def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] guest_train_data = {"name": "vehicle_scale_hetero_guest", "namespace": f"experiment{namespace}"} host_train_data = {"name": "vehicle_scale_hetero_host", "namespace": f"experiment{namespace}"} pipeline = PipeLine().set_initiator(role='guest', party_id=guest).set_roles(guest=guest, host=host, arbiter=arbiter) reader_0 = Reader(name="reader_0") reader_0.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance(role='host', party_id=host).component_param(table=host_train_data) data_transform_0 = DataTransform(name="data_transform_0") data_transform_0.get_party_instance(role='guest', party_id=guest).component_param(with_label=True, output_format="dense", label_type="int", label_name="y") data_transform_0.get_party_instance(role='host', party_id=host).component_param(with_label=False) intersection_0 = Intersection(name="intersection_0", intersect_method="rsa", sync_intersect_ids=True, only_output_key=False) hetero_lr_0 = HeteroLR(name="hetero_lr_0", penalty="L2", optimizer="nesterov_momentum_sgd", tol=0.0001, alpha=0.0001, max_iter=30, batch_size=-1, early_stop="diff", learning_rate=0.15, init_param={"init_method": "zeros"}) local_baseline_0 = LocalBaseline(name="local_baseline_0", model_name="LogisticRegression", model_opts={"penalty": "l2", "tol": 0.0001, "C": 1.0, "fit_intercept": True, "solver": "lbfgs", "max_iter": 5, "multi_class": "ovr"}) local_baseline_0.get_party_instance(role='guest', party_id=guest).component_param(need_run=True) local_baseline_0.get_party_instance(role='host', party_id=host).component_param(need_run=False) evaluation_0 = Evaluation(name="evaluation_0", eval_type="multi", pos_label=1) evaluation_0.get_party_instance(role='guest', party_id=guest).component_param(need_run=True) evaluation_0.get_party_instance(role='host', party_id=host).component_param(need_run=False) pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(hetero_lr_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(local_baseline_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(evaluation_0, data=Data(data=[hetero_lr_0.output.data, local_baseline_0.output.data])) pipeline.compile() pipeline.fit() # predict pipeline.deploy_component([data_transform_0, intersection_0, hetero_lr_0, local_baseline_0]) predict_pipeline = PipeLine() predict_pipeline.add_component(reader_0) predict_pipeline.add_component(pipeline, data=Data(predict_input={pipeline.data_transform_0.input.data: reader_0.output.data})) predict_pipeline.add_component(evaluation_0, data=Data(data=[hetero_lr_0.output.data, local_baseline_0.output.data])) predict_pipeline.predict()
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] hosts = parties.host arbiter = parties.arbiter[0] guest_train_data = {"name": "motor_hetero_guest", "namespace": f"experiment{namespace}"} host_train_data = [{"name": "motor_hetero_host", "namespace": f"experiment{namespace}"}, {"name": "motor_hetero_host", "namespace": f"experiment{namespace}"}] pipeline = PipeLine().set_initiator(role='guest', party_id=guest).set_roles(guest=guest, host=hosts, arbiter=arbiter) reader_0 = Reader(name="reader_0") reader_0.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance(role='host', party_id=hosts[0]).component_param(table=host_train_data[0]) reader_0.get_party_instance(role='host', party_id=hosts[1]).component_param(table=host_train_data[1]) data_transform_0 = DataTransform(name="data_transform_0") data_transform_0.get_party_instance(role='guest', party_id=guest).component_param(with_label=True, label_name="motor_speed", label_type="float", output_format="dense") data_transform_0.get_party_instance(role='host', party_id=hosts).component_param(with_label=False) intersection_0 = Intersection(name="intersection_0") hetero_linr_0 = HeteroLinR(name="hetero_linr_0", penalty="L2", optimizer="sgd", tol=0.001, alpha=0.01, max_iter=20, early_stop="weight_diff", batch_size=-1, learning_rate=0.15, decay=0.0, decay_sqrt=False, init_param={"init_method": "zeros"}, encrypted_mode_calculator_param={"mode": "fast"}) evaluation_0 = Evaluation(name="evaluation_0", eval_type="regression", pos_label=1) # evaluation_0.get_party_instance(role='host', party_id=hosts[0]).component_param(need_run=False) # evaluation_0.get_party_instance(role='host', party_id=hosts[1]).component_param(need_run=False) pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(hetero_linr_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(evaluation_0, data=Data(data=hetero_linr_0.output.data)) pipeline.compile() pipeline.fit() # predict # deploy required components pipeline.deploy_component([data_transform_0, intersection_0, hetero_linr_0]) predict_pipeline = PipeLine() # add data reader onto predict pipeline predict_pipeline.add_component(reader_0) # add selected components from train pipeline onto predict pipeline # specify data source predict_pipeline.add_component(pipeline, data=Data(predict_input={pipeline.data_transform_0.input.data: reader_0.output.data})) # run predict model predict_pipeline.predict()
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] backend = config.backend work_mode = config.work_mode guest_train_data = {"name": "dvisits_hetero_guest", "namespace": f"experiment{namespace}"} host_train_data = {"name": "dvisits_hetero_host", "namespace": f"experiment{namespace}"} pipeline = PipeLine().set_initiator(role='guest', party_id=guest).set_roles(guest=guest, host=host, arbiter=arbiter) reader_0 = Reader(name="reader_0") reader_0.get_party_instance(role='guest', party_id=guest).algorithm_param(table=guest_train_data) reader_0.get_party_instance(role='host', party_id=host).algorithm_param(table=host_train_data) dataio_0 = DataIO(name="dataio_0") dataio_0.get_party_instance(role='guest', party_id=guest).algorithm_param(with_label=True, label_name="doctorco", label_type="float", output_format="dense") dataio_0.get_party_instance(role='host', party_id=host).algorithm_param(with_label=False) intersection_0 = Intersection(name="intersection_0") hetero_poisson_0 = HeteroPoisson(name="hetero_poisson_0", early_stop="weight_diff", max_iter=10, alpha=100.0, batch_size=-1, learning_rate=0.01, optimizer="rmsprop", exposure_colname="exposure", decay_sqrt=False, tol=0.001, init_param={"init_method": "zeros"}, penalty="L2", encrypted_mode_calculator_param={"mode": "fast"}) evaluation_0 = Evaluation(name="evaluation_0", eval_type="regression", pos_label=1) evaluation_0.get_party_instance(role='host', party_id=host).algorithm_param(need_run=False) pipeline.add_component(reader_0) pipeline.add_component(dataio_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=dataio_0.output.data)) pipeline.add_component(hetero_poisson_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(evaluation_0, data=Data(data=hetero_poisson_0.output.data)) pipeline.compile() pipeline.fit(backend=backend, work_mode=work_mode) # predict # deploy required components pipeline.deploy_component([dataio_0, intersection_0, hetero_poisson_0]) predict_pipeline = PipeLine() # add data reader onto predict pipeline predict_pipeline.add_component(reader_0) # add selected components from train pipeline onto predict pipeline # specify data source predict_pipeline.add_component(pipeline, data=Data(predict_input={pipeline.dataio_0.input.data: reader_0.output.data})) # run predict model predict_pipeline.predict(backend=backend, work_mode=work_mode)
