]
+class FPNorm1Mod:
+
+ def __init__(self, width):
+ self.out_norm = Signal(reset_less=True)
+ self.in_z = FPNumBase(width, False)
+ self.out_z = FPNumBase(width, False)
+ self.in_of = Overflow()
+ self.out_of = Overflow()
+
+ def setup(self, m, in_z, out_z, in_of, out_of, out_norm):
+ """ links module to inputs and outputs
+ """
+ m.d.comb += self.in_z.copy(in_z)
+ m.d.comb += out_z.copy(self.out_z)
+ m.d.comb += self.in_of.copy(in_of)
+ m.d.comb += out_of.copy(self.out_of)
+ m.d.comb += out_norm.eq(self.out_norm)
+
+ def elaborate(self, platform):
+ m = Module()
+ m.submodules.norm1_in_overflow = self.in_of
+ m.submodules.norm1_out_overflow = self.out_of
+ m.submodules.norm1_in_z = self.in_z
+ m.submodules.norm1_out_z = self.out_z
+ m.d.comb += self.out_z.copy(self.in_z)
+ m.d.comb += self.out_of.copy(self.in_of)
+ m.d.comb += self.out_norm.eq((self.in_z.m[-1] == 0) & \
+ (self.in_z.e > self.in_z.N126))
+ with m.If(self.out_norm):
+ m.d.comb += [
+ self.out_z.e.eq(self.in_z.e - 1), # DECREASE exponent
+ self.out_z.m.eq(self.in_z.m << 1), # shift mantissa UP
+ self.out_z.m[0].eq(self.in_of.guard), # steal guard (was tot[2])
+ self.out_of.guard.eq(self.in_of.round_bit), # round (was tot[1])
+ self.out_of.round_bit.eq(0), # reset round bit
+ self.out_of.m0.eq(self.in_of.guard),
+ ]
+
+ return m
+
+
class FPNorm1(FPState):
+ def __init__(self, width):
+ FPState.__init__(self, "normalise_1")
+ self.mod = FPNorm1Mod(width)
+ self.out_norm = Signal(reset_less=True)
+ self.out_z = FPNumBase(width)
+ self.out_of = Overflow()
+
def action(self, m):
- self.normalise_1(m, self.z, self.of, "normalise_2")
+ m.d.sync += self.of.copy(self.out_of)
+ m.d.sync += self.z.copy(self.out_z)
+ with m.If(~self.out_norm):
+ m.next = "normalise_2"
class FPNorm2(FPState):
add1.set_inputs({"tot": tot, "z": z}) # Z input passes through
add1.set_outputs({"z": z, "of": of}) # XXX Z as output
- n1 = self.add_state(FPNorm1("normalise_1"))
+ n1 = self.add_state(FPNorm1(self.width))
n1.set_inputs({"z": z, "of": of}) # XXX Z as output
n1.set_outputs({"z": z}) # XXX Z as output
+ n1.mod.setup(m, z, n1.out_z, of, n1.out_of, n1.out_norm)
+ m.submodules.normalise_1 = n1.mod
n2 = self.add_state(FPNorm2("normalise_2"))
n2.set_inputs({"z": z, "of": of}) # XXX Z as output
projects / ieee754fpu.git / commitdiff