"""
def __init__(self, n_inputs, output_width, n_parts, partition_points):
- self.i = AddReduceData(partition_points, n_inputs,
- output_width, n_parts)
- self.o = FinalReduceData(partition_points, output_width, n_parts)
self.output_width = output_width
self.n_inputs = n_inputs
self.n_parts = n_parts
if not self.partition_points.fits_in_width(output_width):
raise ValueError("partition_points doesn't fit in output_width")
+ self.i = self.ispec()
+ self.o = self.ospec()
+
+ def ispec(self):
+ return AddReduceData(self.partition_points, self.n_inputs,
+ self.output_width, self.n_parts)
+
+ def ospec(self):
+ return FinalReduceData(self.partition_points,
+ self.output_width, self.n_parts)
+
def elaborate(self, platform):
"""Elaborate this module."""
m = Module()
self.n_inputs = n_inputs
self.n_parts = n_parts
self.output_width = output_width
- self.i = AddReduceData(partition_points, n_inputs,
- output_width, n_parts)
self.partition_points = PartitionPoints(partition_points)
if not self.partition_points.fits_in_width(output_width):
raise ValueError("partition_points doesn't fit in output_width")
self.groups = AddReduceSingle.full_adder_groups(n_inputs)
- n_terms = AddReduceSingle.calc_n_inputs(n_inputs, self.groups)
- self.o = AddReduceData(partition_points, n_terms, output_width, n_parts)
+ self.n_terms = AddReduceSingle.calc_n_inputs(n_inputs, self.groups)
+
+ self.i = self.ispec()
+ self.o = self.ospec()
+
+ def ispec(self):
+ return AddReduceData(self.partition_points, self.n_inputs,
+ self.output_width, self.n_parts)
+
+ def ospec(self):
+ return AddReduceData(self.partition_points, self.n_terms,
+ self.output_width, self.n_parts)
@staticmethod
def calc_n_inputs(n_inputs, groups):
supported, except for by ``Signal.eq``.
"""
- def __init__(self, inputs, output_width, partition_points,
- part_ops):
+ def __init__(self, i, output_width):
"""Create an ``AddReduce``.
:param inputs: input ``Signal``s to be summed.
:param output_width: bit-width of ``output``.
:param partition_points: the input partition points.
"""
- self.inputs = inputs
- self.part_ops = part_ops
+ self.i = i
+ self.inputs = i.terms
+ self.part_ops = i.part_ops
self.output_width = output_width
- self.partition_points = partition_points
+ self.partition_points = i.part_pts
self.create_levels()
supported, except for by ``Signal.eq``.
"""
- def __init__(self, inputs, output_width, register_levels, partition_points,
+ def __init__(self, inputs, output_width, register_levels, part_pts,
part_ops):
"""Create an ``AddReduce``.
pipeline registers.
:param partition_points: the input partition points.
"""
- AddReduceInternal.__init__(self, inputs, output_width,
- partition_points, part_ops)
+ self._inputs = inputs
+ self._part_pts = part_pts
+ self._part_ops = part_ops
n_parts = len(part_ops)
- self.o = FinalReduceData(partition_points, output_width, n_parts)
+ self.i = AddReduceData(part_pts, len(inputs),
+ output_width, n_parts)
+ AddReduceInternal.__init__(self, self.i, output_width)
+ self.o = FinalReduceData(part_pts, output_width, n_parts)
self.register_levels = register_levels
@staticmethod
if level > 0:
yield level - 1
- def create_levels(self):
- """creates reduction levels"""
-
- mods = []
- partition_points = self.partition_points
- part_ops = self.part_ops
- n_parts = len(part_ops)
- inputs = self.inputs
- ilen = len(inputs)
- while True:
- groups = AddReduceSingle.full_adder_groups(len(inputs))
- if len(groups) == 0:
- break
- next_level = AddReduceSingle(ilen, self.output_width, n_parts,
- partition_points)
- mods.append(next_level)
- partition_points = next_level.i.part_pts
- inputs = next_level.o.terms
- ilen = len(inputs)
- part_ops = next_level.i.part_ops
-
- next_level = FinalAdd(ilen, self.output_width, n_parts,
- partition_points)
- mods.append(next_level)
-
- self.levels = mods
-
def elaborate(self, platform):
"""Elaborate this module."""