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] guest_train_data = {"name": "breast_hetero_guest", "namespace": f"experiment{namespace}"} host_train_data = {"name": "breast_hetero_host", "namespace": f"experiment{namespace}"} pipeline = PipeLine().set_initiator(role='guest', party_id=guest).set_roles(guest=guest, host=host) reader_0 = Reader(name="reader_0") reader_0.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance(role='host', party_id=host).component_param(table=host_train_data) data_transform_0 = DataTransform(name="data_transform_0") data_transform_0.get_party_instance(role='guest', party_id=guest).component_param(with_label=True) data_transform_0.get_party_instance(role='host', party_id=host).component_param(with_label=False) intersection_0 = Intersection(name="intersection_0") hetero_nn_0 = HeteroNN(name="hetero_nn_0", epochs=100, interactive_layer_lr=0.15, batch_size=-1, early_stop="diff", selector_param={"method": "relative"}) guest_nn_0 = hetero_nn_0.get_party_instance(role='guest', party_id=guest) guest_nn_0.add_bottom_model(Dense(units=3, input_shape=(10,), activation="relu", kernel_initializer=initializers.Constant(value=1))) guest_nn_0.set_interactve_layer(Dense(units=2, input_shape=(2,), kernel_initializer=initializers.Constant(value=1))) guest_nn_0.add_top_model(Dense(units=1, input_shape=(2,), activation="sigmoid", kernel_initializer=initializers.Constant(value=1))) host_nn_0 = hetero_nn_0.get_party_instance(role='host', party_id=host) host_nn_0.add_bottom_model(Dense(units=3, input_shape=(20,), activation="relu", kernel_initializer=initializers.Constant(value=1))) host_nn_0.set_interactve_layer(Dense(units=2, input_shape=(2,), kernel_initializer=initializers.Constant(value=1))) hetero_nn_0.compile(optimizer=optimizers.SGD(lr=0.15), loss="binary_crossentropy") hetero_nn_1 = HeteroNN(name="hetero_nn_1") evaluation_0 = Evaluation(name="evaluation_0") pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(hetero_nn_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(hetero_nn_1, data=Data(test_data=intersection_0.output.data), model=Model(model=hetero_nn_0.output.model)) pipeline.add_component(evaluation_0, data=Data(data=hetero_nn_0.output.data)) pipeline.compile() pipeline.fit() print(hetero_nn_0.get_config(roles={"guest": [guest], "host": [host]})) print(pipeline.get_component("hetero_nn_0").get_summary())
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] guest_train_data = {"name": "breast_hetero_guest", "namespace": f"experiment{namespace}"} host_train_data = {"name": "breast_hetero_host", "namespace": f"experiment{namespace}"} # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role="guest", party_id=guest).set_roles(guest=guest, host=host, arbiter=arbiter) # define Reader components to read in data reader_0 = Reader(name="reader_0") # configure Reader for guest reader_0.get_party_instance(role="guest", party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance(role="host", party_id=host).component_param(table=host_train_data) data_transform_0 = DataTransform(name="data_transform_0") # start component numbering at 0 data_transform_0_guest_party_instance = data_transform_0.get_party_instance(role="guest", party_id=guest) data_transform_0_guest_party_instance.component_param(with_label=True, output_format="dense") data_transform_0.get_party_instance(role="host", party_id=host).component_param(with_label=False, output_format="dense") intersection_0 = Intersection(name="intersection_0") label_transform_0 = LabelTransform(name="label_transform_0") label_transform_0.get_party_instance(role="host", party_id=host).component_param(need_run=False) hetero_lr_0 = HeteroLR(name="hetero_lr_0", penalty="L2", optimizer="sgd", tol=0.001, alpha=0.01, max_iter=20, early_stop="weight_diff", batch_size=-1, learning_rate=0.15, decay=0.0, decay_sqrt=False, init_param={"init_method": "zeros"}, encrypted_mode_calculator_param={"mode": "fast"}, floating_point_precision=23) label_transform_1 = LabelTransform(name="label_transform_1") evaluation_0 = Evaluation(name="evaluation_0", eval_type="binary", pos_label=1) # add components to pipeline, in order of task execution pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(label_transform_0, data=Data(data=intersection_0.output.data)) pipeline.add_component(hetero_lr_0, data=Data(train_data=label_transform_0.output.data)) pipeline.add_component(label_transform_1, data=Data(data=hetero_lr_0.output.data), model=Model(label_transform_0.output.model)) pipeline.add_component(evaluation_0, data=Data(data=label_transform_1.output.data)) # compile pipeline once finished adding modules, this step will form conf and dsl files for running job pipeline.compile() # fit model pipeline.fit()
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] guest_train_data = {"name": "motor_hetero_guest", "namespace": f"experiment{namespace}"} host_train_data = {"name": "motor_hetero_host", "namespace": f"experiment{namespace}"} pipeline = PipeLine().set_initiator(role='guest', party_id=guest).set_roles(guest=guest, host=host, arbiter=arbiter) reader_0 = Reader(name="reader_0") reader_0.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance(role='host', party_id=host).component_param(table=host_train_data) data_transform_0 = DataTransform(name="data_transform_0") data_transform_0.get_party_instance( role='guest', party_id=guest).component_param( with_label=True, label_name="motor_speed", label_type="float", output_format="dense") data_transform_0.get_party_instance(role='host', party_id=host).component_param(with_label=False) intersection_0 = Intersection(name="intersection_0", only_output_key=False) hetero_linr_0 = HeteroLinR(name="hetero_linr_0", penalty="L2", optimizer="sgd", tol=0.001, alpha=0.01, max_iter=5, early_stop="weight_diff", batch_size=-1, learning_rate=0.15, decay=0.0, decay_sqrt=False, callback_param={"callbacks": ["ModelCheckpoint"]}, init_param={"init_method": "zeros"}, floating_point_precision=23) evaluation_0 = Evaluation(name="evaluation_0", eval_type="regression", pos_label=1) hetero_linr_1 = HeteroLinR(name="hetero_linr_1", max_iter=15, penalty="L2", optimizer="sgd", tol=0.001, alpha=0.01, early_stop="weight_diff", batch_size=-1, learning_rate=0.15, decay=0.0, decay_sqrt=False, floating_point_precision=23 ) pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(hetero_linr_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(hetero_linr_1, data=Data(train_data=intersection_0.output.data), model=Model(hetero_linr_0.output.model)) pipeline.add_component(evaluation_0, data=Data(data=hetero_linr_1.output.data)) pipeline.compile() pipeline.fit()
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] backend = config.backend work_mode = config.work_mode guest_train_data = {"name": "breast_hetero_guest", "namespace": f"experiment{namespace}"} host_train_data = {"name": "breast_hetero_host", "namespace": f"experiment{namespace}"} pipeline = PipeLine().set_initiator(role='guest', party_id=guest).set_roles(guest=guest, host=host, arbiter=arbiter) reader_0 = Reader(name="reader_0") reader_0.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance(role='host', party_id=host).component_param(table=host_train_data) dataio_0 = DataIO(name="dataio_0") dataio_0.get_party_instance(role='guest', party_id=guest).component_param(with_label=True, missing_fill=True, outlier_replace=True) dataio_0.get_party_instance(role='host', party_id=host).component_param(with_label=False, missing_fill=True, outlier_replace=True) intersection_0 = Intersection(name="intersection_0") federated_sample_0 = FederatedSample(name="federated_sample_0", mode="stratified", method="upsample", fractions=[[0, 1.5], [1, 2.0]]) feature_scale_0 = FeatureScale(name="feature_scale_0", method="min_max_scale", mode="normal") feature_scale_0.get_party_instance(role='guest', party_id=guest).component_param(feat_upper=[1, 2, 1, 1, 0.5, 1, 2, 2, 1, 1]) hetero_feature_binning_0 = HeteroFeatureBinning(name="hetero_feature_binning_0") hetero_feature_selection_0 = HeteroFeatureSelection(name="hetero_feature_selection_0") one_hot_0 = OneHotEncoder(name="one_hot_0") hetero_lr_0 = HeteroLR(name="hetero_lr_0", penalty="L2", optimizer="rmsprop", tol=1e-5, init_param={"init_method": "random_uniform"}, alpha=0.01, max_iter=10, early_stop="diff", batch_size=320, learning_rate=0.15) evaluation_0 = Evaluation(name="evaluation_0") pipeline.add_component(reader_0) pipeline.add_component(dataio_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=dataio_0.output.data)) pipeline.add_component(federated_sample_0, data=Data(data=intersection_0.output.data)) pipeline.add_component(feature_scale_0, data=Data(data=federated_sample_0.output.data)) pipeline.add_component(hetero_feature_binning_0, data=Data(data=feature_scale_0.output.data)) pipeline.add_component(hetero_feature_selection_0, data=Data(data=hetero_feature_binning_0.output.data)) pipeline.add_component(one_hot_0, data=Data(data=hetero_feature_selection_0.output.data)) pipeline.add_component(hetero_lr_0, data=Data(train_data=one_hot_0.output.data)) pipeline.add_component(evaluation_0, data=Data(data=hetero_lr_0.output.data)) pipeline.compile() job_parameters = JobParameters(backend=backend, work_mode=work_mode) pipeline.fit(job_parameters) print(pipeline.get_component("evaluation_0").get_summary())
