55)); AND3 XLXI_2 (.I0(XLXN_6), .I1(XLXN_5), .I2(b3), .O(XLXN_2)); AND3 XLXI_3 (.I0(b0), .I1(XLXN_7), .I2(b3), .O(XLXN_3)); INV XLXI_5 (.I(b1), .O(XLXN_5)); INV XLXI_6 (.I(b0), .O(XLXN_6)); INV XLXI_7 (.I(b2), .O(XLXN_7)); AND4 XLXI_11 (.I0(b0), .I1(XLXN_24), .I2(b2), .I3(XLXN_23), .O(XLXN_57)); INV XLXI_15 (.I(b3), .O(XLXN_23)); INV XLXI_16 (.I(b1), .O(XLXN_24)); AND4 XLXI_18 (.I0(XLXN_54), .I1(b1), .I2(XLXN_50), .I3(XLXN_51), .O(XLXN_56)); INV XLXI_19 (.I(b2), .O(XLXN_50)); INV XLXI_20 (.I(b3), .O(XLXN_51)); INV XLXI_21 (.I(b0), .O(XLXN_54)); OR5 XLXI_22 (.I0(XLXN_57), .I1(XLXN_56), .I2(XLXN_3), .I3(XLXN_2), .I4(XLXN_55), .O(result)); endmodule `timescale 1ns / 1ps module Modulo_3_MUSER_Modulo(b0, b1, b2, b3, result); input b0; input b1; input b2; input b3; output result; wire XLXN_1; wire XLXN_2; wire XLXN_3; wire XLXN_5; wire XLXN_6; wire XLXN_7; AND3 XLXI_1 (.I0(b1), .I1(b2), .I2(b3), .O(XLXN_1)); AND3 XLXI_2 (.I0(XLXN_6), .I1(XLXN_5), .I2(b3), .O(XLXN_2)); AND3 XLXI_3 (.I0(b0), .I1(XLXN_7), .I2(b3), .O(XLXN_3)); OR3 XLXI_4 (.I0(XLXN_3), .I1(XLXN_2), .I2(XLXN_1), .O(result)); INV XLXI_5 (.I(b1), .O(XLXN_5)); INV XLXI_6 (.I(b0), .O(XLXN_6)); INV XLXI_7 (.I(b2), .O(XLXN_7)); endmodule `timescale 1ns / 1ps module Modulo(b0, b1, b2, b3, out0, out1, out2, out3); input b0; input b1; input b2; input b3; output out0; output out1; output out2; output out3; Modulo_3_MUSER_Modulo XLXI_1 (.b0(b0), .b1(b1), .b2(b2), .b3(b3), .result(out3)); Modulo_3_MUSER_Modulo XLXI_2 (.b0(b0), .b1(b1), .b2(b2), .b3(b3), .result(out2)); Modulo_1_MUSER_Modulo XLXI_3 (.b0(b0), .b1(b1), .b2(b2), .b3(b3), .result(out1)); Modulo_0_MUSER_Modulo XLXI_4 (.b0(b0), .b1(b1), .b2(b2), .b3(b3), .result(out0)); endmodule