📄 sel4_1_timesim.vhd
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-- Xilinx Vhdl netlist produced by netgen application (version G.35)-- Command : -rpw 100 -ar Structure -xon true -w -ofmt vhdl -sim sel4_1.nga sel4_1_timesim.vhd -- Input file : sel4_1.nga-- Output file : sel4_1_timesim.vhd-- Design name : sel4_1.nga-- # of Entities : 1-- Xilinx : D:/Xilinx-- Device : XC9572-10-TQ100 (Speed File: Version 3.0)-- This vhdl netlist is a simulation model and uses simulation -- primitives which may not represent the true implementation of the -- device, however the netlist is functionally correct and should not -- be modified. This file cannot be synthesized and should only be used -- with supported simulation tools.library IEEE;use IEEE.STD_LOGIC_1164.ALL;library SIMPRIM;use SIMPRIM.VCOMPONENTS.ALL;use SIMPRIM.VPACKAGE.ALL;entity sel4_1 is port ( CS : in STD_LOGIC := 'X'; A1 : in STD_LOGIC := 'X'; A0 : in STD_LOGIC := 'X'; MR_3 : in STD_LOGIC_VECTOR ( 7 downto 0 ); MR_1 : in STD_LOGIC_VECTOR ( 7 downto 0 ); MR_0 : in STD_LOGIC_VECTOR ( 7 downto 0 ); MR_2 : in STD_LOGIC_VECTOR ( 7 downto 0 ); DO : out STD_LOGIC_VECTOR ( 7 downto 0 ) );end sel4_1;architecture Structure of sel4_1 is signal CS_IBUF : STD_LOGIC; signal A1_IBUF : STD_LOGIC; signal A0_IBUF : STD_LOGIC; signal MR_3_0_IBUF : STD_LOGIC; signal MR_1_0_IBUF : STD_LOGIC; signal MR_0_0_IBUF : STD_LOGIC; signal MR_2_0_IBUF : STD_LOGIC; signal MR_0_1_IBUF : STD_LOGIC; signal MR_2_1_IBUF : STD_LOGIC; signal MR_1_1_IBUF : STD_LOGIC; signal MR_3_1_IBUF : STD_LOGIC; signal MR_2_2_IBUF : STD_LOGIC; signal MR_0_2_IBUF : STD_LOGIC; signal MR_1_2_IBUF : STD_LOGIC; signal MR_3_2_IBUF : STD_LOGIC; signal MR_1_3_IBUF : STD_LOGIC; signal MR_3_3_IBUF : STD_LOGIC; signal MR_0_3_IBUF : STD_LOGIC; signal MR_2_3_IBUF : STD_LOGIC; signal MR_1_4_IBUF : STD_LOGIC; signal MR_3_4_IBUF : STD_LOGIC; signal MR_0_4_IBUF : STD_LOGIC; signal MR_2_4_IBUF : STD_LOGIC; signal MR_3_5_IBUF : STD_LOGIC; signal MR_1_5_IBUF : STD_LOGIC; signal MR_0_5_IBUF : STD_LOGIC; signal MR_2_5_IBUF : STD_LOGIC; signal MR_1_6_IBUF : STD_LOGIC; signal MR_3_6_IBUF : STD_LOGIC; signal MR_0_6_IBUF : STD_LOGIC; signal MR_2_6_IBUF : STD_LOGIC; signal MR_2_7_IBUF : STD_LOGIC; signal MR_0_7_IBUF : STD_LOGIC; signal MR_1_7_IBUF : STD_LOGIC; signal MR_3_7_IBUF : STD_LOGIC; signal DO_0_OBUFE : STD_LOGIC; signal DO_0_OBUFE_OE : STD_LOGIC; signal DO_1_OBUFE : STD_LOGIC; signal DO_1_OBUFE_OE : STD_LOGIC; signal DO_2_OBUFE : STD_LOGIC; signal DO_2_OBUFE_OE : STD_LOGIC; signal DO_3_OBUFE : STD_LOGIC; signal DO_3_OBUFE_OE : STD_LOGIC; signal DO_4_OBUFE : STD_LOGIC; signal DO_4_OBUFE_OE : STD_LOGIC; signal DO_5_OBUFE : STD_LOGIC; signal DO_5_OBUFE_OE : STD_LOGIC; signal DO_6_OBUFE : STD_LOGIC; signal DO_6_OBUFE_OE : STD_LOGIC; signal DO_7_OBUFE : STD_LOGIC; signal DO_7_OBUFE_OE : STD_LOGIC; signal DO_0_OBUFE_Q : STD_LOGIC; signal DO_0_OBUFE_BUFOE_OUT : STD_LOGIC; signal DO_0_OBUFE_TRST : STD_LOGIC; signal DO_0_OBUFE_D : STD_LOGIC; signal DO_0_OBUFE_D1 : STD_LOGIC; signal DO_0_OBUFE_D2 : STD_LOGIC; signal DO_0_OBUFE_D2_PT_0 : STD_LOGIC; signal DO_0_OBUFE_D2_PT_1 : STD_LOGIC; signal DO_0_OBUFE_D2_PT_2 : STD_LOGIC; signal DO_0_OBUFE_D2_PT_3 : STD_LOGIC; signal DO_1_OBUFE_Q : STD_LOGIC; signal DO_1_OBUFE_BUFOE_OUT : STD_LOGIC; signal DO_1_OBUFE_TRST : STD_LOGIC; signal DO_1_OBUFE_D : STD_LOGIC; signal DO_1_OBUFE_D1 : STD_LOGIC; signal DO_1_OBUFE_D2 : STD_LOGIC; signal DO_1_OBUFE_D2_PT_0 : STD_LOGIC; signal DO_1_OBUFE_D2_PT_1 : STD_LOGIC; signal DO_1_OBUFE_D2_PT_2 : STD_LOGIC; signal DO_1_OBUFE_D2_PT_3 : STD_LOGIC; signal DO_2_OBUFE_Q : STD_LOGIC; signal DO_2_OBUFE_BUFOE_OUT : STD_LOGIC; signal DO_2_OBUFE_TRST : STD_LOGIC; signal DO_2_OBUFE_D : STD_LOGIC; signal DO_2_OBUFE_D1 : STD_LOGIC; signal DO_2_OBUFE_D2 : STD_LOGIC; signal DO_2_OBUFE_D2_PT_0 : STD_LOGIC; signal DO_2_OBUFE_D2_PT_1 : STD_LOGIC; signal DO_2_OBUFE_D2_PT_2 : STD_LOGIC; signal DO_2_OBUFE_D2_PT_3 : STD_LOGIC; signal DO_3_OBUFE_Q : STD_LOGIC; signal DO_3_OBUFE_BUFOE_OUT : STD_LOGIC; signal DO_3_OBUFE_TRST : STD_LOGIC; signal DO_3_OBUFE_D : STD_LOGIC; signal DO_3_OBUFE_D1 : STD_LOGIC; signal DO_3_OBUFE_D2 : STD_LOGIC; signal DO_3_OBUFE_D2_PT_0 : STD_LOGIC; signal DO_3_OBUFE_D2_PT_1 : STD_LOGIC; signal DO_3_OBUFE_D2_PT_2 : STD_LOGIC; signal DO_3_OBUFE_D2_PT_3 : STD_LOGIC; signal DO_4_OBUFE_Q : STD_LOGIC; signal DO_4_OBUFE_BUFOE_OUT : STD_LOGIC; signal DO_4_OBUFE_TRST : STD_LOGIC; signal DO_4_OBUFE_D : STD_LOGIC; signal DO_4_OBUFE_D1 : STD_LOGIC; signal DO_4_OBUFE_D2 : STD_LOGIC; signal DO_4_OBUFE_D2_PT_0 : STD_LOGIC; signal DO_4_OBUFE_D2_PT_1 : STD_LOGIC; signal DO_4_OBUFE_D2_PT_2 : STD_LOGIC; signal DO_4_OBUFE_D2_PT_3 : STD_LOGIC; signal DO_5_OBUFE_Q : STD_LOGIC; signal DO_5_OBUFE_BUFOE_OUT : STD_LOGIC; signal DO_5_OBUFE_TRST : STD_LOGIC; signal DO_5_OBUFE_D : STD_LOGIC; signal DO_5_OBUFE_D1 : STD_LOGIC; signal DO_5_OBUFE_D2 : STD_LOGIC; signal DO_5_OBUFE_D2_PT_0 : STD_LOGIC; signal DO_5_OBUFE_D2_PT_1 : STD_LOGIC; signal DO_5_OBUFE_D2_PT_2 : STD_LOGIC; signal DO_5_OBUFE_D2_PT_3 : STD_LOGIC; signal DO_6_OBUFE_Q : STD_LOGIC; signal DO_6_OBUFE_BUFOE_OUT : STD_LOGIC; signal DO_6_OBUFE_TRST : STD_LOGIC; signal DO_6_OBUFE_D : STD_LOGIC; signal DO_6_OBUFE_D1 : STD_LOGIC; signal DO_6_OBUFE_D2 : STD_LOGIC; signal DO_6_OBUFE_D2_PT_0 : STD_LOGIC; signal DO_6_OBUFE_D2_PT_1 : STD_LOGIC; signal DO_6_OBUFE_D2_PT_2 : STD_LOGIC; signal DO_6_OBUFE_D2_PT_3 : STD_LOGIC; signal DO_7_OBUFE_Q : STD_LOGIC; signal DO_7_OBUFE_BUFOE_OUT : STD_LOGIC; signal DO_7_OBUFE_TRST : STD_LOGIC; signal DO_7_OBUFE_D : STD_LOGIC; signal DO_7_OBUFE_D1 : STD_LOGIC; signal DO_7_OBUFE_D2 : STD_LOGIC; signal DO_7_OBUFE_D2_PT_0 : STD_LOGIC; signal DO_7_OBUFE_D2_PT_1 : STD_LOGIC; signal DO_7_OBUFE_D2_PT_2 : STD_LOGIC; signal DO_7_OBUFE_D2_PT_3 : STD_LOGIC; signal