uaveiro-leci/1ano/2semestre/lsd/pratica01/part4/EqCmp4.vwf

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/*<simulation_settings>
<ftestbench_cmd>quartus_eda --gen_testbench --tool=modelsim_oem --format=vhdl --write_settings_files=off EqCmpDemo -c EqCmpDemo --vector_source="/home/tiagorg/repos/uaveiro-leci/1ano/2semestre/lsd/pratica01/part4/EqCmp4.vwf" --testbench_file="/home/tiagorg/repos/uaveiro-leci/1ano/2semestre/lsd/pratica01/part4/simulation/qsim/EqCmp4.vwf.vht"</ftestbench_cmd>
<ttestbench_cmd>quartus_eda --gen_testbench --tool=modelsim_oem --format=vhdl --write_settings_files=off EqCmpDemo -c EqCmpDemo --vector_source="/home/tiagorg/repos/uaveiro-leci/1ano/2semestre/lsd/pratica01/part4/EqCmp4.vwf" --testbench_file="/home/tiagorg/repos/uaveiro-leci/1ano/2semestre/lsd/pratica01/part4/simulation/qsim/EqCmp4.vwf.vht"</ttestbench_cmd>
<fnetlist_cmd>quartus_eda --write_settings_files=off --simulation --functional=on --flatten_buses=off --tool=modelsim_oem --format=vhdl --output_directory="/home/tiagorg/repos/uaveiro-leci/1ano/2semestre/lsd/pratica01/part4/simulation/qsim/" EqCmpDemo -c EqCmpDemo</fnetlist_cmd>
<tnetlist_cmd>quartus_eda --write_settings_files=off --simulation --functional=off --flatten_buses=off --timescale=1ps --tool=modelsim_oem --format=vhdl --output_directory="/home/tiagorg/repos/uaveiro-leci/1ano/2semestre/lsd/pratica01/part4/simulation/qsim/" EqCmpDemo -c EqCmpDemo</tnetlist_cmd>
<modelsim_script>onerror {exit -code 1}
vlib work
vcom -work work EqCmpDemo.vho
vcom -work work EqCmp4.vwf.vht
vsim -c -t 1ps -L cycloneive -L altera -L altera_mf -L 220model -L sgate -L altera_lnsim work.EqCmpDemo_vhd_vec_tst
vcd file -direction EqCmpDemo.msim.vcd
vcd add -internal EqCmpDemo_vhd_vec_tst/*
vcd add -internal EqCmpDemo_vhd_vec_tst/i1/*
proc simTimestamp {} {
echo "Simulation time: $::now ps"
if { [string equal running [runStatus]] } {
after 2500 simTimestamp
}
}
after 2500 simTimestamp
run -all
quit -f
</modelsim_script>
<modelsim_script_timing>onerror {exit -code 1}
vlib work
vcom -work work EqCmpDemo.vho
vcom -work work EqCmp4.vwf.vht
vsim -novopt -c -t 1ps -sdfmax EqCmpDemo_vhd_vec_tst/i1=EqCmpDemo_vhd.sdo -L cycloneive -L altera -L altera_mf -L 220model -L sgate -L altera_lnsim work.EqCmpDemo_vhd_vec_tst
vcd file -direction EqCmpDemo.msim.vcd
vcd add -internal EqCmpDemo_vhd_vec_tst/*
vcd add -internal EqCmpDemo_vhd_vec_tst/i1/*
proc simTimestamp {} {
echo "Simulation time: $::now ps"
if { [string equal running [runStatus]] } {
after 2500 simTimestamp
}
}
after 2500 simTimestamp
run -all
quit -f
</modelsim_script_timing>
<hdl_lang>vhdl</hdl_lang>
</simulation_settings>*/
/*
WARNING: Do NOT edit the input and output ports in this file in a text
editor if you plan to continue editing the block that represents it in
the Block Editor! File corruption is VERY likely to occur.
*/
/*
Copyright (C) 2020 Intel Corporation. All rights reserved.
Your use of Intel Corporation's design tools, logic functions
and other software and tools, and any partner logic
functions, and any output files from any of the foregoing
(including device programming or simulation files), and any
associated documentation or information are expressly subject
to the terms and conditions of the Intel Program License
Subscription Agreement, the Intel Quartus Prime License Agreement,
the Intel FPGA IP License Agreement, or other applicable license
agreement, including, without limitation, that your use is for
the sole purpose of programming logic devices manufactured by
Intel and sold by Intel or its authorized distributors. Please
refer to the applicable agreement for further details, at
https://fpgasoftware.intel.com/eula.
