:param partition_points: the input partition points
"""
self.width = width
- self.a = Signal(width)
- self.b = Signal(width)
- self.output = Signal(width)
+ self.a = Signal(width, reset_less=True)
+ self.b = Signal(width, reset_less=True)
+ self.output = Signal(width, reset_less=True)
self.partition_points = PartitionPoints(partition_points)
if not self.partition_points.fits_in_width(width):
raise ValueError("partition_points doesn't fit in width")
def __init__(self, ppoints, n_inputs, output_width, n_parts):
self.part_ops = [Signal(2, name=f"part_ops_{i}", reset_less=True)
for i in range(n_parts)]
- self.inputs = [Signal(output_width, name=f"inputs[{i}]", reset_less=True)
- for i in range(n_inputs)]
+ self.inputs = [Signal(output_width, name=f"inputs_{i}",
+ reset_less=True)
+ for i in range(n_inputs)]
self.reg_partition_points = ppoints.like()
def eq_from(self, reg_partition_points, inputs, 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,
next_levels, partition_points)
mods.append(next_level)
inputs = next_level.o.inputs
ilen = len(inputs)
part_ops = next_level.i.part_ops
- groups = AddReduceSingle.full_adder_groups(len(inputs))
- if len(groups) == 0:
- break
next_level = FinalAdd(ilen, self.output_width, n_parts,
next_levels, partition_points)
self.epps = epps
# inputs
- self.a = Signal(64)
- self.b = Signal(64)
- self.a_signed = [Signal(name=f"a_signed_{i}") for i in range(8)]
- self.b_signed = [Signal(name=f"_b_signed_{i}") for i in range(8)]
+ self.a = Signal(64, reset_less=True)
+ self.b = Signal(64, reset_less=True)
+ self.a_signed = [Signal(name=f"a_signed_{i}", reset_less=True)
+ for i in range(8)]
+ self.b_signed = [Signal(name=f"_b_signed_{i}", reset_less=True)
+ for i in range(8)]
self.pbs = Signal(pbwid, reset_less=True)
# outputs
- self.parts = [Signal(name=f"part_{i}") for i in range(n_parts)]
+ self.parts = [Signal(name=f"part_{i}", reset_less=True)
+ for i in range(n_parts)]
- self.not_a_term = Signal(width)
- self.neg_lsb_a_term = Signal(width)
- self.not_b_term = Signal(width)
- self.neg_lsb_b_term = Signal(width)
+ self.not_a_term = Signal(width, reset_less=True)
+ self.neg_lsb_a_term = Signal(width, reset_less=True)
+ self.not_b_term = Signal(width, reset_less=True)
+ self.neg_lsb_b_term = Signal(width, reset_less=True)
def elaborate(self, platform):
m = Module()