https://bugs.libre-soc.org/show_bug.cgi?id=784
"""
-from functools import reduce
import operator
from nmigen.hdl.ir import Elaboratable
-from nmigen.hdl.ast import Signal, Cat, Repl, Value
+from nmigen.hdl.ast import Signal, Repl
from nmigen.hdl.dsl import Module
from nmutil.util import treereduce
-# XXX class to be removed https://bugs.libre-soc.org/show_bug.cgi?id=784
-# functionality covered already entirely by nmutil.util.tree_reduce
-class BitwiseXorReduce(Elaboratable):
- """Bitwise Xor lots of stuff together by using tree-reduction on each bit.
-
- Properties:
- input_values: tuple[Value, ...]
- input nmigen Values
- output: Signal
- output, set to `input_values[0] ^ input_values[1] ^ input_values[2]...`
- """
-
- def __init__(self, input_values):
- self.input_values = tuple(map(Value.cast, input_values))
- assert len(self.input_values) > 0, "can't xor-reduce nothing"
- self.output = Signal(reduce(operator.xor, self.input_values).shape())
-
- def elaborate(self, platform):
- m = Module()
- # collect inputs into full-width Signals
- inputs = []
- for i, inp_v in enumerate(self.input_values):
- inp = self.output.like(self.output, name=f"input_{i}")
- # sign/zero-extend inp_v to full-width
- m.d.comb += inp.eq(inp_v)
- inputs.append(inp)
- for bit in range(self.output.width):
- # construct a tree-reduction for bit index `bit` of all inputs
- m.d.comb += self.output[bit].eq(Cat(i[bit] for i in inputs).xor())
- return m
-
-
class CLMulAdd(Elaboratable):
"""Carry-less multiply-add. (optional add)
# of Horizon 2020 EU Programme 957073.
from functools import reduce
-from operator import xor
+import operator
import unittest
-from nmigen.hdl.ast import (AnyConst, Assert, Signal, Const, unsigned, signed,
- Mux)
+from nmigen.hdl.ast import AnyConst, Assert, Signal, Const, unsigned, Mux
from nmigen.hdl.dsl import Module
from nmutil.formaltest import FHDLTestCase
from nmigen_gf.reference.clmul import clmul
-from nmigen_gf.hdl.clmul import BitwiseXorReduce, CLMulAdd
+from nmigen_gf.hdl.clmul import CLMulAdd
from nmigen.sim import Delay
from nmutil.sim_util import do_sim, hash_256
-class TestBitwiseXorReduce(FHDLTestCase):
- def tst(self, input_shapes):
- dut = BitwiseXorReduce(Signal(w, name=f"input_{i}")
- for i, w in enumerate(input_shapes))
- self.assertEqual(reduce(xor, dut.input_values).shape(),
- dut.output.shape())
-
- def case(inputs):
- expected = reduce(xor, inputs)
- with self.subTest(inputs=list(map(hex, inputs)),
- expected=hex(expected)):
- for i, inp in enumerate(inputs):
- yield dut.input_values[i].eq(inp)
- yield Delay(1e-6)
- output = yield dut.output
- with self.subTest(output=hex(output)):
- self.assertEqual(expected, output)
-
- def process():
- for i in range(100):
- inputs = []
- for inp in dut.input_values:
- v = hash_256(f"bxorr input {i} {inp.name}")
- inputs.append(Const.normalize(v, inp.shape()))
- yield from case(inputs)
-
- with do_sim(self, dut, [*dut.input_values, dut.output]) as sim:
- sim.add_process(process)
- sim.run()
-
- def tst_formal(self, input_shapes):
- dut = BitwiseXorReduce(Signal(w, name=f"input_{i}")
- for i, w in enumerate(input_shapes))
- m = Module()
- m.submodules.dut = dut
- for i in dut.input_values:
- m.d.comb += i.eq(AnyConst(i.shape()))
- m.d.comb += Assert(dut.output == reduce(xor, dut.input_values))
- self.assertFormal(m)
-
- def test_65_of_u64(self):
- self.tst([64] * 65)
-
- def test_formal_65_of_u64(self):
- self.tst_formal([64] * 65)
-
- def test_5_of_u6(self):
- self.tst([6] * 5)
-
- def test_formal_5_of_u6(self):
- self.tst_formal([6] * 5)
-
- def test_u5_i6_u3_i10(self):
- self.tst([unsigned(5), signed(6), unsigned(3), signed(10)])
-
- def test_formal_u5_i6_u3_i10(self):
- self.tst_formal([unsigned(5), signed(6), unsigned(3), signed(10)])
-
-
class TestCLMulAdd(FHDLTestCase):
def tst(self, factor_width, terms_width):
dut = CLMulAdd(factor_width, terms_width)
max((factor_width * 2 - 1, *terms_width)))
def case(factor1, factor2, terms):
- expected = reduce(xor, terms, clmul(factor1, factor2))
+ expected = reduce(operator.xor, terms, clmul(factor1, factor2))
with self.subTest(factor1=hex(factor1),
factor2=bin(factor2),
terms=list(map(hex, terms)),
sig = Signal(reduce_inputs[i].shape(), name=f"reduce_input_{i}")
m.d.comb += sig.eq(reduce_inputs[i])
reduce_inputs[i] = sig
- expected = Signal(reduce(xor, reduce_inputs).shape())
- m.d.comb += expected.eq(reduce(xor, reduce_inputs))
+ expected = Signal(reduce(operator.xor, reduce_inputs).shape())
+ m.d.comb += expected.eq(reduce(operator.xor, reduce_inputs))
m.d.comb += Assert(dut.output == expected)
self.assertFormal(m)
projects / nmigen-gf.git / commitdiff