*/
HEADER
{
VERSION = 1;
TIME_UNIT = ns;
DATA_OFFSET = 0.0;
DATA_DURATION = 1000.0;
SIMULATION_TIME = 0.0;
GRID_PHASE = 0.0;
GRID_PERIOD = 10.0;
GRID_DUTY_CYCLE = 50;
}
SIGNAL("LEDG")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "";
}
SIGNAL("LEDG[0]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "";
}
SIGNAL("SW")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = BUS;
WIDTH = 8;
LSB_INDEX = 0;
DIRECTION = INPUT;
PARENT = "";
}
SIGNAL("SW[7]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "SW";
}
SIGNAL("SW[6]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "SW";
}
SIGNAL("SW[5]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "SW";
}
SIGNAL("SW[4]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "SW";
}
SIGNAL("SW[3]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "SW";
}
SIGNAL("SW[2]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "SW";
}
SIGNAL("SW[1]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "SW";
}
SIGNAL("SW[0]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "SW";
}
TRANSITION_LIST("LEDG")
{
NODE
{
REPEAT = 1;
LEVEL X FOR 1000.0;
}
}
TRANSITION_LIST("LEDG[0]")
{
NODE
{
REPEAT = 1;
LEVEL X FOR 1000.0;
}
}
TRANSITION_LIST("SW[7]")
{
NODE
{
REPEAT = 1;
NODE
{
REPEAT = 1;
LEVEL 0 FOR 400.0;
LEVEL 1 FOR 400.0;
}
LEVEL 0 FOR 200.0;
}
}
TRANSITION_LIST("SW[6]")
{
NODE
{
REPEAT = 1;
NODE
{
REPEAT = 2;
LEVEL 0 FOR 200.0;
LEVEL 1 FOR 200.0;
}
LEVEL 0 FOR 200.0;
}
}
TRANSITION_LIST("SW[5]")
{
NODE
{
REPEAT = 1;
NODE
{
REPEAT = 5;
LEVEL 0 FOR 100.0;
LEVEL 1 FOR 100.0;
}
}
}
TRANSITION_LIST("SW[4]")
{
NODE
{
REPEAT = 1;
NODE
{
REPEAT = 10;
LEVEL 0 FOR 50.0;
LEVEL 1 FOR 50.0;
}
}
}
TRANSITION_LIST("SW[3]")
{
NODE
{
REPEAT = 1;
NODE
{
REPEAT = 20;
LEVEL 0 FOR 25.0;
LEVEL 1 FOR 25.0;
}
}
}
TRANSITION_LIST("SW[2]")
{
NODE
{
REPEAT = 1;
NODE
{
REPEAT = 40;
LEVEL 0 FOR 12.5;
LEVEL 1 FOR 12.5;
}
}
}
TRANSITION_LIST("SW[1]")
{
NODE
{
REPEAT = 1;
NODE
{
REPEAT = 80;
LEVEL 0 FOR 6.25;
LEVEL 1 FOR 6.25;
}
}
}
TRANSITION_LIST("SW[0]")
{
NODE
{
REPEAT = 1;
NODE
{
REPEAT = 148;
LEVEL 0 FOR 3.375;
LEVEL 1 FOR 3.375;
}
LEVEL 0 FOR 1.0;
}
}
DISPLAY_LINE
{
CHANNEL = "SW";
EXPAND_STATUS = EXPANDED;
RADIX = Binary;
TREE_INDEX = 0;
TREE_LEVEL = 0;
CHILDREN = 1, 2, 3, 4, 5, 6, 7, 8;
}
DISPLAY_LINE
{
CHANNEL = "SW[7]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 1;
TREE_LEVEL = 1;
PARENT = 0;
}
DISPLAY_LINE
{
CHANNEL = "SW[6]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 2;
TREE_LEVEL = 1;
PARENT = 0;
}
DISPLAY_LINE
{
CHANNEL = "SW[5]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 3;
TREE_LEVEL = 1;
PARENT = 0;
}
DISPLAY_LINE
{
CHANNEL = "SW[4]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 4;
TREE_LEVEL = 1;
PARENT = 0;
}
DISPLAY_LINE
{
CHANNEL = "SW[3]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 5;
TREE_LEVEL = 1;
PARENT = 0;
}
DISPLAY_LINE
{
CHANNEL = "SW[2]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 6;
TREE_LEVEL = 1;
PARENT = 0;
}
DISPLAY_LINE
{
CHANNEL = "SW[1]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 7;
TREE_LEVEL = 1;
PARENT = 0;
}
DISPLAY_LINE
{
CHANNEL = "SW[0]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 8;
TREE_LEVEL = 1;
PARENT = 0;
}
DISPLAY_LINE
{
CHANNEL = "LEDG";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 9;
TREE_LEVEL = 0;
}
DISPLAY_LINE
{
CHANNEL = "LEDG[0]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 10;
TREE_LEVEL = 0;
}
TIME_BAR
{
TIME = 0;
MASTER = TRUE;
}
;