rtc_currd 299 src/simh/sim_timer.c static int32 rtc_currd[SIM_NTIMERS+1] = { 0 }; /* current delay */ rtc_currd 377 src/simh/sim_timer.c if (rtc_currd[tmr]) rtc_currd 378 src/simh/sim_timer.c time = rtc_currd[tmr]; rtc_currd 393 src/simh/sim_timer.c rtc_currd[tmr] = time; rtc_currd 425 src/simh/sim_timer.c rtc_currd[tmr] = (int32)(sim_timer_inst_per_sec()/ticksper); rtc_currd 435 src/simh/sim_timer.c return rtc_currd[tmr]; /* return now avoiding counting catchup tick in calibration */ rtc_currd 510 src/simh/sim_timer.c fprintf (st, " Current Insts Per Tick: %lu\n", (unsigned long)rtc_currd[tmr]); rtc_currd 812 src/simh/sim_timer.c sim_activate (sim_clock_unit[tmr], rtc_currd[tmr]); rtc_currd 823 src/simh/sim_timer.c _sim_activate (cptr, accum*rtc_currd[tmr]); rtc_currd 841 src/simh/sim_timer.c inst_per_sec = ((double)rtc_currd[sim_calb_tmr])*rtc_hz[sim_calb_tmr]; rtc_currd 843 src/simh/sim_timer.c inst_per_sec = ((double)rtc_currd[sim_calb_tmr])*sim_int_clk_tps;