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] hosts = parties.host arbiter = parties.arbiter[0] backend = config.backend work_mode = config.work_mode guest_train_data = {"name": "breast_hetero_guest", "namespace": f"experiment{namespace}"} host_train_data = {"name": "breast_hetero_host", "namespace": f"experiment{namespace}"} pipeline = PipeLine().set_initiator(role='guest', party_id=guest).set_roles(guest=guest, host=hosts, arbiter=arbiter) reader_0 = Reader(name="reader_0") reader_0.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance(role='host', party_id=hosts).component_param(table=host_train_data) dataio_0 = DataIO(name="dataio_0") dataio_0.get_party_instance(role='guest', party_id=guest).component_param(with_label=True, label_name="y", label_type="int", output_format="dense") dataio_0.get_party_instance(role='host', party_id=hosts).component_param(with_label=False) intersection_0 = Intersection(name="intersection_0") sample_weight_0 = SampleWeight(name="sample_weight_0") sample_weight_0.get_party_instance(role='guest', party_id=guest).component_param(need_run=True, class_weight="balanced") sample_weight_0.get_party_instance(role='host', party_id=hosts).component_param(need_run=False) hetero_lr_0 = HeteroLR(name="hetero_lr_0", optimizer="nesterov_momentum_sgd", tol=0.001, alpha=0.01, max_iter=20, early_stop="weight_diff", batch_size=-1, learning_rate=0.15, init_param={"init_method": "zeros"}) evaluation_0 = Evaluation(name="evaluation_0", eval_type="binary", pos_label=1) # evaluation_0.get_party_instance(role='host', party_id=host).component_param(need_run=False) pipeline.add_component(reader_0) pipeline.add_component(dataio_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=dataio_0.output.data)) pipeline.add_component(sample_weight_0, data=Data(data=intersection_0.output.data)) pipeline.add_component(hetero_lr_0, data=Data(train_data=sample_weight_0.output.data)) pipeline.add_component(evaluation_0, data=Data(data=hetero_lr_0.output.data)) pipeline.compile() job_parameters = JobParameters(backend=backend, work_mode=work_mode) pipeline.fit(job_parameters)
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] backend = config.backend work_mode = config.work_mode guest_train_data = {"name": "breast_homo_guest", "namespace": f"experiment{namespace}"} host_train_data = {"name": "breast_homo_host", "namespace": f"experiment{namespace}"} pipeline = PipeLine().set_initiator(role='guest', party_id=guest).set_roles(guest=guest, host=host, arbiter=arbiter) reader_0 = Reader(name="reader_0") reader_0.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance(role='host', party_id=host).component_param(table=host_train_data) dataio_0 = DataIO(name="dataio_0", with_label=True, output_format="dense", label_type="int", label_name="y") homo_lr_0 = HomoLR(name="homo_lr_0", penalty="L2", optimizer="sgd", tol=0.0001, alpha=0.01, max_iter=30, batch_size=-1, early_stop="weight_diff", learning_rate=0.15, init_param={"init_method": "zeros"}) local_baseline_0 = LocalBaseline(name="local_baseline_0", model_name="LogisticRegression", model_opts={"penalty": "l2", "tol": 0.0001, "C": 1.0, "fit_intercept": True, "solver": "saga", "max_iter": 2}) local_baseline_0.get_party_instance(role='guest', party_id=guest).component_param(need_run=True) local_baseline_0.get_party_instance(role='host', party_id=host).component_param(need_run=False) evaluation_0 = Evaluation(name="evaluation_0", eval_type="binary", pos_label=1) evaluation_0.get_party_instance(role='guest', party_id=guest).component_param(need_run=True) evaluation_0.get_party_instance(role='host', party_id=host).component_param(need_run=False) pipeline.add_component(reader_0) pipeline.add_component(dataio_0, data=Data(data=reader_0.output.data)) pipeline.add_component(homo_lr_0, data=Data(train_data=dataio_0.output.data)) pipeline.add_component(local_baseline_0, data=Data(train_data=dataio_0.output.data)) pipeline.add_component(evaluation_0, data=Data(data=[homo_lr_0.output.data, local_baseline_0.output.data])) pipeline.compile() job_parameters = JobParameters(backend=backend, work_mode=work_mode) pipeline.fit(job_parameters)
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] backend = config.backend work_mode = config.work_mode guest_train_data = { "name": "breast_hetero_guest", "namespace": "experiment" } guest_test_data = { "name": "breast_hetero_guest", "namespace": "experiment" } host_train_data = { "name": "breast_hetero_host_tag_value", "namespace": "experiment" } host_test_data = { "name": "breast_hetero_host_tag_value", "namespace": "experiment" } # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role='guest', party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=host, arbiter=arbiter) # define Reader components to read in data reader_0 = Reader(name="reader_0") reader_1 = Reader(name="reader_1") # configure Reader for guest reader_0.get_party_instance( role='guest', party_id=guest).algorithm_param(table=guest_train_data) reader_1.get_party_instance( role='guest', party_id=guest).algorithm_param(table=guest_test_data) # configure Reader for host reader_0.get_party_instance( role='host', party_id=host).algorithm_param(table=host_train_data) reader_1.get_party_instance( role='host', party_id=host).algorithm_param(table=host_test_data) # define DataIO components dataio_0 = DataIO(name="dataio_0") # start component numbering at 0 dataio_1 = DataIO(name="dataio_1") # start component numbering at 1 param = { "with_label": True, "label_name": "y", "label_type": "int", "output_format": "dense", "missing_fill": True, "missing_fill_method": "mean", "outlier_replace": False, "outlier_replace_method": "designated", "outlier_replace_value": 0.66, "outlier_impute": "-9999" } # get DataIO party instance of guest dataio_0_guest_party_instance = dataio_0.get_party_instance(role='guest', party_id=guest) # configure DataIO for guest dataio_0_guest_party_instance.algorithm_param(**param) # get and configure DataIO party instance of host dataio_1.get_party_instance(role='guest', party_id=guest).algorithm_param(**param) param = { "input_format": "tag", "with_label": False, "tag_with_value": True, "delimitor": ";", "output_format": "dense" } dataio_0.get_party_instance(role='host', party_id=host).algorithm_param(**param) dataio_1.get_party_instance(role='host', party_id=host).algorithm_param(**param) # define Intersection components intersection_0 = Intersection(name="intersection_0", intersect_method="raw") intersection_1 = Intersection(name="intersection_1", intersect_method="raw") param = { "name": 'hetero_feature_binning_0', "method": 'optimal', "optimal_binning_param": { "metric_method": "iv", "init_bucket_method": "quantile" }, "bin_indexes": -1 } hetero_feature_binning_0 = HeteroFeatureBinning(**param) statistic_0 = DataStatistics(name='statistic_0') param = { "name": 'hetero_feature_selection_0', "filter_methods": ["manually", "unique_value", "iv_filter", "statistic_filter"], "manually_param": { "filter_out_indexes": [1, 2], "filter_out_names": ["x3", "x4"] }, "unique_param": { "eps": 1e-6 }, "iv_param": { "metrics": ["iv", "iv"], "filter_type": ["top_k", "threshold"], "take_high": [True, True], "threshold": [10, 0.1] }, "statistic_param": { "metrics": ["coefficient_of_variance", "skewness"], "filter_type": ["threshold", "threshold"], "take_high": [True, False], "threshold": [0.001, -0.01] }, "select_col_indexes": -1 } hetero_feature_selection_0 = HeteroFeatureSelection(**param) hetero_feature_selection_1 = HeteroFeatureSelection( name='hetero_feature_selection_1') param = {"name": "hetero_scale_0", "method": "standard_scale"} hetero_scale_0 = FeatureScale(**param) hetero_scale_1 = FeatureScale(name='hetero_scale_1') param = { "penalty": "L2", "optimizer": "nesterov_momentum_sgd", "tol": 1e-4, "alpha": 0.01, "max_iter": 5, "early_stop": "diff", "batch_size": -1, "learning_rate": 0.15, "init_param": { "init_method": "zeros" }, "validation_freqs": None, "early_stopping_rounds": None } hetero_lr_0 = HeteroLR(name='hetero_lr_0', **param) evaluation_0 = Evaluation(name='evaluation_0') # add components to pipeline, in order of task execution pipeline.add_component(reader_0) pipeline.add_component(reader_1) pipeline.add_component(dataio_0, data=Data(data=reader_0.output.data)) pipeline.add_component(dataio_1, data=Data(data=reader_1.output.data), model=Model(dataio_0.output.model)) # set data input sources of intersection components pipeline.add_component(intersection_0, data=Data(data=dataio_0.output.data)) pipeline.add_component(intersection_1, data=Data(data=dataio_1.output.data)) # set train & validate data of hetero_lr_0 component pipeline.add_component(hetero_feature_binning_0, data=Data(data=intersection_0.output.data)) pipeline.add_component(statistic_0, data=Data(data=intersection_0.output.data)) pipeline.add_component( hetero_feature_selection_0, data=Data(data=intersection_0.output.data), model=Model(isometric_model=[ hetero_feature_binning_0.output.model, statistic_0.output.model ])) pipeline.add_component(hetero_feature_selection_1, data=Data(data=intersection_1.output.data), model=Model( hetero_feature_selection_0.output.model)) pipeline.add_component( hetero_scale_0, data=Data(data=hetero_feature_selection_0.output.data)) pipeline.add_component( hetero_scale_1, data=Data(data=hetero_feature_selection_1.output.data), model=Model(hetero_scale_0.output.model)) # set train & validate data of hetero_lr_0 component pipeline.add_component(hetero_lr_0, data=Data(train_data=hetero_scale_0.output.data, validate_data=hetero_scale_1.output.data)) pipeline.add_component(evaluation_0, data=Data(data=[hetero_lr_0.output.data])) # compile pipeline once finished adding modules, this step will form conf and dsl files for running job pipeline.compile() # fit model pipeline.fit(backend=backend, work_mode=work_mode) # query component summary print(pipeline.get_component("hetero_lr_0").get_summary())
# Perform PSI for hetero-scenario. intersect_0 = Intersection(name="intersection_0") # Define a hetero-secureboost component. The following parameters will be set for all parties involved. hetero_secureboost_0 = HeteroSecureBoost( name="hetero_secureboost_0", num_trees=5, bin_num=16, task_type="classification", objective_param={"objective": "cross_entropy"}, encrypt_param={"method": "paillier"}, tree_param={"max_depth": 3}) # To show the evaluation result, an "Evaluation" component is needed. evaluation_0 = Evaluation(name="evaluation_0", eval_type="binary") # add components to pipeline, in order of task execution # The components are connected by indicating upstream data output as their input. # Typically, a feature engineering component will indicate input data as "data" while # the modeling component will use "train_data". Please check out carefully of the difference # between hetero_secureboost_0 input and other components below. # Here we are just showing a simple example, for more details of other components, please check # out the examples in "example/pipeline/{component you are interested in} pipeline.add_component(reader_0)\ .add_component(data_transform_0, data=Data(data=reader_0.output.data))\ .add_component(intersect_0, data=Data(data=data_transform_0.output.data))\ .add_component(hetero_secureboost_0, data=Data(train_data=intersect_0.output.data))\ .add_component(evaluation_0, data=Data(data=hetero_secureboost_0.output.data)) # compile & fit pipeline
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] guest_train_data = { "name": "breast_homo_guest", "namespace": f"experiment_sid{namespace}" } host_train_data = { "name": "breast_homo_host", "namespace": f"experiment_sid{namespace}" } guest_eval_data = { "name": "breast_homo_guest", "namespace": f"experiment_sid{namespace}" } host_eval_data = { "name": "breast_homo_host", "namespace": f"experiment_sid{namespace}" } # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role='guest', party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=host, arbiter=arbiter) # define Reader components to read in data reader_0 = Reader(name="reader_0") # configure Reader for guest reader_0.get_party_instance( role='guest', party_id=guest).component_param(table=guest_train_data) # configure Reader for host reader_0.get_party_instance( role='host', party_id=host).component_param(table=host_train_data) reader_1 = Reader(name="reader_1") reader_1.get_party_instance( role='guest', party_id=guest).component_param(table=guest_eval_data) reader_1.get_party_instance( role='host', party_id=host).component_param(table=host_eval_data) # define DataTransform components data_transform_0 = DataTransform(name="data_transform_0", with_match_id=True, with_label=True, output_format="dense") data_transform_1 = DataTransform( name="data_transform_1") # start component numbering at 0 scale_0 = FeatureScale(name='scale_0') scale_1 = FeatureScale(name='scale_1') param = { "penalty": "L2", "optimizer": "sgd", "tol": 1e-05, "alpha": 0.01, "max_iter": 3, "early_stop": "diff", "batch_size": 320, "learning_rate": 0.15, "validation_freqs": 1, "init_param": { "init_method": "zeros" }, "encrypt_param": { "method": None }, "cv_param": { "n_splits": 4, "shuffle": True, "random_seed": 33, "need_cv": False } } homo_lr_0 = HomoLR(name='homo_lr_0', **param) # add components to pipeline, in order of task execution pipeline.add_component(reader_0) pipeline.add_component(reader_1) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(data_transform_1, data=Data(data=reader_1.output.data), model=Model(data_transform_0.output.model)) # set data input sources of intersection components pipeline.add_component(scale_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(scale_1, data=Data(data=data_transform_1.output.data), model=Model(scale_0.output.model)) pipeline.add_component(homo_lr_0, data=Data(train_data=scale_0.output.data, validate_data=scale_1.output.data)) evaluation_0 = Evaluation(name="evaluation_0", eval_type="binary") evaluation_0.get_party_instance( role='host', party_id=host).component_param(need_run=False) pipeline.add_component(evaluation_0, data=Data(data=homo_lr_0.output.data)) # compile pipeline once finished adding modules, this step will form conf and dsl files for running job pipeline.compile() # fit model pipeline.fit() # query component summary print( json.dumps(pipeline.get_component("homo_lr_0").get_summary(), indent=4, ensure_ascii=False)) print( json.dumps(pipeline.get_component("evaluation_0").get_summary(), indent=4, ensure_ascii=False))
def main(config="../../config.yaml", namespace=""): if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] hosts = parties.host[0] arbiter = parties.arbiter[0] guest_train_data = { "name": "breast_hetero_guest", "namespace": f"experiment{namespace}" } host_train_data = { "name": "breast_hetero_host", "namespace": f"experiment{namespace}" } # guest_train_data = {"name": "default_credit_hetero_guest", "namespace": f"experiment{namespace}"} # host_train_data = {"name": "default_credit_hetero_host", "namespace": f"experiment{namespace}"} # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role='guest', party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=hosts, arbiter=arbiter) # define Reader components to read in data reader_0 = Reader(name="reader_0") # configure Reader for guest reader_0.get_party_instance( role='guest', party_id=guest).component_param(table=guest_train_data) # configure Reader for host reader_0.get_party_instance( role='host', party_id=hosts).component_param(table=host_train_data) data_transform_0 = DataTransform(name="data_transform_0", output_format='dense') # get DataTransform party instance of guest data_transform_0_guest_party_instance = data_transform_0.get_party_instance( role='guest', party_id=guest) # configure DataTransform for guest data_transform_0_guest_party_instance.component_param(with_label=True) # get and configure DataTransform party instance of host data_transform_0.get_party_instance( role='host', party_id=hosts).component_param(with_label=False) # define Intersection components intersection_0 = Intersection(name="intersection_0") pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) param = { "model_id": "arbiter-9999#guest-10000#host-9999#model", "model_version": "202108311438379703480", "component_name": "hetero_lr_0", "step_index": 2 } model_loader_0 = ModelLoader(name="model_loader_0", **param) lr_param = { "penalty": "L2", "optimizer": "rmsprop", "tol": 0.0001, "alpha": 0.01, "early_stop": "diff", "batch_size": -1, "learning_rate": 0.15, "init_param": { "init_method": "zeros", "fit_intercept": True }, "encrypt_param": { "key_length": 1024 }, "callback_param": { "callbacks": ["ModelCheckpoint"], "validation_freqs": 1, "early_stopping_rounds": 1, "metrics": None, "use_first_metric_only": False, "save_freq": 1 } } hetero_lr_0 = HeteroLR(name="hetero_lr_0", max_iter=30, **lr_param) pipeline.add_component(model_loader_0) pipeline.add_component(hetero_lr_0, data=Data(train_data=intersection_0.output.data), model=Model(model=model_loader_0.output.model)) evaluation_0 = Evaluation(name="evaluation_0", eval_type="binary") pipeline.add_component(evaluation_0, data=Data(data=hetero_lr_0.output.data)) pipeline.compile() # fit model pipeline.fit() # query component summary prettify(pipeline.get_component("hetero_lr_0").get_summary()) prettify(pipeline.get_component("evaluation_0").get_summary()) return pipeline
