zhishi.fit.eqn

VHDL语言设计的秒表

-- 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.
--count[1] is count[1] at LC_X1_Y23_N7
--operation mode is normal

count[1]_lut_out = !count[2] & (count[1] $ count[0]);
count[1] = DFFEAS(count[1]_lut_out, GLOBAL(clk1), GLOBAL(reset), , , , , , );


--count[0] is count[0] at LC_X1_Y23_N6
--operation mode is normal

count[0]_lut_out = !count[0] & (!count[1] # !count[2]);
count[0] = DFFEAS(count[0]_lut_out, GLOBAL(clk1), GLOBAL(reset), , , , , , );


--A1L28 is Mux~961 at LC_X1_Y23_N1
--operation mode is normal

A1L28 = count[0] & (minute[4]) # !count[0] & (count[1] & (minute[4]) # !count[1] & minute[0]);


--A1L29 is Mux~962 at LC_X1_Y23_N3
--operation mode is normal

A1L29 = count[0] & (msec[4] # count[1]) # !count[0] & (!count[1] & msec[0]);


--A1L30 is Mux~963 at LC_X1_Y23_N9
--operation mode is normal

A1L30 = count[1] & (A1L29 & sec[4] # !A1L29 & (sec[0])) # !count[1] & (A1L29);


--count[2] is count[2] at LC_X1_Y23_N0
--operation mode is normal

count[2]_lut_out = count[2] & !count[1] & !count[0] # !count[2] & count[1] & count[0];
count[2] = DFFEAS(count[2]_lut_out, GLOBAL(clk1), GLOBAL(reset), , , , , , );


--A1L31 is Mux~964 at LC_X1_Y23_N8
--operation mode is normal

A1L31 = count[2] & (A1L28) # !count[2] & A1L30;


--A1L32 is Mux~965 at LC_X4_Y26_N9
--operation mode is normal

A1L32 = count[0] & minute[5] # !count[0] & (count[1] & minute[5] # !count[1] & (minute[1]));


--A1L33 is Mux~966 at LC_X4_Y26_N8
--operation mode is normal

A1L33 = count[0] & (count[1]) # !count[0] & (count[1] & (sec[1]) # !count[1] & msec[1]);


--A1L34 is Mux~967 at LC_X4_Y26_N6
--operation mode is normal

A1L34 = count[0] & (A1L33 & sec[5] # !A1L33 & (msec[5])) # !count[0] & (A1L33);


--A1L35 is Mux~968 at LC_X4_Y26_N7
--operation mode is normal

A1L35 = count[2] & A1L32 # !count[2] & (A1L34);


--A1L36 is Mux~969 at LC_X4_Y26_N4
--operation mode is normal

A1L36 = count[0] & minute[6] # !count[0] & (count[1] & minute[6] # !count[1] & (minute[2]));


--A1L37 is Mux~970 at LC_X4_Y26_N5
--operation mode is normal

A1L37 = count[1] & count[0] # !count[1] & (count[0] & (msec[6]) # !count[0] & msec[2]);


--A1L38 is Mux~971 at LC_X4_Y26_N2
--operation mode is normal

A1L38 = count[1] & (A1L37 & sec[6] # !A1L37 & (sec[2])) # !count[1] & (A1L37);


--A1L39 is Mux~972 at LC_X4_Y26_N3
--operation mode is normal

A1L39 = count[2] & A1L36 # !count[2] & (A1L38);


--A1L40 is Mux~973 at LC_X1_Y23_N4
--operation mode is normal

A1L40 = !count[2] & (count[0] & msec[7] # !count[0] & (msec[3]));


--A1L41 is Mux~974 at LC_X1_Y23_N2
--operation mode is normal

A1L41 = !count[0] & (count[2] & minute[3] # !count[2] & (sec[3]));


--A1L42 is Mux~975 at LC_X1_Y23_N5
--operation mode is normal

A1L42 = count[1] & A1L41 & !count[2] # !count[1] & (A1L40 # A1L41 & count[2]);


--minute[4] is minute[4] at PIN_11
--operation mode is input

minute[4] = INPUT();


--minute[0] is minute[0] at PIN_240
--operation mode is input

minute[0] = INPUT();


--sec[0] is sec[0] at PIN_16
--operation mode is input

sec[0] = INPUT();


--msec[4] is msec[4] at PIN_15
--operation mode is input

msec[4] = INPUT();


--msec[0] is msec[0] at PIN_14
--operation mode is input

msec[0] = INPUT();


--sec[4] is sec[4] at PIN_19
--operation mode is input

sec[4] = INPUT();


--minute[5] is minute[5] at PIN_236
--operation mode is input

minute[5] = INPUT();


--minute[1] is minute[1] at PIN_5
--operation mode is input

minute[1] = INPUT();


--msec[5] is msec[5] at PIN_237
--operation mode is input

msec[5] = INPUT();


--sec[1] is sec[1] at PIN_238
--operation mode is input

sec[1] = INPUT();


--msec[1] is msec[1] at PIN_225
--operation mode is input

msec[1] = INPUT();


--sec[5] is sec[5] at PIN_228
--operation mode is input

sec[5] = INPUT();


--minute[6] is minute[6] at PIN_2
--operation mode is input

minute[6] = INPUT();


--minute[2] is minute[2] at PIN_226
--operation mode is input

minute[2] = INPUT();


--sec[2] is sec[2] at PIN_233
--operation mode is input

sec[2] = INPUT();


--msec[6] is msec[6] at PIN_234
--operation mode is input

msec[6] = INPUT();


--msec[2] is msec[2] at PIN_4
--operation mode is input

msec[2] = INPUT();


--sec[6] is sec[6] at PIN_227
--operation mode is input

sec[6] = INPUT();


--sec[3] is sec[3] at PIN_8
--operation mode is input

sec[3] = INPUT();


--minute[3] is minute[3] at PIN_18
--operation mode is input

minute[3] = INPUT();


--msec[7] is msec[7] at PIN_12
--operation mode is input

msec[7] = INPUT();


--msec[3] is msec[3] at PIN_239
--operation mode is input

msec[3] = INPUT();


--clk1 is clk1 at PIN_29
--operation mode is input

clk1 = INPUT();


--reset is reset at PIN_28
--operation mode is input

reset = INPUT();


--daout[0] is daout[0] at PIN_17
--operation mode is output

daout[0] = OUTPUT(A1L31);


--daout[1] is daout[1] at PIN_1
--operation mode is output

daout[1] = OUTPUT(A1L35);


--daout[2] is daout[2] at PIN_235
--operation mode is output

daout[2] = OUTPUT(A1L39);


--daout[3] is daout[3] at PIN_13
--operation mode is output

daout[3] = OUTPUT(A1L42);


--sel[0] is sel[0] at PIN_6
--operation mode is output

sel[0] = OUTPUT(count[0]);


--sel[1] is sel[1] at PIN_7
--operation mode is output

sel[1] = OUTPUT(count[1]);


--sel[2] is sel[2] at PIN_3
--operation mode is output

sel[2] = OUTPUT(count[2]);