m = Module()
+ m.d.comb += self.i.eq_from(self._part_pts, self._inputs, self._part_ops)
+
for i, next_level in enumerate(self.levels):
setattr(m.submodules, "next_level%d" % i, next_level)
- partition_points = self.partition_points
- inputs = self.inputs
- part_ops = self.part_ops
- n_parts = len(part_ops)
- n_inputs = len(inputs)
- output_width = self.output_width
- i = AddReduceData(partition_points, n_inputs, output_width, n_parts)
- m.d.comb += i.eq_from(partition_points, inputs, part_ops)
+ i = self.i
for idx in range(len(self.levels)):
mcur = self.levels[idx]
if idx in self.register_levels:
"""
def __init__(self, output_width, n_parts, part_pts):
self.part_pts = part_pts
- self.i = IntermediateData(part_pts, output_width, n_parts)
+ self.output_width = output_width
+ self.n_parts = n_parts
self.out_wid = output_width//2
- # output
- self.out = Signal(self.out_wid, reset_less=True)
- self.intermediate_output = Signal(output_width, reset_less=True)
+
+ self.i = self.ispec()
+ self.o = self.ospec()
+
+ def ispec(self):
+ return IntermediateData(self.part_pts, self.output_width, self.n_parts)
+
+ def ospec(self):
+ return OutputData()
def elaborate(self, platform):
m = Module()
Mux(d32[i // 4], i32.bit_select(i * 8, 8),
i64.bit_select(i * 8, 8))))
ol.append(op)
- m.d.comb += self.out.eq(Cat(*ol))
- m.d.comb += self.intermediate_output.eq(self.i.intermediate_output)
+
+ # create outputs
+ m.d.comb += self.o.output.eq(Cat(*ol))
+ m.d.comb += self.o.intermediate_output.eq(self.i.intermediate_output)
+
return m
return self.eq_from(rhs.part_pts, rhs.a, rhs.b, rhs.part_ops)
+class OutputData:
+
+ def __init__(self):
+ self.intermediate_output = Signal(128) # needed for unit tests
+ self.output = Signal(64)
+
+ def eq(self, rhs):
+ return [self.intermediate_output.eq(rhs.intermediate_output),
+ self.output.eq(rhs.output)]
+
+
class AllTerms(Elaboratable):
"""Set of terms to be added together
"""
pipeline registers.
:param partition_points: the input partition points.
"""
- self.i = InputData()
self.register_levels = register_levels
self.n_inputs = n_inputs
self.n_parts = n_parts
self.output_width = output_width
- self.o = AddReduceData(self.i.part_pts, n_inputs,
- output_width, n_parts)
+
+ self.i = self.ispec()
+ self.o = self.ospec()
+
+ def ispec(self):
+ return InputData()
+
+ def ospec(self):
+ return AddReduceData(self.i.part_pts, self.n_inputs,
+ self.output_width, self.n_parts)
def elaborate(self, platform):
m = Module()
""" Intermediate output modules
"""
- def __init__(self, output_width, n_parts, partition_points):
- self.i = FinalReduceData(partition_points, output_width, n_parts)
- self.o = IntermediateData(partition_points, output_width, n_parts)
+ def __init__(self, output_width, n_parts, part_pts):
+ self.part_pts = part_pts
+ self.output_width = output_width
+ self.n_parts = n_parts
+
+ self.i = self.ispec()
+ self.o = self.ospec()
+
+ def ispec(self):
+ return FinalReduceData(self.part_pts, self.output_width, self.n_parts)
+
+ def ospec(self):
+ return IntermediateData(self.part_pts, self.output_width, self.n_parts)
def elaborate(self, platform):
m = Module()
# parameter(s)
self.register_levels = list(register_levels)
+ self.i = self.ispec()
+ self.o = self.ospec()
+
# inputs
- self.i = InputData()
self.part_pts = self.i.part_pts
self.part_ops = self.i.part_ops
self.a = self.i.a
self.b = self.i.b
- # intermediates (needed for unit tests)
- self.intermediate_output = Signal(128)
-
# output
- self.output = Signal(64)
+ self.intermediate_output = self.o.intermediate_output
+ self.output = self.o.output
+
+ def ispec(self):
+ return InputData()
+
+ def ospec(self):
+ return OutputData()
def elaborate(self, platform):
m = Module()
t.o.part_pts,
t.o.part_ops)
- out_part_ops = add_reduce.o.part_ops
- out_part_pts = add_reduce.o.part_pts
-
m.submodules.add_reduce = add_reduce
interm = Intermediates(128, 8, part_pts)
# final output
m.submodules.finalout = finalout = FinalOut(128, 8, part_pts)
m.d.comb += finalout.i.eq(interm.o)
- m.d.comb += self.output.eq(finalout.out)
- m.d.comb += self.intermediate_output.eq(finalout.intermediate_output)
+ m.d.comb += self.o.eq(finalout.o)
return m