sin_rom.fit.eqn

该源码为几个正弦ROM,已经编译并通过,可以直接下载,不需要,内部含有正弦ROM表,还有ROM的宏模块

-- 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.
--C1_q[0] is altsyncram:altsyncram_component|altrom:rom|q[0] at EC2_C
C1_q[0]_clock_0 = GLOBAL(inclock);
C1_q[0]_write_address = WR_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[0]_read_address = RD_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[0] = MEMORY_SEGMENT(, , C1_q[0]_clock_0, , , , , , C1_q[0]_write_address, C1_q[0]_read_address);


--C1_q[1] is altsyncram:altsyncram_component|altrom:rom|q[1] at EC2_A
C1_q[1]_clock_0 = GLOBAL(inclock);
C1_q[1]_write_address = WR_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[1]_read_address = RD_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[1] = MEMORY_SEGMENT(, , C1_q[1]_clock_0, , , , , , C1_q[1]_write_address, C1_q[1]_read_address);


--C1_q[2] is altsyncram:altsyncram_component|altrom:rom|q[2] at EC9_A
C1_q[2]_clock_0 = GLOBAL(inclock);
C1_q[2]_write_address = WR_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[2]_read_address = RD_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[2] = MEMORY_SEGMENT(, , C1_q[2]_clock_0, , , , , , C1_q[2]_write_address, C1_q[2]_read_address);


--C1_q[3] is altsyncram:altsyncram_component|altrom:rom|q[3] at EC1_A
C1_q[3]_clock_0 = GLOBAL(inclock);
C1_q[3]_write_address = WR_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[3]_read_address = RD_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[3] = MEMORY_SEGMENT(, , C1_q[3]_clock_0, , , , , , C1_q[3]_write_address, C1_q[3]_read_address);


--C1_q[4] is altsyncram:altsyncram_component|altrom:rom|q[4] at EC10_A
C1_q[4]_clock_0 = GLOBAL(inclock);
C1_q[4]_write_address = WR_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[4]_read_address = RD_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[4] = MEMORY_SEGMENT(, , C1_q[4]_clock_0, , , , , , C1_q[4]_write_address, C1_q[4]_read_address);


--C1_q[5] is altsyncram:altsyncram_component|altrom:rom|q[5] at EC9_C
C1_q[5]_clock_0 = GLOBAL(inclock);
C1_q[5]_write_address = WR_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[5]_read_address = RD_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[5] = MEMORY_SEGMENT(, , C1_q[5]_clock_0, , , , , , C1_q[5]_write_address, C1_q[5]_read_address);


--C1_q[6] is altsyncram:altsyncram_component|altrom:rom|q[6] at EC1_C
C1_q[6]_clock_0 = GLOBAL(inclock);
C1_q[6]_write_address = WR_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[6]_read_address = RD_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[6] = MEMORY_SEGMENT(, , C1_q[6]_clock_0, , , , , , C1_q[6]_write_address, C1_q[6]_read_address);


--C1_q[7] is altsyncram:altsyncram_component|altrom:rom|q[7] at EC10_C
C1_q[7]_clock_0 = GLOBAL(inclock);
C1_q[7]_write_address = WR_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[7]_read_address = RD_ADDR(address[0], address[1], address[2], address[3], address[4], address[5], address[6], address[7], address[8], address[9]);
C1_q[7] = MEMORY_SEGMENT(, , C1_q[7]_clock_0, , , , , , C1_q[7]_write_address, C1_q[7]_read_address);


--inclock is inclock at PIN_55
--operation mode is input

inclock = INPUT();


--address[0] is address[0] at PIN_126
--operation mode is input

address[0] = INPUT();


--address[1] is address[1] at PIN_124
--operation mode is input

address[1] = INPUT();


--address[2] is address[2] at PIN_54
--operation mode is input

address[2] = INPUT();


--address[3] is address[3] at PIN_56
--operation mode is input

address[3] = INPUT();


--address[4] is address[4] at PIN_125
--operation mode is input

address[4] = INPUT();


--address[5] is address[5] at PIN_67
--operation mode is input

address[5] = INPUT();


--address[6] is address[6] at PIN_69
--operation mode is input

address[6] = INPUT();


--address[7] is address[7] at PIN_116
--operation mode is input

address[7] = INPUT();


--address[8] is address[8] at PIN_63
--operation mode is input

address[8] = INPUT();


--address[9] is address[9] at PIN_64
--operation mode is input

address[9] = INPUT();


--q[0] is q[0] at PIN_14
--operation mode is output

q[0] = OUTPUT(C1_q[0]);


--q[1] is q[1] at PIN_101
--operation mode is output

q[1] = OUTPUT(C1_q[1]);


--q[2] is q[2] at PIN_100
--operation mode is output

q[2] = OUTPUT(C1_q[2]);


--q[3] is q[3] at PIN_8
--operation mode is output

q[3] = OUTPUT(C1_q[3]);


--q[4] is q[4] at PIN_20
--operation mode is output

q[4] = OUTPUT(C1_q[4]);


--q[5] is q[5] at PIN_12
--operation mode is output

q[5] = OUTPUT(C1_q[5]);


--q[6] is q[6] at PIN_96
--operation mode is output

q[6] = OUTPUT(C1_q[6]);


--q[7] is q[7] at PIN_17
--operation mode is output

q[7] = OUTPUT(C1_q[7]);