def main(config="../../config.yaml", param="./lr_config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] if isinstance(param, str): param = JobConfig.load_from_file(param) assert isinstance(param, dict) data_set = param.get("data_guest").split('/')[-1] if data_set == "default_credit_hetero_guest.csv": guest_data_table = 'default_credit_hetero_guest' host_data_table = 'default_credit_hetero_host' elif data_set == 'breast_hetero_guest.csv': guest_data_table = 'breast_hetero_guest' host_data_table = 'breast_hetero_host' elif data_set == 'give_credit_hetero_guest.csv': guest_data_table = 'give_credit_hetero_guest' host_data_table = 'give_credit_hetero_host' elif data_set == 'epsilon_5k_hetero_guest.csv': guest_data_table = 'epsilon_5k_hetero_guest' host_data_table = 'epsilon_5k_hetero_host' else: raise ValueError(f"Cannot recognized data_set: {data_set}") guest_train_data = {"name": guest_data_table, "namespace": f"experiment{namespace}"} host_train_data = {"name": host_data_table, "namespace": f"experiment{namespace}"} # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role='guest', party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=host, arbiter=arbiter) # define Reader components to read in data reader_0 = Reader(name="reader_0") # configure Reader for guest reader_0.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data) # configure Reader for host reader_0.get_party_instance(role='host', party_id=host).component_param(table=host_train_data) # define DataTransform components data_transform_0 = DataTransform(name="data_transform_0") # start component numbering at 0 # get DataTransform party instance of guest data_transform_0_guest_party_instance = data_transform_0.get_party_instance(role='guest', party_id=guest) # configure DataTransform for guest data_transform_0_guest_party_instance.component_param(with_label=True, output_format="dense") # get and configure DataTransform party instance of host data_transform_0.get_party_instance(role='host', party_id=host).component_param(with_label=False) # define Intersection component intersection_0 = Intersection(name="intersection_0") lr_param = { } config_param = { "penalty": param["penalty"], "max_iter": param["max_iter"], "alpha": param["alpha"], "learning_rate": param["learning_rate"], "optimizer": param["optimizer"], "batch_size": param["batch_size"], "shuffle": False, "masked_rate": 0, "early_stop": "diff", "tol": 1e-5, "floating_point_precision": param.get("floating_point_precision"), "init_param": { "init_method": param.get("init_method", 'random_uniform'), "random_seed": param.get("random_seed", 103) } } lr_param.update(config_param) print(f"lr_param: {lr_param}, data_set: {data_set}") hetero_lr_0 = HeteroLR(name='hetero_lr_0', **lr_param) hetero_lr_1 = HeteroLR(name='hetero_lr_1') evaluation_0 = Evaluation(name='evaluation_0', eval_type="binary") # add components to pipeline, in order of task execution pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(hetero_lr_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(hetero_lr_1, data=Data(test_data=intersection_0.output.data), model=Model(hetero_lr_0.output.model)) pipeline.add_component(evaluation_0, data=Data(data=hetero_lr_0.output.data)) # compile pipeline once finished adding modules, this step will form conf and dsl files for running job pipeline.compile() # fit model job_parameters = JobParameters() pipeline.fit(job_parameters) lr_0_data = pipeline.get_component("hetero_lr_0").get_output_data().get("data") lr_1_data = pipeline.get_component("hetero_lr_1").get_output_data().get("data") lr_0_score = extract_data(lr_0_data, "predict_result") lr_0_label = extract_data(lr_0_data, "label") lr_1_score = extract_data(lr_1_data, "predict_result") lr_1_label = extract_data(lr_1_data, "label") lr_0_score_label = extract_data(lr_0_data, "predict_result", keep_id=True) lr_1_score_label = extract_data(lr_1_data, "predict_result", keep_id=True) result_summary = parse_summary_result(pipeline.get_component("evaluation_0").get_summary()) metric_lr = { "score_diversity_ratio": classification_metric.Distribution.compute(lr_0_score_label, lr_1_score_label), "ks_2samp": classification_metric.KSTest.compute(lr_0_score, lr_1_score), "mAP_D_value": classification_metric.AveragePrecisionScore().compute(lr_0_score, lr_1_score, lr_0_label, lr_1_label)} result_summary["distribution_metrics"] = {"hetero_lr": metric_lr} data_summary = {"train": {"guest": guest_train_data["name"], "host": host_train_data["name"]}, "test": {"guest": guest_train_data["name"], "host": host_train_data["name"]} } return data_summary, result_summary
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] guest_train_data = {"name": "breast_hetero_guest", "namespace": f"experiment{namespace}"} host_train_data = {"name": "breast_hetero_host", "namespace": f"experiment{namespace}"} pipeline = PipeLine().set_initiator(role='guest', party_id=guest).set_roles(guest=guest, host=host, arbiter=arbiter) reader_0 = Reader(name="reader_0") reader_0.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance(role='host', party_id=host).component_param(table=host_train_data) reader_1 = Reader(name="reader_1") reader_1.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data) reader_1.get_party_instance(role='host', party_id=host).component_param(table=host_train_data) data_transform_0 = DataTransform(name="data_transform_0") data_transform_1 = DataTransform(name="data_transform_1") data_transform_0.get_party_instance( role='guest', party_id=guest).component_param( with_label=True, output_format="dense") data_transform_0.get_party_instance(role='host', party_id=host).component_param(with_label=False) data_transform_1.get_party_instance( role='guest', party_id=guest).component_param( with_label=True, output_format="dense") data_transform_1.get_party_instance(role='host', party_id=host).component_param(with_label=False) intersect_0 = Intersection(name="intersection_0") intersect_1 = Intersection(name="intersection_1") union_0 = Union(name="union_0") hetero_lr_0 = HeteroLR(name="hetero_lr_0", max_iter=3, early_stop="weight_diff", optimizer="nesterov_momentum_sgd", tol=1E-4, alpha=0.01, learning_rate=0.15, init_param={"init_method": "random_uniform"}) evaluation_0 = Evaluation(name="evaluation_0", eval_type="binary", pos_label=1) evaluation_0.get_party_instance(role='host', party_id=host).component_param(need_run=False) pipeline.add_component(reader_0) pipeline.add_component(reader_1) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component( data_transform_1, data=Data( data=reader_1.output.data), model=Model( data_transform_0.output.model)) pipeline.add_component(intersect_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(intersect_1, data=Data(data=data_transform_1.output.data)) pipeline.add_component(union_0, data=Data(data=[intersect_0.output.data, intersect_1.output.data])) pipeline.add_component(hetero_lr_0, data=Data(train_data=union_0.output.data)) pipeline.add_component(evaluation_0, data=Data(data=hetero_lr_0.output.data)) pipeline.compile() pipeline.fit()
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] # data sets guest_train_data = { "name": "vehicle_scale_hetero_guest", "namespace": f"experiment{namespace}" } host_train_data = { "name": "vehicle_scale_hetero_host", "namespace": f"experiment{namespace}" } guest_validate_data = { "name": "vehicle_scale_hetero_guest", "namespace": f"experiment{namespace}" } host_validate_data = { "name": "vehicle_scale_hetero_host", "namespace": f"experiment{namespace}" } # init pipeline pipeline = PipeLine().set_initiator(role="guest", party_id=guest).set_roles( guest=guest, host=host, ) # set data reader and data-io reader_0, reader_1 = Reader(name="reader_0"), Reader(name="reader_1") reader_0.get_party_instance( role="guest", party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance( role="host", party_id=host).component_param(table=host_train_data) reader_1.get_party_instance( role="guest", party_id=guest).component_param(table=guest_validate_data) reader_1.get_party_instance( role="host", party_id=host).component_param(table=host_validate_data) data_transform_0, data_transform_1 = DataTransform( name="data_transform_0"), DataTransform(name="data_transform_1") data_transform_0.get_party_instance( role="guest", party_id=guest).component_param(with_label=True, output_format="dense") data_transform_0.get_party_instance( role="host", party_id=host).component_param(with_label=False) data_transform_1.get_party_instance( role="guest", party_id=guest).component_param(with_label=True, output_format="dense") data_transform_1.get_party_instance( role="host", party_id=host).component_param(with_label=False) # data