def main(argv):
if len(argv) != 1:
raise app.UsageError('Unexpected arguments.')
channel_creds = client_credentials.get_credentials()
with grpc.secure_channel(f'localhost:{FLAGS.port}',
channel_creds) as channel:
grpc.channel_ready_future(channel).result()
stub = synthesis_service_pb2_grpc.SynthesisServiceStub(channel)
run_characterization(stub)
def test_bisect_frequencies_infeasible(self):
port, proc = self._start_server(['--max_frequency_ghz=2.0'])
channel_creds = client_credentials.get_credentials()
with grpc.secure_channel(f'localhost:{port}',
channel_creds) as channel:
result = synthesis_utils.bisect_frequency('verilog', 'main',
int(3e9), int(4e9),
int(0.1e9), channel)
self.assertEqual(result.max_frequency_hz, 0)
proc.terminate()
proc.wait()
def test_bisect_frequencies_with_error(self):
port, proc = self._start_server(
['--max_frequency_ghz=2.0', '--serve_errors'])
channel_creds = client_credentials.get_credentials()
with grpc.secure_channel(f'localhost:{port}',
channel_creds) as channel:
with self.assertRaises(grpc.RpcError):
_ = synthesis_utils.bisect_frequency('verilog', 'main',
int(1.5e9), int(3e9),
int(0.1e9), channel)
proc.terminate()
proc.wait()
def _generate_sources(
self, op: op_pb2.OpProto,
operand_types: Iterable[xls_type_pb2.TypeProto],
output_type: xls_type_pb2.TypeProto) -> Tuple[str, str]:
"""Generates XLS IR and netlist sources for a single LEC execution.
This function creates IR and a netlist for the given op and argument/output
types, suitable as inputs to a LEC operation.
Currently, this only supports a single op (per the internal operation of
op_module_generator). In the future, it will likely be useful to see how
execution time scales with operation composition.
Args:
op: The XLS IR opcode for which to generate sources.
operand_types: The types of the arguments to use for this op execution.
output_type: The type of the operation output.
Returns:
A tuple of IR and netlist sources for executing the given operation as
text.
"""
op_name = op_pb2.OpProto.Name(op)[3:].lower()
operand_type_strs = [
self._proto_to_ir_type(ot) for ot in operand_types
]
ir_text = op_module_generator.generate_ir_package(
op_name, self._proto_to_ir_type(output_type), operand_type_strs,
[], None)
verilog_text = op_module_generator.generate_verilog_module(
self._MODULE_NAME, ir_text).verilog_text
creds = client_credentials.get_credentials()
netlist_text = None
with grpc.secure_channel(self._synthesis_server_address,
creds) as channel:
grpc.channel_ready_future(channel).result()
stub = synthesis_service_pb2_grpc.SynthesisServiceStub(channel)
request = synthesis_pb2.CompileRequest()
logging.vlog(logging.INFO, 'Module text:\n %s', verilog_text)
request.module_text = verilog_text
request.top_module_name = self._MODULE_NAME
# We're always going to be in a single cycle.
request.target_frequency_hz = 1
response = stub.Compile(request)
netlist_text = response.netlist
return (ir_text, netlist_text)
def main(argv):
if len(argv) != 2:
raise app.UsageError('Must specify verilog file.')
with open(argv[1], 'r') as f:
verilog_text = f.read()
channel_creds = client_credentials.get_credentials()
with grpc.secure_channel(f'localhost:{FLAGS.port}',
channel_creds) as channel:
grpc.channel_ready_future(channel).result()
stub = synthesis_service_pb2_grpc.SynthesisServiceStub(channel)
request = synthesis_pb2.CompileRequest()
request.module_text = verilog_text
request.top_module_name = FLAGS.top
request.target_frequency_hz = int(FLAGS.ghz * 1e9)
logging.info('--- Request')
logging.info(request)
response = stub.Compile(request)
print(response)