示例#1
0
    def compute(self, config, budget, **kwargs):
        """
        Simple example for a compute function
        The loss is just a the config + some noise (that decreases with the budget)

        For dramatization, the function can sleep for a given interval to emphasizes
        the speed ups achievable with parallel workers.

        Args:
            config: dictionary containing the sampled configurations by the optimizer
            budget: (float) amount of time/epochs/etc. the model can use to train

        Returns:
            dictionary with mandatory fields:
                'loss' (scalar)
                'info' (dict)
        """

        params = []

        for k, v in config.items():
            param = PCSBasedComponentParameter_pb2.PCSBasedParameterProto(
                key=k, value=str(v))
            params.append(param)

        channel = grpc.insecure_channel("localhost:" + str(self.gRPC_port))
        stub = PCSBasedComponentParameter_pb2_grpc.PCSBasedOptimizerServiceStub(
            channel)

        cmp = PCSBasedComponentParameter_pb2.PCSBasedComponentProto(
            name=self.component_name, parameters=params)

        response = stub.Evaluate(cmp)
        channel.close()

        # res = numpy.clip(config['x'] + numpy.random.randn() / budget, config['x'] / 2, 1.5 * config['x'])
        # config['weka.classifiers.bayes.BayesNet.Q']
        # time.sleep(self.sleep_interval)

        print(response.result)

        return ({
            'loss': float(response.result
                          ),  # this is the a mandatory field to run hyperband
            'info': response.
            result  # can be used for any user-defined information - also mandatory
        })
示例#2
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    def compute(self, config, budget, **kwargs):
        """
        Simple example for a compute function
        The loss is just a the config + some noise (that decreases with the budget)

        For dramatization, the function can sleep for a given interval to emphasizes
        the speed ups achievable with parallel workers.

        Args:
            config: dictionary containing the sampled configurations by the optimizer
            budget: (float) amount of time/epochs/etc. the model can use to train

        Returns:
            dictionary with mandatory fields:
                'loss' (scalar)
                'info' (dict)
        """

        with open("worker.log", "a") as file:
            file.write("Budget " + str(budget) + "\n")

        params = []
        for k, v in config.items():
            params.append(
                PCSBasedComponentParameter_pb2.PCSBasedParameterProto(
                    key=k, value=str(v)))
        cmp = PCSBasedComponentParameter_pb2.PCSBasedComponentProto(
            name=str(math.ceil(budget / 1000)), parameters=params)

        channel = grpc.insecure_channel("localhost:" + str(self.gRPC_port))
        stub = PCSBasedComponentParameter_pb2_grpc.PCSBasedOptimizerServiceStub(
            channel)

        response = stub.Evaluate(cmp)
        channel.close()

        if (response.result < 0):
            return ({'loss': float(10000), 'info': 'crashed'})
        else:
            return ({'loss': float(response.result), 'info': 'succeeded'})
示例#3
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import PCSBasedComponentParameter_pb2_grpc

if __name__ == '__main__':
    # find parameterfile pcs in scenario
    f = open("scenario.txt", "r")
    lines = f.readlines()
    for line in lines:
        if line.startswith("paramfile"):
            componentName = line.replace("paramfile = ", "")[:-5]
        if line.startswith("gRPC_port"):
            gRPC_port = line.replace("gRPC_port = ", "").strip()

    params = []

    for i in range(6, len(sys.argv) - 1, 2):
        param = PCSBasedComponentParameter_pb2.PCSBasedParameterProto(
            key=sys.argv[i][1:].replace("-", ""), value=sys.argv[i + 1])
        params.append(param)

    channel = grpc.insecure_channel("localhost:" + gRPC_port)
    stub = PCSBasedComponentParameter_pb2_grpc.PCSBasedOptimizerServiceStub(
        channel)

    cmp = PCSBasedComponentParameter_pb2.PCSBasedComponentProto(
        name=componentName, parameters=params)

    response = stub.Evaluate(cmp)
    channel.close()

    f = open("testout.txt", "a")
    f.write("### start run ###\n")
    for arg in sys.argv: