Пример #1
0
 def test_syn_yosys(self):
     # synthesize and check equiv
     s = syn(self.s27, "Yosys", print_output=False)
     m = miter(self.s27, s)
     live = sat(m)
     self.assertTrue(live)
     different_output = sat(m, assumptions={"sat": True})
     self.assertFalse(different_output)
Пример #2
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    def test_bench_output(self):
        g = cg.from_lib(f"b17_C")
        g2 = cg.bench_to_circuit(cg.circuit_to_bench(g), g.name)

        m = miter(g, g2)
        live = sat(m)
        self.assertTrue(live)
        different_output = sat(m, assumptions={"sat": True})
        self.assertFalse(different_output)
Пример #3
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 def test_fast_verilog(self):
     g = cg.from_file(f"{self.test_path}/../c432.v")
     gf = cg.from_file(f"{self.test_path}/../c432.v", fast=True)
     self.assertSetEqual(g.inputs(), gf.inputs())
     self.assertSetEqual(g.outputs(), gf.outputs())
     self.assertSetEqual(g.nodes(), gf.nodes())
     self.assertSetEqual(g.edges(), gf.edges())
     m = miter(g, gf)
     live = sat(m)
     self.assertTrue(live)
     different_output = sat(m, assumptions={"sat": True})
     self.assertFalse(different_output)
Пример #4
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 def test_syn_genus(self):
     if "CIRCUITGRAPH_GENUS_LIBRARY_PATH" in os.environ:
         s = syn(self.s27, "Genus", print_output=False)
         m = miter(self.s27, s)
         live = sat(m)
         self.assertTrue(live)
         different_output = sat(m, assumptions={"sat": True})
         self.assertFalse(different_output)
         for f in glob.glob(f"{os.getcwd()}/genus.cmd*"):
             os.remove(f)
         for f in glob.glob(f"{os.getcwd()}/genus.log*"):
             os.remove(f)
         shutil.rmtree(f"{os.getcwd()}/fv")
Пример #5
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 def test_gtech_verilog(self):
     g = cg.from_file(f"{self.test_path}/../c432.v")
     with tempfile.TemporaryDirectory(
             prefix="circuitgraph_test_dir") as tmpdirname:
         g_syn = cg.syn(g,
                        engine="dc",
                        suppress_output=True,
                        working_dir=tmpdirname)
     m = miter(g, g_syn)
     live = sat(m)
     self.assertTrue(live)
     different_output = sat(m, assumptions={"sat": True})
     self.assertFalse(different_output)
Пример #6
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    def test_miter(self):
        # check self equivalence
        m = miter(self.s27)
        live = sat(m)
        self.assertTrue(live)
        different_output = sat(m, assumptions={"sat": True})
        self.assertFalse(different_output)

        # check equivalence with incorrect copy
        m = miter(self.s27, self.s27m)
        live = sat(m)
        self.assertTrue(live)
        different_output = sat(m, assumptions={"sat": True})
        self.assertTrue(different_output)

        # check equivalence with free inputs
        startpoints = self.s27.startpoints() - set(["clk"])
        startpoints.pop()
        m = miter(self.s27, startpoints=startpoints)
        live = sat(m)
        self.assertTrue(live)
        different_output = sat(m, assumptions={"sat": True})
        self.assertTrue(different_output)
Пример #7
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 def test_verilog_output(self):
     for g in [
             cg.from_lib("test_correct_io", name="test_module_0"),
             cg.from_lib("test_correct_io", name="test_module_1"),
             cg.from_lib("test_correct_io", name="test_module_2"),
             cg.from_lib("test_correct_io", name="test_module_3"),
     ]:
         g2 = verilog_to_circuit(circuit_to_verilog(g), g.name)
         m = miter(g, g2)
         live = sat(m)
         self.assertTrue(live)
         different_output = sat(m, assumptions={"sat": True})
         if different_output:
             import code
             code.interact(local=dict(globals(), **locals()))
         self.assertFalse(different_output)
Пример #8
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 def test_verilog_output(self):
     for g in [
             cg.from_file(
                 f"{self.test_path}/test_correct_io.v",
                 name="test_module_bb",
                 blackboxes=self.bbs,
             ),
             cg.from_file(f"{self.test_path}/test_correct_io.v",
                          name="test_correct_io"),
     ]:
         g2 = cg.verilog_to_circuit(cg.circuit_to_verilog(g),
                                    g.name,
                                    blackboxes=self.bbs)
         m = miter(cg.strip_blackboxes(g), cg.strip_blackboxes(g2))
         live = sat(m)
         self.assertTrue(live)
         different_output = sat(m, assumptions={"sat": True})
         self.assertFalse(different_output)