📄 flowingled.vwf
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/*
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) 1991-2004 Altera Corporation
Any megafunction design, and related netlist (encrypted or decrypted),
support information, device programming or simulation file, and any other
associated documentation or information provided by Altera or a partner
under Altera's Megafunction Partnership Program may be used only
to program PLD devices (but not masked PLD devices) from Altera. Any
other use of such megafunction design, netlist, support information,
device programming or simulation file, or any other related documentation
or information is prohibited for any other purpose, including, but not
limited to modification, reverse engineering, de-compiling, or use with
any other silicon devices, unless such use is explicitly licensed under
a separate agreement with Altera or a megafunction partner. Title to the
intellectual property, including patents, copyrights, trademarks, trade
secrets, or maskworks, embodied in any such megafunction design, netlist,
support information, device programming or simulation file, or any other
related documentation or information provided by Altera or a megafunction
partner, remains with Altera, the megafunction partner, or their respective
licensors. No other licenses, including any licenses needed under any third
party's intellectual property, are provided herein.
*/
HEADER
{
VERSION = 1;
TIME_UNIT = ns;
SIMULATION_TIME = 1000.0;
GRID_PHASE = 0.0;
GRID_PERIOD = 10.0;
GRID_DUTY_CYCLE = 50;
}
SIGNAL("clock_24M")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "";
}
SIGNAL("led_bits")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = BUS;
WIDTH = 8;
LSB_INDEX = 0;
DIRECTION = OUTPUT;
PARENT = "";
}
SIGNAL("led_bits[7]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "led_bits";
}
SIGNAL("led_bits[6]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "led_bits";
}
SIGNAL("led_bits[5]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "led_bits";
}
SIGNAL("led_bits[4]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "led_bits";
}
SIGNAL("led_bits[3]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "led_bits";
}
SIGNAL("led_bits[2]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "led_bits";
}
SIGNAL("led_bits[1]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "led_bits";
}
SIGNAL("led_bits[0]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "led_bits";
}
SIGNAL("reset")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "";
}
SIGNAL("counter")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = BUS;
WIDTH = 4;
LSB_INDEX = 0;
DIRECTION = OUTPUT;
PARENT = "";
}
SIGNAL("counter[3]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "counter";
}
SIGNAL("counter[2]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "counter";
}
SIGNAL("counter[1]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "counter";
}
SIGNAL("counter[0]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "counter";
}
TRANSITION_LIST("clock_24M")
{
NODE
{
REPEAT = 1;
NODE
{
REPEAT = 24;
LEVEL 0 FOR 20.833;
LEVEL 1 FOR 20.833;
}
LEVEL 0 FOR 0.016;
}
}
TRANSITION_LIST("led_bits[7]")
{
NODE
{
REPEAT = 1;
LEVEL 1 FOR 624.257;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 249.996;
LEVEL 0 FOR 42.415;
}
}
TRANSITION_LIST("led_bits[6]")
{
NODE
{
REPEAT = 1;
LEVEL 1 FOR 540.925;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 333.328;
LEVEL 0 FOR 42.415;
}
}
TRANSITION_LIST("led_bits[5]")
{
NODE
{
REPEAT = 1;
LEVEL 1 FOR 457.593;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 333.328;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 42.415;
}
}
TRANSITION_LIST("led_bits[4]")
{
NODE
{
REPEAT = 1;
LEVEL 1 FOR 374.261;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 416.66;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 42.415;
}
}
TRANSITION_LIST("led_bits[3]")
{
NODE
{
REPEAT = 1;
LEVEL 1 FOR 290.929;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 416.66;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 125.747;
}
}
TRANSITION_LIST("led_bits[2]")
{
NODE
{
REPEAT = 1;
LEVEL 1 FOR 207.597;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 499.992;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 125.747;
}
}
TRANSITION_LIST("led_bits[1]")
{
NODE
{
REPEAT = 1;
LEVEL 1 FOR 124.265;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 499.992;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 209.079;
}
}
TRANSITION_LIST("led_bits[0]")
{
NODE
{
REPEAT = 1;
LEVEL 0 FOR 20.1;
LEVEL 1 FOR 35.0;
LEVEL 0 FOR 69.165;
LEVEL 1 FOR 583.324;
LEVEL 0 FOR 83.332;
LEVEL 1 FOR 209.079;
}
}
TRANSITION_LIST("reset")
{
NODE
{
REPEAT = 1;
LEVEL 1 FOR 10.0;
LEVEL 0 FOR 35.0;
LEVEL 1 FOR 955.0;
}
}
TRANSITION_LIST("counter[3]")
{
NODE
{
REPEAT = 1;
LEVEL 0 FOR 700.489;
LEVEL 1 FOR 299.511;
}
}
TRANSITION_LIST("counter[2]")
{
NODE
{
REPEAT = 1;
LEVEL 0 FOR 367.161;
LEVEL 1 FOR 333.328;
LEVEL 0 FOR 299.511;
}
}
TRANSITION_LIST("counter[1]")
{
NODE
{
REPEAT = 1;
LEVEL 0 FOR 200.497;
NODE
{
REPEAT = 2;
LEVEL 1 FOR 166.664;
LEVEL 0 FOR 166.664;
}
LEVEL 1 FOR 132.847;
}
}
TRANSITION_LIST("counter[0]")
{
NODE
{
REPEAT = 1;
LEVEL 0 FOR 117.165;
NODE
{
REPEAT = 5;
LEVEL 1 FOR 83.332;
LEVEL 0 FOR 83.332;
}
LEVEL 1 FOR 49.515;
}
}
DISPLAY_LINE
{
CHANNEL = "clock_24M";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 0;
TREE_LEVEL = 0;
}
DISPLAY_LINE
{
CHANNEL = "reset";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 1;
TREE_LEVEL = 0;
}
DISPLAY_LINE
{
CHANNEL = "led_bits";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 2;
TREE_LEVEL = 0;
CHILDREN = 3, 4, 5, 6, 7, 8, 9, 10;
}
DISPLAY_LINE
{
CHANNEL = "led_bits[7]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 3;
TREE_LEVEL = 1;
PARENT = 2;
}
DISPLAY_LINE
{
CHANNEL = "led_bits[6]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 4;
TREE_LEVEL = 1;
PARENT = 2;
}
DISPLAY_LINE
{
CHANNEL = "led_bits[5]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 5;
TREE_LEVEL = 1;
PARENT = 2;
}
DISPLAY_LINE
{
CHANNEL = "led_bits[4]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 6;
TREE_LEVEL = 1;
PARENT = 2;
}
DISPLAY_LINE
{
CHANNEL = "led_bits[3]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 7;
TREE_LEVEL = 1;
PARENT = 2;
}
DISPLAY_LINE
{
CHANNEL = "led_bits[2]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 8;
TREE_LEVEL = 1;
PARENT = 2;
}
DISPLAY_LINE
{
CHANNEL = "led_bits[1]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 9;
TREE_LEVEL = 1;
PARENT = 2;
}
DISPLAY_LINE
{
CHANNEL = "led_bits[0]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 10;
TREE_LEVEL = 1;
PARENT = 2;
}
DISPLAY_LINE
{
CHANNEL = "counter";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 11;
TREE_LEVEL = 0;
CHILDREN = 12, 13, 14, 15;
}
DISPLAY_LINE
{
CHANNEL = "counter[3]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 12;
TREE_LEVEL = 1;
PARENT = 11;
}
DISPLAY_LINE
{
CHANNEL = "counter[2]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 13;
TREE_LEVEL = 1;
PARENT = 11;
}
DISPLAY_LINE
{
CHANNEL = "counter[1]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 14;
TREE_LEVEL = 1;
PARENT = 11;
}
DISPLAY_LINE
{
CHANNEL = "counter[0]";
EXPAND_STATUS = COLLAPSED;
RADIX = Binary;
TREE_INDEX = 15;
TREE_LEVEL = 1;
PARENT = 11;
}
TIME_BAR
{
TIME = 17525;
MASTER = TRUE;
}
;
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