此文件是对xilinx95144器件编的程序
源代码在线查看: tba_2472.data
MODELDATA
MODELDATA_VERSION "v1998.8"
DESIGN "tba_2472";
/* port drive, load, max capacitance and max transition in data file */
PORTDATA
cs: MAXTRANS(0.0);
reset: MAXTRANS(0.0);
wr: MAXTRANS(0.0);
p0: MAXTRANS(0.0);
p0: MAXTRANS(0.0);
ale: MAXTRANS(0.0);
rd: MAXTRANS(0.0);
speed: MAXTRANS(0.0);
speed: MAXTRANS(0.0);
speed: MAXTRANS(0.0);
speed: MAXTRANS(0.0);
speed: MAXTRANS(0.0);
playing: MAXTRANS(0.0);
speed: MAXTRANS(0.0);
m_s_in: MAXTRANS(0.0);
radio: MAXTRANS(0.0);
nofile: MAXTRANS(0.0);
p0: MAXTRANS(0.0);
p0: MAXTRANS(0.0);
p0: MAXTRANS(0.0);
p0: MAXTRANS(0.0);
p0: MAXTRANS(0.0);
p0: MAXTRANS(0.0);
en485: MAXTRANS(0.0);
lcd_c: MAXTRANS(0.0);
led1: MAXTRANS(0.0);
led: MAXTRANS(0.0);
led: MAXTRANS(0.0);
led: MAXTRANS(0.0);
led: MAXTRANS(0.0);
load: MAXTRANS(0.0);
m_s_out: MAXTRANS(0.0);
outputh: MAXTRANS(0.0);
outputh: MAXTRANS(0.0);
outputl: MAXTRANS(0.0);
outputl: MAXTRANS(0.0);
outputl: MAXTRANS(0.0);
outputl: MAXTRANS(0.0);
outputl: MAXTRANS(0.0);
outputl: MAXTRANS(0.0);
outputl: MAXTRANS(0.0);
outputl: MAXTRANS(0.0);
pa_c: MAXTRANS(0.0);
play_s: MAXTRANS(0.0);
stop_s: MAXTRANS(0.0);
updown: MAXTRANS(0.0);
check: MAXTRANS(0.0);
check: MAXTRANS(0.0);
check: MAXTRANS(0.0);
ledd: MAXTRANS(0.0);
ledd: MAXTRANS(0.0);
ledd: MAXTRANS(0.0);
ledd: MAXTRANS(0.0);
ENDPORTDATA
/* timing arc data */
TIMINGDATA
ARCDATA
cs_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
reset_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
rd_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
playing_p0_delay:
CELL_RISE(scalar) {
VALUES("18");
}
CELL_FALL(scalar) {
VALUES("18");
}
ENDARCDATA
ARCDATA
speed_p0_delay:
CELL_RISE(scalar) {
VALUES("18");
}
CELL_FALL(scalar) {
VALUES("18");
}
ENDARCDATA
ARCDATA
m_s_in_p0_delay:
CELL_RISE(scalar) {
VALUES("18");
}
CELL_FALL(scalar) {
VALUES("18");
}
ENDARCDATA
ARCDATA
radio_p0_delay:
CELL_RISE(scalar) {
VALUES("18");
}
CELL_FALL(scalar) {
VALUES("18");
}
ENDARCDATA
ARCDATA
nofile_p0_delay:
CELL_RISE(scalar) {
VALUES("18");
}
CELL_FALL(scalar) {
VALUES("18");
}
ENDARCDATA
ARCDATA
cs_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
reset_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
rd_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
speed_p0_delay:
CELL_RISE(scalar) {
VALUES("7.5");
}
CELL_FALL(scalar) {
VALUES("7.5");
}
ENDARCDATA
ARCDATA
cs_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
reset_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
rd_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
speed_p0_delay:
CELL_RISE(scalar) {
VALUES("7.5");
}
CELL_FALL(scalar) {
VALUES("7.5");
}
ENDARCDATA
ARCDATA
cs_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
reset_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
rd_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
speed_p0_delay:
CELL_RISE(scalar) {
VALUES("7.5");
}
CELL_FALL(scalar) {
VALUES("7.5");
}
ENDARCDATA
ARCDATA
cs_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
reset_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
rd_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
speed_p0_delay:
CELL_RISE(scalar) {
VALUES("7.5");
}
CELL_FALL(scalar) {
VALUES("7.5");
}
ENDARCDATA
ARCDATA
cs_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
reset_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
rd_p0_delay:
CELL_RISE(scalar) {
VALUES("9.5");
}
CELL_FALL(scalar) {
VALUES("9.5");
}
ENDARCDATA
ARCDATA
speed_p0_delay:
CELL_RISE(scalar) {
VALUES("7.5");
}
CELL_FALL(scalar) {
VALUES("7.5");
}
ENDARCDATA
ARCDATA
ale_p0_delay:
CELL_RISE(scalar) {
VALUES("31.5");
}
CELL_FALL(scalar) {
VALUES("31.5");
}
ENDARCDATA
ARCDATA
ale_p0_delay:
CELL_RISE(scalar) {
VALUES("21");
}
CELL_FALL(scalar) {
VALUES("21");
}
ENDARCDATA
ARCDATA
ale_p0_delay:
CELL_RISE(scalar) {
VALUES("21");
}
CELL_FALL(scalar) {
VALUES("21");
}
ENDARCDATA
ARCDATA
ale_p0_delay:
CELL_RISE(scalar) {
VALUES("21");
}
CELL_FALL(scalar) {
VALUES("21");
}
ENDARCDATA
ARCDATA
ale_p0_delay:
CELL_RISE(scalar) {
VALUES("21");
}
CELL_FALL(scalar) {
VALUES("21");
}
ENDARCDATA
ARCDATA
ale_p0_delay:
CELL_RISE(scalar) {
VALUES("21");
}
CELL_FALL(scalar) {
VALUES("21");
}
ENDARCDATA
ARCDATA
wr_en485_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_lcd_c_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_led1_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_led_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_led_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_led_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_led_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_load_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_m_s_out_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_outputh_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_outputh_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_outputl_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_outputl_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_outputl_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_outputl_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_outputl_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_outputl_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_outputl_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_outputl_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_pa_c_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_play_s_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_stop_s_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_updown_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_check_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_check_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
wr_check_delay:
CELL_RISE(scalar) {
VALUES("8.5");
}
CELL_FALL(scalar) {
VALUES("8.5");
}
ENDARCDATA
ARCDATA
p0_ale_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
p0_ale_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
p0_ale_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
p0_ale_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
p0_ale_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
p0_ale_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
p0_ale_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
p0_ale_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
cs_wr_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
p0_wr_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
p0_wr_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
p0_wr_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
p0_wr_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
p0_wr_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
p0_wr_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
p0_wr_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
p0_wr_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
reset_wr_setup:
CONSTRAINT(scalar) {
VALUES("2");
}
ENDARCDATA
ARCDATA
cs_wr_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
p0_wr_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
p0_wr_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
p0_wr_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
p0_wr_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
p0_wr_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
p0_wr_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
p0_wr_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
p0_wr_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ARCDATA
reset_wr_hold:
CONSTRAINT(scalar) {
VALUES("2.5");
}
ENDARCDATA
ENDTIMINGDATA
ENDMODELDATA
