latch1.map.eqn

FPGA光电编码器输入模块

-- 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.
--REG_TEMP[0] is REG_TEMP[0]
REG_TEMP[0] = DFFEAS(A1L54, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[1] is REG_TEMP[1]
REG_TEMP[1] = DFFEAS(A1L55, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[2] is REG_TEMP[2]
REG_TEMP[2] = DFFEAS(A1L56, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[3] is REG_TEMP[3]
REG_TEMP[3] = DFFEAS(A1L57, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[4] is REG_TEMP[4]
REG_TEMP[4] = DFFEAS(A1L58, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[5] is REG_TEMP[5]
REG_TEMP[5] = DFFEAS(A1L59, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[6] is REG_TEMP[6]
REG_TEMP[6] = DFFEAS(A1L60, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[7] is REG_TEMP[7]
REG_TEMP[7] = DFFEAS(A1L61, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[8] is REG_TEMP[8]
REG_TEMP[8] = DFFEAS(A1L62, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[9] is REG_TEMP[9]
REG_TEMP[9] = DFFEAS(A1L63, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[10] is REG_TEMP[10]
REG_TEMP[10] = DFFEAS(A1L64, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[11] is REG_TEMP[11]
REG_TEMP[11] = DFFEAS(A1L65, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[12] is REG_TEMP[12]
REG_TEMP[12] = DFFEAS(A1L66, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[13] is REG_TEMP[13]
REG_TEMP[13] = DFFEAS(A1L67, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[14] is REG_TEMP[14]
REG_TEMP[14] = DFFEAS(A1L68, CE,  ,  ,  ,  ,  ,  ,  );


--REG_TEMP[15] is REG_TEMP[15]
REG_TEMP[15] = DFFEAS(A1L69, CE,  ,  ,  ,  ,  ,  ,  );


--A1L54 is REG_TEMP~210
A1L54 = CLR & PULSE_COUNT[0];


--A1L55 is REG_TEMP~211
A1L55 = CLR & PULSE_COUNT[1];


--A1L56 is REG_TEMP~212
A1L56 = CLR & PULSE_COUNT[2];


--A1L57 is REG_TEMP~213
A1L57 = CLR & PULSE_COUNT[3];


--A1L58 is REG_TEMP~214
A1L58 = CLR & PULSE_COUNT[4];


--A1L59 is REG_TEMP~215
A1L59 = CLR & PULSE_COUNT[5];


--A1L60 is REG_TEMP~216
A1L60 = CLR & PULSE_COUNT[6];


--A1L61 is REG_TEMP~217
A1L61 = CLR & PULSE_COUNT[7];


--A1L62 is REG_TEMP~218
A1L62 = CLR & PULSE_COUNT[8];


--A1L63 is REG_TEMP~219
A1L63 = CLR & PULSE_COUNT[9];


--A1L64 is REG_TEMP~220
A1L64 = CLR & PULSE_COUNT[10];


--A1L65 is REG_TEMP~221
A1L65 = CLR & PULSE_COUNT[11];


--A1L66 is REG_TEMP~222
A1L66 = CLR & PULSE_COUNT[12];


--A1L67 is REG_TEMP~223
A1L67 = CLR & PULSE_COUNT[13];


--A1L68 is REG_TEMP~224
A1L68 = CLR & PULSE_COUNT[14];


--A1L69 is REG_TEMP~225
A1L69 = CLR & PULSE_COUNT[15];


--CE is CE
--operation mode is input

CE = INPUT();


--CLR is CLR
--operation mode is input

CLR = INPUT();


--PULSE_COUNT[0] is PULSE_COUNT[0]
--operation mode is input

PULSE_COUNT[0] = INPUT();


--PULSE_COUNT[1] is PULSE_COUNT[1]
--operation mode is input

PULSE_COUNT[1] = INPUT();


--PULSE_COUNT[2] is PULSE_COUNT[2]
--operation mode is input

PULSE_COUNT[2] = INPUT();


--PULSE_COUNT[3] is PULSE_COUNT[3]
--operation mode is input

PULSE_COUNT[3] = INPUT();


--PULSE_COUNT[4] is PULSE_COUNT[4]
--operation mode is input

PULSE_COUNT[4] = INPUT();


--PULSE_COUNT[5] is PULSE_COUNT[5]
--operation mode is input

PULSE_COUNT[5] = INPUT();


--PULSE_COUNT[6] is PULSE_COUNT[6]
--operation mode is input

PULSE_COUNT[6] = INPUT();


--PULSE_COUNT[7] is PULSE_COUNT[7]
--operation mode is input

PULSE_COUNT[7] = INPUT();


--PULSE_COUNT[8] is PULSE_COUNT[8]
--operation mode is input

PULSE_COUNT[8] = INPUT();


--PULSE_COUNT[9] is PULSE_COUNT[9]
--operation mode is input

PULSE_COUNT[9] = INPUT();


--PULSE_COUNT[10] is PULSE_COUNT[10]
--operation mode is input

PULSE_COUNT[10] = INPUT();


--PULSE_COUNT[11] is PULSE_COUNT[11]
--operation mode is input

PULSE_COUNT[11] = INPUT();


--PULSE_COUNT[12] is PULSE_COUNT[12]
--operation mode is input

PULSE_COUNT[12] = INPUT();


--PULSE_COUNT[13] is PULSE_COUNT[13]
--operation mode is input

PULSE_COUNT[13] = INPUT();


--PULSE_COUNT[14] is PULSE_COUNT[14]
--operation mode is input

PULSE_COUNT[14] = INPUT();


--PULSE_COUNT[15] is PULSE_COUNT[15]
--operation mode is input

PULSE_COUNT[15] = INPUT();


--PC_OUT[0] is PC_OUT[0]
--operation mode is output

PC_OUT[0]_tri_out = TRI(REG_TEMP[0], CE);
PC_OUT[0] = OUTPUT(PC_OUT[0]_tri_out);


--PC_OUT[1] is PC_OUT[1]
--operation mode is output

PC_OUT[1]_tri_out = TRI(REG_TEMP[1], CE);
PC_OUT[1] = OUTPUT(PC_OUT[1]_tri_out);


--PC_OUT[2] is PC_OUT[2]
--operation mode is output

PC_OUT[2]_tri_out = TRI(REG_TEMP[2], CE);
PC_OUT[2] = OUTPUT(PC_OUT[2]_tri_out);


--PC_OUT[3] is PC_OUT[3]
--operation mode is output

PC_OUT[3]_tri_out = TRI(REG_TEMP[3], CE);
PC_OUT[3] = OUTPUT(PC_OUT[3]_tri_out);


--PC_OUT[4] is PC_OUT[4]
--operation mode is output

PC_OUT[4]_tri_out = TRI(REG_TEMP[4], CE);
PC_OUT[4] = OUTPUT(PC_OUT[4]_tri_out);


--PC_OUT[5] is PC_OUT[5]
--operation mode is output

PC_OUT[5]_tri_out = TRI(REG_TEMP[5], CE);
PC_OUT[5] = OUTPUT(PC_OUT[5]_tri_out);


--PC_OUT[6] is PC_OUT[6]
--operation mode is output

PC_OUT[6]_tri_out = TRI(REG_TEMP[6], CE);
PC_OUT[6] = OUTPUT(PC_OUT[6]_tri_out);


--PC_OUT[7] is PC_OUT[7]
--operation mode is output

PC_OUT[7]_tri_out = TRI(REG_TEMP[7], CE);
PC_OUT[7] = OUTPUT(PC_OUT[7]_tri_out);


--PC_OUT[8] is PC_OUT[8]
--operation mode is output

PC_OUT[8]_tri_out = TRI(REG_TEMP[8], CE);
PC_OUT[8] = OUTPUT(PC_OUT[8]_tri_out);


--PC_OUT[9] is PC_OUT[9]
--operation mode is output

PC_OUT[9]_tri_out = TRI(REG_TEMP[9], CE);
PC_OUT[9] = OUTPUT(PC_OUT[9]_tri_out);


--PC_OUT[10] is PC_OUT[10]
--operation mode is output

PC_OUT[10]_tri_out = TRI(REG_TEMP[10], CE);
PC_OUT[10] = OUTPUT(PC_OUT[10]_tri_out);


--PC_OUT[11] is PC_OUT[11]
--operation mode is output

PC_OUT[11]_tri_out = TRI(REG_TEMP[11], CE);
PC_OUT[11] = OUTPUT(PC_OUT[11]_tri_out);


--PC_OUT[12] is PC_OUT[12]
--operation mode is output

PC_OUT[12]_tri_out = TRI(REG_TEMP[12], CE);
PC_OUT[12] = OUTPUT(PC_OUT[12]_tri_out);


--PC_OUT[13] is PC_OUT[13]
--operation mode is output

PC_OUT[13]_tri_out = TRI(REG_TEMP[13], CE);
PC_OUT[13] = OUTPUT(PC_OUT[13]_tri_out);


--PC_OUT[14] is PC_OUT[14]
--operation mode is output

PC_OUT[14]_tri_out = TRI(REG_TEMP[14], CE);
PC_OUT[14] = OUTPUT(PC_OUT[14]_tri_out);


--PC_OUT[15] is PC_OUT[15]
--operation mode is output

PC_OUT[15]_tri_out = TRI(REG_TEMP[15], CE);
PC_OUT[15] = OUTPUT(PC_OUT[15]_tri_out);