intersect component intersect_0 = Intersection(name="intersection_0") intersect_1 = Intersection(name="intersection_1") # secure boost component hetero_secure_boost_0 = HeteroSecureBoost( name="hetero_secure_boost_0", num_trees=3, task_type="classification", objective_param={"objective": "cross_entropy"}, encrypt_param={"method": "Paillier"}, tree_param={"max_depth": 3}, validation_freqs=1, boosting_strategy='mix') # evaluation component evaluation_0 = Evaluation(name="evaluation_0", eval_type="multi") pipeline.add_component(reader_0) pipeline.add_component(reader_1) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(data_transform_1, data=Data(data=reader_1.output.data), model=Model(data_transform_0.output.model)) pipeline.add_component(intersect_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(intersect_1, data=Data(data=data_transform_1.output.data)) pipeline.add_component(hetero_secure_boost_0, data=Data(train_data=intersect_0.output.data, validate_data=intersect_1.output.data)) pipeline.add_component(evaluation_0, data=Data(data=hetero_secure_boost_0.output.data)) pipeline.compile() pipeline.fit() print("fitting hetero secureboost done, result:") print(pipeline.get_component("hetero_secure_boost_0").get_summary())
def main(config="../../config.yaml", namespace=""): if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] hosts = parties.host[0] guest_train_data = { "name": "breast_hetero_guest", "namespace": f"experiment{namespace}" } host_train_data = { "name": "breast_hetero_host", "namespace": f"experiment{namespace}" } # guest_train_data = {"name": "default_credit_hetero_guest", "namespace": f"experiment{namespace}"} # host_train_data = {"name": "default_credit_hetero_host", "namespace": f"experiment{namespace}"} # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role='guest', party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=hosts) # define Reader components to read in data reader_0 = Reader(name="reader_0") # configure Reader for guest reader_0.get_party_instance( role='guest', party_id=guest).component_param(table=guest_train_data) # configure Reader for host reader_0.get_party_instance( role='host', party_id=hosts).component_param(table=host_train_data) data_transform_0 = DataTransform(name="data_transform_0", output_format='dense') # get DataTransform party instance of guest data_transform_0_guest_party_instance = data_transform_0.get_party_instance( role='guest', party_id=guest) # configure DataTransform for guest data_transform_0_guest_party_instance.component_param(with_label=True) # get and configure DataTransform party instance of host data_transform_0.get_party_instance( role='host', party_id=hosts).component_param(with_label=False) # define Intersection components intersection_0 = Intersection(name="intersection_0") pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) lr_param = { "name": "hetero_sshe_lr_0", "penalty": "L2", "tol": 0.0001, "alpha": 10, "max_iter": 30, "early_stop": "weight_diff", "batch_size": -1, "learning_rate": 0.3, "decay": 0.5, "init_param": { "init_method": "const", "init_const": 200, "fit_intercept": False }, "encrypt_param": { "key_length": 1024 } } hetero_sshe_lr_0 = HeteroSSHELR(**lr_param) pipeline.add_component(hetero_sshe_lr_0, data=Data(train_data=intersection_0.output.data)) evaluation_0 = Evaluation(name="evaluation_0", eval_type="binary") pipeline.add_component(evaluation_0, data=Data(data=hetero_sshe_lr_0.output.data)) pipeline.compile() # fit model pipeline.fit() # query component summary prettify(pipeline.get_component("hetero_sshe_lr_0").get_summary()) prettify(pipeline.get_component("evaluation_0").get_summary()) pipeline.deploy_component( [data_transform_0, intersection_0, hetero_sshe_lr_0]) predict_pipeline = PipeLine() # add data reader onto predict pipeline predict_pipeline.add_component(reader_0) # add selected components from train pipeline onto predict pipeline # specify data source predict_pipeline.add_component( pipeline, data=Data(predict_input={ pipeline.data_transform_0.input.data: reader_0.output.data })) # run predict model predict_pipeline.predict() return pipeline
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] guest_train_data = { "name": "breast_hetero_guest", "namespace": f"experiment_sid{namespace}" } host_train_data = { "name": "breast_hetero_host", "namespace": f"experiment_sid{namespace}" } pipeline = PipeLine().set_initiator(role='guest', party_id=guest).\ set_roles(guest=guest, host=host, arbiter=arbiter) reader_0 = Reader(name="reader_0") reader_0.get_party_instance( role='guest', party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance( role='host', party_id=host).component_param(table=host_train_data) data_transform_0 = DataTransform(name="data_transform_0", with_match_id=True) data_transform_0.get_party_instance( role='guest', party_id=guest).component_param(with_label=True) data_transform_0.get_party_instance( role='host', party_id=host).component_param(with_label=False) intersection_0 = Intersection(name="intersection_0") feature_scale_0 = FeatureScale(name='feature_scale_0', method="standard_scale", need_run=True) binning_param = { "method": "quantile", "compress_thres": 10000, "head_size": 10000, "error": 0.001, "bin_num": 10, "bin_indexes": -1, "adjustment_factor": 0.5, "local_only": False, "need_run": True, "transform_param": { "transform_cols": -1, "transform_type": "bin_num" } } hetero_feature_binning_0 = HeteroFeatureBinning( name='hetero_feature_binning_0', **binning_param) statistic_0 = DataStatistics(name='statistic_0', statistics=["95%"]) pearson_0 = HeteroPearson(name='pearson_0', column_indexes=-1) onehot_0 = OneHotEncoder(name='onehot_0') selection_param = { "name": "hetero_feature_selection_0", "select_col_indexes": -1, "select_names": [], "filter_methods": [ "manually", "unique_value", "iv_filter", "coefficient_of_variation_value_thres", "outlier_cols" ], "manually_param": { "filter_out_indexes": [0, 1, 2], "filter_out_names": ["x3"] }, "unique_param": { "eps": 1e-06 }, "iv_param": { "metrics": ["iv", "iv", "iv"], "filter_type": ["threshold", "top_k", "top_percentile"], "threshold": [0.001, 100, 0.99] }, "variance_coe_param": { "value_threshold": 0.3 }, "outlier_param": { "percentile": 0.95, "upper_threshold": 2.0 } } hetero_feature_selection_0 = HeteroFeatureSelection(**selection_param) lr_param = { "name": "hetero_lr_0", "penalty": "L2", "optimizer": "rmsprop", "tol": 0.0001, "alpha": 0.01, "max_iter": 30, "early_stop": "diff", "batch_size": 320, "learning_rate": 0.15, "init_param": { "init_method": "zeros" }, "sqn_param": { "update_interval_L": 3, "memory_M": 5, "sample_size": 5000, "random_seed": None }, "cv_param": { "n_splits": 5, "shuffle": False, "random_seed": 103, "need_cv": False } } hetero_lr_0 = HeteroLR(**lr_param) evaluation_0 = Evaluation(name='evaluation_0') pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(feature_scale_0, data=Data(data=intersection_0.output.data)) pipeline.add_component(hetero_feature_binning_0, data=Data(data=feature_scale_0.output.data)) pipeline.add_component(statistic_0, data=Data(data=feature_scale_0.output.data)) pipeline.add_component(pearson_0, data=Data(data=feature_scale_0.output.data)) pipeline.add_component( hetero_feature_selection_0, data=Data(data=hetero_feature_binning_0.output.data), model=Model(isometric_model=[ hetero_feature_binning_0.output.model, statistic_0.output.model ])) pipeline.add_component( onehot_0, data=Data(data=hetero_feature_selection_0.output.data)) pipeline.add_component(hetero_lr_0, data=Data(train_data=onehot_0.output.data)) pipeline.add_component(evaluation_0, data=Data(data=hetero_lr_0.output.data)) pipeline.compile() pipeline.fit()
