from migen.fhdl.structure import * from migen.bus import csr from migen.bank import description, csrgen from migen.bank.description import * from migen.corelogic.misc import optree class Term: def __init__(self, width, pipe=False): self.width = width self.pipe = pipe self.reg_name = "term_reg" self.reg_base = 0 self.reg_size = 1*width self.i = Signal(BV(self.width)) self.t = Signal(BV(self.width)) self.o = Signal() def get_fragment(self): frag = [ self.o.eq(self.i==self.t) ] if self.pipe: return Fragment(sync=frag) else: return Fragment(comb=frag) def connect_to_reg(self, reg): comb = [] comb += [self.t.eq(reg.field.r[0*self.width:1*self.width])] return comb class RangeDetector: def __init__(self, width, pipe=False): self.width = width self.pipe = pipe self.reg_name = "range_reg" self.reg_base = 0 self.reg_size = 2*width self.i = Signal(BV(self.width)) self.low = Signal(BV(self.width)) self.high = Signal(BV(self.width)) self.o = Signal() def get_fragment(self): frag = [ self.o.eq((self.i >= self.low) & ((self.i <= self.high))) ] if self.pipe: return Fragment(sync=frag) else: return Fragment(comb=frag) def connect_to_reg(self, reg): comb = [] comb += [self.low.eq(reg.field.r[0*self.width:1*self.width])] comb += [self.low.eq(reg.field.r[1*self.width:2*self.width])] return comb class EdgeDetector: def __init__(self, width, pipe=False, mode = "RFB"): self.width = width self.pipe = pipe self.mode = mode self.reg_name = "edge_reg" self.reg_base = 0 self.reg_size = len(self.mode)*width self.i = Signal(BV(self.width)) self.i_d = Signal(BV(self.width)) if "R" in mode: self.r_mask = Signal(BV(self.width)) self.ro = Signal() if "F" in mode: self.f_mask = Signal(BV(self.width)) self.fo = Signal() if "B" in mode: self.b_mask = Signal(BV(self.width)) self.bo = Signal() self.o = Signal() def get_fragment(self): comb = [] sync = [] sync += [self.i_d.eq(self.i)] # Rising Edge if "R" in self.mode: r_eq = [self.ro.eq(self.r_mask & self.i & (~self.i_d))] if self.pipe: sync += r_eq else: comb += r_eq else: comb += [self.ro.eq(0)] # Falling Edge if "F" in self.mode: f_eq = [self.fo.eq(self.f_mask & (~ self.i) & self.i_d)] if self.pipe: sync += f_eq else: comb += f_eq else: comb += [self.fo.eq(0)] # Both if "B" in self.mode: b_eq = [self.bo.eq(self.b_mask & self.i != self.i_d)] if self.pipe: sync += b_eq else: comb += b_eq else: comb += [self.bo.eq(0)] #Output comb += [self.o.eq(self.ro | self.fo | self.bo)] return Fragment(comb, sync) def connect_to_reg(self, reg): comb = [] i = 0 if "R" in self.mode: comb += [self.r_mask.eq(reg.field.r[i*self.width:(i+1)*self.width])] i += 1 if "F" in self.mode: comb += [self.f_mask.eq(reg.field.r[i*self.width:(i+1)*self.width])] i += 1 if "B" in self.mode: comb += [self.b_mask.eq(reg.field.r[i*self.width:(i+1)*self.width])] i += 1 return comb class Timer: def __init__(self, width): self.width = width self.start = Signal() self.stop = Signal() self.clear = Signal() self.enable = Signal() self.cnt = Signal(BV(self.width)) self.cnt_max = Signal(BV(self.width)) self.o = Signal() def get_fragment(self): comb = [] sync = [] sync += [ If(self.stop, self.enable.eq(0), self.cnt.eq(0), self.o.eq(0) ).Elif(self.clear, self.cnt.eq(0), self.o.eq(0) ).Elif(self.start, self.enable.eq(1) ).Elif(self.enable, If(self.cnt <= self.cnt_max, self.cnt.eq(self.cnt+1) ).Else( self.o.eq(1) ) ), If(self.enable, self.enable.eq(0), self.cnt.eq(0) ).Elif(self.clear, self.cnt.eq(0) ).Elif(self.start, self.enable.eq(1) ) ] return Fragment(comb, sync) class Sum: def __init__(self,width=4,pipe=False): self.width = width self.pipe = pipe self.i = Signal(BV(self.width)) self._o = Signal() self.o = Signal() self._lut_port = MemoryPort(adr=self.i, dat_r=self._o) self.reg_name = "sum_reg" self.reg_base = 0 self.reg_size = 32 self.prog = Signal() self.prog_adr = Signal(BV(width)) self.prog_dat = Signal() self._prog_port = MemoryPort(adr=self.prog_adr, we=self.prog, dat_w=self.prog_dat) self._mem = Memory(1, 2**self.width, self._lut_port, self._prog_port) def get_fragment(self): comb = [] sync = [] memories = [self._mem] if self.pipe: sync += [self.o.eq(self._o)] else: comb += [self.o.eq(self._o)] return Fragment(comb=comb, sync=sync, memories=memories) def connect_to_reg(self, reg): comb = [] comb += [ self.prog_adr.eq(reg.field.r[0:16]), self.prog_dat.eq(reg.field.r[16]), self.prog.eq(reg.field.r[17]) ] return comb class Trigger: def __init__(self,address, trig_width, dat_width, ports): self.address = address self.trig_width = trig_width self.dat_width = dat_width self.ports = ports self.sum = Sum(len(self.ports)) self.in_trig = Signal(BV(self.trig_width)) self.in_dat = Signal(BV(self.dat_width)) self.hit = Signal() self.dat = Signal(BV(self.dat_width)) # Update port reg_name for i in range(len(self.ports)): self.ports[i].reg_name += "_%d"%i # Csr interface for port in self.ports: setattr(self,port.reg_name,RegisterField(port.reg_name, port.reg_size, reset=0, access_bus=WRITE_ONLY, access_dev=READ_ONLY)) self.sum_reg = RegisterField(self.sum.reg_name, self.sum.reg_size, reset=0, access_bus=WRITE_ONLY, access_dev=READ_ONLY) regs = [] objects = self.__dict__ for object in sorted(objects): if "_reg" in object: regs.append(objects[object]) self.bank = csrgen.Bank(regs,address=self.address) # Update base addr for port in self.ports: port.reg_base = self.bank.get_base(port.reg_name) self.sum.reg_base = self.bank.get_base(self.sum.reg_name) def get_fragment(self): comb = [] sync = [] # Connect in_trig to input of trig elements comb+= [port.i.eq(self.in_trig) for port in self.ports] # Connect output of trig elements to sum comb+= [self.sum.i[j].eq(self.ports[j].o) for j in range(len(self.ports))] # Connect sum ouput to hit comb+= [self.hit.eq(self.sum.o)] # Add ports & sum to frag frag = self.bank.get_fragment() frag += self.sum.get_fragment() for port in self.ports: frag += port.get_fragment() comb+= [self.dat.eq(self.in_dat)] #Connect Registers for port in self.ports: comb += port.connect_to_reg(getattr(self, port.reg_name)) comb += self.sum.connect_to_reg(self.sum_reg) return frag + Fragment(comb=comb, sync=sync)