NlwInverterSignal_DO_0_OBUFE_D2_PT_1_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_0_OBUFE_D2_PT_2_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_0_OBUFE_D2_PT_3_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_0_OBUFE_D2_PT_3_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_0_OBUFE_TRST_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_0_OBUFE_TRST_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_1_OBUFE_D2_PT_1_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_1_OBUFE_D2_PT_2_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_1_OBUFE_D2_PT_3_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_1_OBUFE_D2_PT_3_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_1_OBUFE_TRST_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_1_OBUFE_TRST_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_2_OBUFE_D2_PT_1_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_2_OBUFE_D2_PT_2_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_2_OBUFE_D2_PT_3_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_2_OBUFE_D2_PT_3_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_2_OBUFE_TRST_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_2_OBUFE_TRST_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_3_OBUFE_D2_PT_1_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_3_OBUFE_D2_PT_2_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_3_OBUFE_D2_PT_3_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_3_OBUFE_D2_PT_3_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_3_OBUFE_TRST_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_3_OBUFE_TRST_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_4_OBUFE_D2_PT_1_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_4_OBUFE_D2_PT_2_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_4_OBUFE_D2_PT_3_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_4_OBUFE_D2_PT_3_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_4_OBUFE_TRST_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_4_OBUFE_TRST_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_5_OBUFE_D2_PT_1_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_5_OBUFE_D2_PT_2_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_5_OBUFE_D2_PT_3_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_5_OBUFE_D2_PT_3_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_5_OBUFE_TRST_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_5_OBUFE_TRST_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_6_OBUFE_D2_PT_1_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_6_OBUFE_D2_PT_2_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_6_OBUFE_D2_PT_3_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_6_OBUFE_D2_PT_3_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_6_OBUFE_TRST_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_6_OBUFE_TRST_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_7_OBUFE_D2_PT_1_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_7_OBUFE_D2_PT_2_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_7_OBUFE_D2_PT_3_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_7_OBUFE_D2_PT_3_IN1 : STD_LOGIC; signal NlwInverterSignal_DO_7_OBUFE_TRST_IN0 : STD_LOGIC; signal NlwInverterSignal_DO_7_OBUFE_TRST_IN1 : STD_LOGIC; begin CS_IBUF_0 : X_BUF port map ( I => CS, O => CS_IBUF ); A1_IBUF_1 : X_BUF port map ( I => A1, O => A1_IBUF ); A0_IBUF_2 : X_BUF port map ( I => A0, O => A0_IBUF ); MR_3_0_IBUF_3 : X_BUF port map ( I => MR_3(0), O => MR_3_0_IBUF ); MR_1_0_IBUF_4 : X_BUF port map ( I => MR_1(0), O => MR_1_0_IBUF ); MR_0_0_IBUF_5 : X_BUF port map ( I => MR_0(0), O => MR_0_0_IBUF ); MR_2_0_IBUF_6 : X_BUF port map ( I => MR_2(0), O => MR_2_0_IBUF ); MR_0_1_IBUF_7 : X_BUF port map ( I => MR_0(1), O => MR_0_1_IBUF ); MR_2_1_IBUF_8 : X_BUF port map ( I => MR_2(1), O => MR_2_1_IBUF ); MR_1_1_IBUF_9 : X_BUF port map ( I => MR_1(1), O => MR_1_1_IBUF ); MR_3_1_IBUF_10 : X_BUF port map ( I => MR_3(1), O => MR_3_1_IBUF ); MR_2_2_IBUF_11 : X_BUF port map ( I => MR_2(2), O => MR_2_2_IBUF ); MR_0_2_IBUF_12 : X_BUF port map ( I => MR_0(2), O => MR_0_2_IBUF ); MR_1_2_IBUF_13 : X_BUF port map ( I => MR_1(2), O => MR_1_2_IBUF ); MR_3_2_IBUF_14 : X_BUF port map ( I => MR_3(2), O => MR_3_2_IBUF ); MR_1_3_IBUF_15 : X_BUF port map ( I => MR_1(3), O => MR_1_3_IBUF ); MR_3_3_IBUF_16 : X_BUF port map ( I => MR_3(3), O => MR_3_3_IBUF ); MR_0_3_IBUF_17 : X_BUF port map ( I => MR_0(3), O => MR_0_3_IBUF ); MR_2_3_IBUF_18 : X_BUF port map ( I => MR_2(3), O => MR_2_3_IBUF ); MR_1_4_IBUF_19 : X_BUF port map ( I => MR_1(4), O => MR_1_4_IBUF ); MR_3_4_IBUF_20 : X_BUF port map ( I => MR_3(4), O => MR_3_4_IBUF ); MR_0_4_IBUF_21 : X_BUF port map ( I => MR_0(4), O => MR_0_4_IBUF ); MR_2_4_IBUF_22 : X_BUF port map ( I => MR_2(4), O => MR_2_4_IBUF ); MR_3_5_IBUF_23 : X_BUF port map ( I => MR_3(5), O => MR_3_5_IBUF ); MR_1_5_IBUF_24 : X_BUF port map ( I => MR_1(5), O => MR_1_5_IBUF ); MR_0_5_IBUF_25 : X_BUF port map ( I => MR_0(5), O => MR_0_5_IBUF ); MR_2_5_IBUF_26 : X_BUF port map ( I => MR_2(5), O => MR_2_5_IBUF ); MR_1_6_IBUF_27 : X_BUF port map ( I => MR_1(6), O => MR_1_6_IBUF ); MR_3_6_IBUF_28 : X_BUF port map ( I => MR_3(6), O => MR_3_6_IBUF ); MR_0_6_IBUF_29 : X_BUF port map ( I => MR_0(6), O => MR_0_6_IBUF ); MR_2_6_IBUF_30 : X_BUF port map ( I => MR_2(6), O => MR_2_6_IBUF ); MR_2_7_IBUF_31 : X_BUF port map ( I => MR_2(7), O => MR_2_7_IBUF ); MR_0_7_IBUF_32 : X_BUF port map ( I => MR_0(7), O => MR_0_7_IBUF ); MR_1_7_IBUF_33 : X_BUF port map ( I => MR_1(7), O => MR_1_7_IBUF ); MR_3_7_IBUF_34 : X_BUF port map ( I => MR_3(7), O => MR_3_7_IBUF ); DO_0_Q : X_TRI port map ( I => DO_0_OBUFE, CTL => DO_0_OBUFE_OE, O => DO(0) ); DO_1_Q : X_TRI port map ( I => DO_1_OBUFE, CTL => DO_1_OBUFE_OE, O => DO(1) ); DO_2_Q : X_TRI port map ( I => DO_2_OBUFE, CTL => DO_2_OBUFE_OE, O => DO(2) ); DO_3_Q : X_TRI port map ( I => DO_3_OBUFE, CTL => DO_3_OBUFE_OE, O => DO(3) ); DO_4_Q : X_TRI port map ( I => DO_4_OBUFE, CTL => DO_4_OBUFE_OE, O => DO(4) );⌨️ 快捷键说明
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