from migen.fhdl.structure import * from migen.fhdl import verilog, autofragment from migen.bus import csr from migen.sim.generic import Simulator, PureSimulable, TopLevel from migen.sim.icarus import Runner from migen.bus.transactions import * import sys sys.path.append("../") from migScope import trigger, recorder from migScope.tools.truthtable import * from migScope.tools.vcd import * TRIGGER_ADDR = 0x0000 RECORDER_ADDR = 0x0200 rec_done = False dat_rdy = False dat_vcd = [] def term_prog(off, dat): for i in range(4): yield TWrite(off+3-i, (dat>>(8*i))&0xFF) def sum_prog(off, addr, dat): we = 2 yield TWrite(off+3, addr%0xFF) yield TWrite(off+2, (addr>>8)%0xFF) yield TWrite(off+1, we+dat) yield TWrite(off+0, 0) for i in range(4): yield TWrite(off+i,0) def csr_transactions(trigger0, recorder0): # Trigger Prog ############################## # Term Prog term_trans = [] term_trans += [term_prog(trigger0.ports[0].reg_base,0x00000000)] term_trans += [term_prog(trigger0.ports[1].reg_base,0x00000004)] term_trans += [term_prog(trigger0.ports[2].reg_base,0x00000008)] term_trans += [term_prog(trigger0.ports[3].reg_base,0x0000000C)] for t in term_trans: for r in t: yield r # Sum Prog sum_tt = gen_truth_table("term0 | term1 | term2 | term3") sum_trans = [] for i in range(len(sum_tt)): sum_trans.append(sum_prog(trigger0.sum.reg_base,i,sum_tt[i])) for t in sum_trans: for r in t: yield r # Recorder Prog ############################## #Reset yield TWrite(recorder0.address + 0, 1) yield TWrite(recorder0.address + 0, 0) #Size yield TWrite(recorder0.address + 3, 0) yield TWrite(recorder0.address + 4, 64) #Offset yield TWrite(recorder0.address + 5, 0) yield TWrite(recorder0.address + 6, 16) #Arm yield TWrite(recorder0.address + 1, 1) global rec_done while not rec_done: yield None global dat_rdy for t in range(64): yield TWrite(recorder0.address + 7, 1) dat_rdy = False yield TWrite(recorder0.address + 7, 0) yield TRead(recorder0.address + 8) yield TRead(recorder0.address + 9) yield TRead(recorder0.address + 10) yield TRead(recorder0.address + 11) dat_rdy = True dat_rdy = False for t in range(512): yield None trig_sig_val = 0 def main(): # Trigger term0 = trigger.Term(32) term1 = trigger.Term(32) term2 = trigger.Term(32) term3 = trigger.Term(32) trigger0 = trigger.Trigger(TRIGGER_ADDR, 32, 64, [term0, term1, term2, term3]) # Recorder recorder0 = recorder.Recorder(RECORDER_ADDR, 32, 1024) # Csr Master csr_master0 = csr.Initiator(csr_transactions(trigger0, recorder0)) # Csr Interconnect csrcon0 = csr.Interconnect(csr_master0.bus, [ trigger0.bank.interface, recorder0.bank.interface ]) trig_sig = Signal(BV(32)) comb = [] comb +=[ trigger0.in_trig.eq(trig_sig) ] comb += [ recorder0.trig_dat.eq(trig_sig), recorder0.trig_hit.eq(trigger0.hit) ] # Term Test def term_stimuli(s): global trig_sig_val s.wr(trig_sig,trig_sig_val) trig_sig_val += 1 trig_sig_val = trig_sig_val % 256 # Recorder Data def recorder_data(s): global rec_done if s.rd(recorder0.sequencer.rec_done) == 1: rec_done = True global dat_rdy if dat_rdy: print("%08X" %s.rd(recorder0._get_dat.field.w)) global dat_vcd dat_vcd.append(s.rd(recorder0._get_dat.field.w)) # Simulation def end_simulation(s): s.interrupt = csr_master0.done myvcd = Vcd() myvcd.add(Var("wire",32,"trig_dat",dat_vcd)) f = open("tb_Miscope_Out.vcd","w") f.write(str(myvcd)) f.close() fragment = autofragment.from_local() fragment += Fragment(comb=comb) fragment += Fragment(sim=[term_stimuli]) fragment += Fragment(sim=[recorder_data]) fragment += Fragment(sim=[end_simulation]) sim = Simulator(fragment, Runner(),TopLevel("tb_MigScope.vcd")) sim.run(2000) main() input()