def main(config="../../config.yaml", param="./lr_config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] backend = config.backend work_mode = config.work_mode if isinstance(param, str): param = JobConfig.load_from_file(param) assert isinstance(param, dict) data_set = param.get("data_guest").split('/')[-1] if data_set == "default_credit_hetero_guest.csv": guest_data_table = 'default_credit_hetero_guest' host_data_table = 'default_credit_hetero_host' elif data_set == 'breast_hetero_guest.csv': guest_data_table = 'breast_hetero_guest' host_data_table = 'breast_hetero_host' elif data_set == 'give_credit_hetero_guest.csv': guest_data_table = 'give_credit_hetero_guest' host_data_table = 'give_credit_hetero_host' elif data_set == 'epsilon_5k_hetero_guest.csv': guest_data_table = 'epsilon_5k_hetero_guest' host_data_table = 'epsilon_5k_hetero_host' else: raise ValueError(f"Cannot recognized data_set: {data_set}") guest_train_data = { "name": guest_data_table, "namespace": f"experiment{namespace}" } host_train_data = { "name": host_data_table, "namespace": f"experiment{namespace}" } # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role='guest', party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=host, arbiter=arbiter) # define Reader components to read in data reader_0 = Reader(name="reader_0") # configure Reader for guest reader_0.get_party_instance( role='guest', party_id=guest).component_param(table=guest_train_data) # configure Reader for host reader_0.get_party_instance( role='host', party_id=host).component_param(table=host_train_data) # define DataIO components dataio_0 = DataIO(name="dataio_0") # start component numbering at 0 # get DataIO party instance of guest dataio_0_guest_party_instance = dataio_0.get_party_instance(role='guest', party_id=guest) # configure DataIO for guest dataio_0_guest_party_instance.component_param(with_label=True, output_format="dense") # get and configure DataIO party instance of host dataio_0.get_party_instance( role='host', party_id=host).component_param(with_label=False) # define Intersection component intersection_0 = Intersection(name="intersection_0") lr_param = { "validation_freqs": None, "early_stopping_rounds": None, } config_param = { "penalty": param["penalty"], "max_iter": param["max_iter"], "alpha": param["alpha"], "learning_rate": param["learning_rate"], "optimizer": param["optimizer"], "batch_size": param["batch_size"], "early_stop": "diff", "tol": 1e-5, "init_param": { "init_method": param.get("init_method", 'random_uniform') } } lr_param.update(config_param) print(f"lr_param: {lr_param}, data_set: {data_set}") hetero_lr_0 = HeteroLR(name='hetero_lr_0', **lr_param) evaluation_0 = Evaluation(name='evaluation_0', eval_type="binary") # add components to pipeline, in order of task execution pipeline.add_component(reader_0) pipeline.add_component(dataio_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=dataio_0.output.data)) pipeline.add_component(hetero_lr_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(evaluation_0, data=Data(data=hetero_lr_0.output.data)) # compile pipeline once finished adding modules, this step will form conf and dsl files for running job pipeline.compile() # fit model job_parameters = JobParameters(backend=backend, work_mode=work_mode) pipeline.fit(job_parameters) # query component summary print(pipeline.get_component("evaluation_0").get_summary()) data_summary = { "train": { "guest": guest_train_data["name"], "host": host_train_data["name"] }, "test": { "guest": guest_train_data["name"], "host": host_train_data["name"] } } result_summary = pipeline.get_component("evaluation_0").get_summary() return data_summary, result_summary
def main(config="../../config.yaml", namespace=""): if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] hosts = parties.host[0] arbiter = parties.arbiter[0] guest_train_data = { "name": "breast_homo_guest", "namespace": f"experiment{namespace}" } host_train_data = { "name": "breast_homo_host", "namespace": f"experiment{namespace}" } # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role='guest', party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=hosts, arbiter=arbiter) # define Reader components to read in data reader_0 = Reader(name="reader_0") # configure Reader for guest reader_0.get_party_instance( role='guest', party_id=guest).component_param(table=guest_train_data) # configure Reader for host reader_0.get_party_instance( role='host', party_id=hosts).component_param(table=host_train_data) data_transform_0 = DataTransform(name="data_transform_0", output_format='dense', with_label=True) pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) lr_param = { "penalty": "L2", "optimizer": "sgd", "tol": 1e-05, "alpha": 0.01, "early_stop": "diff", "batch_size": -1, "learning_rate": 0.15, "decay": 1, "decay_sqrt": True, "init_param": { "init_method": "zeros" }, "encrypt_param": { "method": None }, "cv_param": { "n_splits": 4, "shuffle": True, "random_seed": 33, "need_cv": False }, "callback_param": { "callbacks": ["ModelCheckpoint", "EarlyStopping"] } } homo_lr_0 = HomoLR(name="homo_lr_0", max_iter=3, **lr_param) homo_lr_1 = HomoLR(name="homo_lr_1", max_iter=30, **lr_param) homo_lr_2 = HomoLR(name="homo_lr_2", max_iter=30, **lr_param) pipeline.add_component(homo_lr_0, data=Data(train_data=data_transform_0.output.data)) pipeline.add_component(homo_lr_1, data=Data(train_data=data_transform_0.output.data), model=Model(model=homo_lr_0.output.model)) pipeline.add_component(homo_lr_2, data=Data(train_data=data_transform_0.output.data)) evaluation_0 = Evaluation(name="evaluation_0", eval_type="binary") pipeline.add_component( evaluation_0, data=Data(data=[homo_lr_1.output.data, homo_lr_2.output.data])) pipeline.compile() # fit model pipeline.fit() # query component summary prettify(pipeline.get_component("evaluation_0").get_summary()) return pipeline
def main(config="../../config.yaml", param="./vechile_config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] backend = config.backend work_mode = config.work_mode if isinstance(param, str): param = JobConfig.load_from_file(param) assert isinstance(param, dict) """ guest = 9999 host = 10000 arbiter = 9999 backend = 0 work_mode = 1 param = {"penalty": "L2", "max_iter": 5} """ data_set = param.get("data_guest").split('/')[-1] if data_set == "vehicle_scale_hetero_guest.csv": guest_data_table = 'vehicle_scale_hetero_guest' host_data_table = 'vehicle_scale_hetero_host' else: raise ValueError(f"Cannot recognized data_set: {data_set}") guest_train_data = { "name": guest_data_table, "namespace": f"experiment{namespace}" } host_train_data = { "name": host_data_table, "namespace": f"experiment{namespace}" } # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role='guest', party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=host, arbiter=arbiter) # define Reader components to read in data reader_0 = Reader(name="reader_0") # configure Reader for guest reader_0.get_party_instance( role='guest', party_id=guest).component_param(table=guest_train_data) # configure Reader for host reader_0.get_party_instance( role='host', party_id=host).component_param(table=host_train_data) # define DataIO components dataio_0 = DataIO(name="dataio_0") # start component numbering at 0 # get DataIO party instance of guest dataio_0_guest_party_instance = dataio_0.get_party_instance(role='guest', party_id=guest) # configure DataIO for guest dataio_0_guest_party_instance.component_param(with_label=True, output_format="dense") # get and configure DataIO party instance of host dataio_0.get_party_instance( role='host', party_id=host).component_param(with_label=False) # define Intersection component intersection_0 = Intersection(name="intersection_0") lr_param = { "validation_freqs": None, "early_stopping_rounds": None, } config_param = { "penalty": param["penalty"], "max_iter": param["max_iter"], "alpha": param["alpha"], "learning_rate": param["learning_rate"], "optimizer": param["optimizer"], "batch_size": param["batch_size"], "early_stop": "diff", "init_param": { "init_method": param.get("init_method", 'random_uniform'), "random_seed": param.get("random_seed", 103) } } lr_param.update(config_param) print(f"lr_param: {lr_param}, data_set: {data_set}") hetero_lr_0 = HeteroLR(name='hetero_lr_0', **lr_param) hetero_lr_1 = HeteroLR(name='hetero_lr_1') evaluation_0 = Evaluation(name='evaluation_0', eval_type="multi") # add components to pipeline, in order of task execution pipeline.add_component(reader_0) pipeline.add_component(dataio_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=dataio_0.output.data)) pipeline.add_component(hetero_lr_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(hetero_lr_1, data=Data(test_data=intersection_0.output.data), model=Model(hetero_lr_0.output.model)) pipeline.add_component(evaluation_0, data=Data(data=hetero_lr_0.output.data)) # compile pipeline once finished adding modules, this step will form conf and dsl files for running job pipeline.compile() # fit model job_parameters = JobParameters(backend=backend, work_mode=work_mode) pipeline.fit(job_parameters) # query component summary result_summary = parse_summary_result( pipeline.get_component("evaluation_0").get_summary()) lr_0_data = pipeline.get_component("hetero_lr_0").get_output_data().get( "data") lr_1_data = pipeline.get_component("hetero_lr_1").get_output_data().get( "data") lr_0_score_label = extract_data(lr_0_data, "predict_result", keep_id=True) lr_1_score_label = extract_data(lr_1_data, "predict_result", keep_id=True) metric_lr = { "score_diversity_ratio": classification_metric.Distribution.compute(lr_0_score_label, lr_1_score_label) } result_summary["distribution_metrics"] = {"hetero_lr": metric_lr} data_summary = { "train": { "guest": guest_train_data["name"], "host": host_train_data["name"] }, "test": { "guest": guest_train_data["name"], "host": host_train_data["name"] } } return data_summary, result_summary
