signal.vwf
来自「产生sinx+cosx波形 用于正交调制得测试信号 一次输出正交和同相分量 ve」· VWF 代码 · 共 1,002 行 · 第 1/2 页
VWF
1,002 行
/*
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) 1991-2005 Altera Corporation
Your use of Altera Corporation's design tools, logic functions
and other software and tools, and its AMPP partner logic
functions, and any output files 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 Altera Program License
Subscription Agreement, Altera MegaCore Function License
Agreement, or other applicable license agreement, including,
without limitation, that your use is for the sole purpose of
programming logic devices manufactured by Altera and sold by
Altera or its authorized distributors. Please refer to the
applicable agreement for further details.
*/
HEADER
{
VERSION = 1;
TIME_UNIT = ns;
SIMULATION_TIME = 1000000.0;
GRID_PHASE = 0.0;
GRID_PERIOD = 10.0;
GRID_DUTY_CYCLE = 50;
}
SIGNAL("clk")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "";
}
SIGNAL("data")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = BUS;
WIDTH = 12;
LSB_INDEX = 0;
DIRECTION = OUTPUT;
PARENT = "";
}
SIGNAL("data[11]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "data";
}
SIGNAL("data[10]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "data";
}
SIGNAL("data[9]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "data";
}
SIGNAL("data[8]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "data";
}
SIGNAL("data[7]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "data";
}
SIGNAL("data[6]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "data";
}
SIGNAL("data[5]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "data";
}
SIGNAL("data[4]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "data";
}
SIGNAL("data[3]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "data";
}
SIGNAL("data[2]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "data";
}
SIGNAL("data[1]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "data";
}
SIGNAL("data[0]")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = OUTPUT;
PARENT = "data";
}
SIGNAL("rst1")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "";
}
SIGNAL("Txen")
{
VALUE_TYPE = NINE_LEVEL_BIT;
SIGNAL_TYPE = SINGLE_BIT;
WIDTH = 1;
LSB_INDEX = -1;
DIRECTION = INPUT;
PARENT = "";
}
TRANSITION_LIST("clk")
{
NODE
{
REPEAT = 1;
NODE
{
REPEAT = 100;
LEVEL 0 FOR 5000.0;
LEVEL 1 FOR 5000.0;
}
}
}
TRANSITION_LIST("data[11]")
{
NODE
{
REPEAT = 1;
LEVEL 0 FOR 105008.764;
NODE
{
REPEAT = 2;
NODE
{
REPEAT = 4;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
}
LEVEL 1 FOR 60000.0;
NODE
{
REPEAT = 4;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
}
LEVEL 0 FOR 100000.0;
}
NODE
{
REPEAT = 4;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
}
LEVEL 1 FOR 60000.0;
NODE
{
REPEAT = 4;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
}
LEVEL 0 FOR 34991.236;
}
}
TRANSITION_LIST("data[10]")
{
NODE
{
REPEAT = 1;
LEVEL 0 FOR 25009.026;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 30000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 50000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 20000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 50000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 30000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 30000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 50000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 20000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 50000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 30000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 30000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 50000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 20000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 50000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 30000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 4990.974;
}
}
TRANSITION_LIST("data[9]")
{
NODE
{
REPEAT = 1;
LEVEL 0 FOR 25008.579;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 20000.0;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 20000.0;
NODE
{
REPEAT = 2;
LEVEL 0 FOR 20000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 40000.0;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 40000.0;
LEVEL 1 FOR 10000.0;
NODE
{
REPEAT = 2;
LEVEL 0 FOR 20000.0;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 20000.0;
}
}
LEVEL 0 FOR 20000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 40000.0;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 40000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 20000.0;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 14991.421;
}
}
TRANSITION_LIST("data[8]")
{
NODE
{
REPEAT = 1;
LEVEL 0 FOR 25008.984;
NODE
{
REPEAT = 2;
LEVEL 1 FOR 60000.0;
NODE
{
REPEAT = 4;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
}
LEVEL 0 FOR 100000.0;
NODE
{
REPEAT = 4;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
}
}
LEVEL 1 FOR 60000.0;
NODE
{
REPEAT = 4;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
}
LEVEL 0 FOR 100000.0;
NODE
{
REPEAT = 4;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
}
LEVEL 1 FOR 14991.016;
}
}
TRANSITION_LIST("data[7]")
{
NODE
{
REPEAT = 1;
LEVEL 0 FOR 45008.582;
NODE
{
REPEAT = 3;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 30000.0;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 20000.0;
}
NODE
{
REPEAT = 2;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 30000.0;
}
NODE
{
REPEAT = 3;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 20000.0;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 30000.0;
}
NODE
{
REPEAT = 3;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 30000.0;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 20000.0;
}
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 24991.418;
}
}
TRANSITION_LIST("data[6]")
{
NODE
{
REPEAT = 1;
LEVEL 0 FOR 25008.759;
NODE
{
REPEAT = 2;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 40000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
NODE
{
REPEAT = 2;
LEVEL 1 FOR 40000.0;
LEVEL 0 FOR 60000.0;
}
LEVEL 1 FOR 40000.0;
LEVEL 0 FOR 10000.0;
}
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 40000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
NODE
{
REPEAT = 2;
LEVEL 1 FOR 40000.0;
LEVEL 0 FOR 60000.0;
}
LEVEL 1 FOR 40000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 4991.241;
}
}
TRANSITION_LIST("data[5]")
{
NODE
{
REPEAT = 1;
LEVEL 0 FOR 25009.026;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 20000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 30000.0;
LEVEL 0 FOR 10000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 50000.0;
LEVEL 1 FOR 10000.0;
LEVEL 0 FOR 20000.0;
LEVEL 1 FOR 10000.0;
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