def main(config="../../config.yaml", param="./linr_config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] backend = config.backend work_mode = config.work_mode if isinstance(param, str): param = JobConfig.load_from_file(param) """ guest = 9999 host = 10000 arbiter = 9999 backend = 0 work_mode = 1 param = {"penalty": "L2", "max_iter": 5} """ guest_train_data = { "name": "motor_hetero_guest", "namespace": f"experiment{namespace}" } host_train_data = { "name": "motor_hetero_host", "namespace": f"experiment{namespace}" } # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role='guest', party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=host, arbiter=arbiter) # define Reader components to read in data reader_0 = Reader(name="reader_0") # configure Reader for guest reader_0.get_party_instance( role='guest', party_id=guest).algorithm_param(table=guest_train_data) # configure Reader for host reader_0.get_party_instance( role='host', party_id=host).algorithm_param(table=host_train_data) # define DataIO components dataio_0 = DataIO(name="dataio_0") # start component numbering at 0 # get DataIO party instance of guest dataio_0_guest_party_instance = dataio_0.get_party_instance(role='guest', party_id=guest) # configure DataIO for guest dataio_0_guest_party_instance.algorithm_param( with_label=True, output_format="dense", label_name=param["label_name"], label_type="float") # get and configure DataIO party instance of host dataio_0.get_party_instance( role='host', party_id=host).algorithm_param(with_label=False) # define Intersection component intersection_0 = Intersection(name="intersection_0") param = { "penalty": param["penalty"], "validation_freqs": None, "early_stopping_rounds": None, "max_iter": param["max_iter"], "optimizer": param["optimizer"], "learning_rate": param["learning_rate"], "init_param": param["init_param"], "batch_size": param["batch_size"], "alpha": param["alpha"] } hetero_linr_0 = HeteroLinR(name='hetero_linr_0', **param) evaluation_0 = Evaluation(name='evaluation_0', eval_type="regression", metrics=[ "r2_score", "mean_squared_error", "root_mean_squared_error", "explained_variance" ]) # add components to pipeline, in order of task execution pipeline.add_component(reader_0) pipeline.add_component(dataio_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=dataio_0.output.data)) pipeline.add_component(hetero_linr_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(evaluation_0, data=Data(data=hetero_linr_0.output.data)) # compile pipeline once finished adding modules, this step will form conf and dsl files for running job pipeline.compile() # fit model pipeline.fit(backend=backend, work_mode=work_mode) metric_summary = pipeline.get_component("evaluation_0").get_summary() data_summary = { "train": { "guest": guest_train_data["name"], "host": host_train_data["name"] }, "test": { "guest": guest_train_data["name"], "host": host_train_data["name"] } } return data_summary, metric_summary
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] guest_train_data = { "name": "breast_hetero_guest", "namespace": "experiment" } guest_test_data = { "name": "breast_hetero_guest", "namespace": "experiment" } host_train_data = { "name": "breast_hetero_host_tag_value", "namespace": "experiment" } host_test_data = { "name": "breast_hetero_host_tag_value", "namespace": "experiment" } # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role='guest', party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=host) # define Reader components to read in data reader_0 = Reader(name="reader_0") reader_1 = Reader(name="reader_1") # configure Reader for guest reader_0.get_party_instance( role='guest', party_id=guest).component_param(table=guest_train_data) reader_1.get_party_instance( role='guest', party_id=guest).component_param(table=guest_test_data) # configure Reader for host reader_0.get_party_instance( role='host', party_id=host).component_param(table=host_train_data) reader_1.get_party_instance( role='host', party_id=host).component_param(table=host_test_data) # define DataIO components dataio_0 = DataIO(name="dataio_0") # start component numbering at 0 dataio_1 = DataIO(name="dataio_1") # start component numbering at 1 param = { "with_label": True, "label_name": "y", "label_type": "int", "output_format": "dense", "missing_fill": True, "missing_fill_method": "mean", "outlier_replace": False, "outlier_replace_method": "designated", "outlier_replace_value": 0.66, "outlier_impute": "-9999" } # get DataIO party instance of guest dataio_0_guest_party_instance = dataio_0.get_party_instance(role='guest', party_id=guest) # configure DataIO for guest dataio_0_guest_party_instance.component_param(**param) # get and configure DataIO party instance of host dataio_1.get_party_instance(role='guest', party_id=guest).component_param(**param) param = { "input_format": "tag", "with_label": False, "tag_with_value": True, "delimitor": ";", "output_format": "dense" } dataio_0.get_party_instance(role='host', party_id=host).component_param(**param) dataio_1.get_party_instance(role='host', party_id=host).component_param(**param) # define Intersection components intersection_0 = Intersection(name="intersection_0", intersect_method="raw") intersection_1 = Intersection(name="intersection_1", intersect_method="raw") param = { "name": 'hetero_feature_binning_0', "method": 'optimal', "optimal_binning_param": { "metric_method": "iv", "init_bucket_method": "quantile" }, "bin_indexes": -1 } hetero_feature_binning_0 = HeteroFeatureBinning(**param) statistic_0 = DataStatistics(name='statistic_0') param = { "name": 'hetero_feature_selection_0', "filter_methods": ["manually", "unique_value", "iv_filter", "statistic_filter"], "manually_param": { "filter_out_indexes": [1, 2], "filter_out_names": ["x2", "x3"] }, "unique_param": { "eps": 1e-6 }, "iv_param": { "metrics": ["iv", "iv"], "filter_type": ["top_k", "threshold"], "take_high": [True, True], "threshold": [10, 0.1] }, "statistic_param": { "metrics": ["coefficient_of_variance", "skewness"], "filter_type": ["threshold", "threshold"], "take_high": [True, False], "threshold": [0.001, -0.01] }, "select_col_indexes": -1 } hetero_feature_selection_0 = HeteroFeatureSelection(**param) hetero_feature_selection_1 = HeteroFeatureSelection( name='hetero_feature_selection_1') param = { "task_type": "classification", "learning_rate": 0.1, "num_trees": 10, "subsample_feature_rate": 0.5, "n_iter_no_change": False, "tol": 0.0002, "bin_num": 50, "objective_param": { "objective": "cross_entropy" }, "encrypt_param": { "method": "paillier" }, "predict_param": { "threshold": 0.5 }, "tree_param": { "max_depth": 2 }, "cv_param": { "n_splits": 5, "shuffle": False, "random_seed": 103, "need_cv": False }, "validation_freqs": 2, "early_stopping_rounds": 5, "metrics": ["auc", "ks"] } hetero_secureboost_0 = HeteroSecureBoost(name='hetero_secureboost_0', **param) evaluation_0 = Evaluation(name='evaluation_0') # add components to pipeline, in order of task execution pipeline.add_component(reader_0) pipeline.add_component(reader_1) pipeline.add_component(dataio_0, data=Data(data=reader_0.output.data)) pipeline.add_component(dataio_1, data=Data(data=reader_1.output.data), model=Model(dataio_0.output.model)) # set data input sources of intersection components pipeline.add_component(intersection_0, data=Data(data=dataio_0.output.data)) pipeline.add_component(intersection_1, data=Data(data=dataio_1.output.data)) pipeline.add_component(hetero_feature_binning_0, data=Data(data=intersection_0.output.data)) pipeline.add_component(statistic_0, data=Data(data=intersection_0.output.data)) pipeline.add_component( hetero_feature_selection_0, data=Data(data=intersection_0.output.data), model=Model(isometric_model=[ hetero_feature_binning_0.output.model, statistic_0.output.model ])) pipeline.add_component(hetero_feature_selection_1, data=Data(data=intersection_1.output.data), model=Model( hetero_feature_selection_0.output.model)) # set train & validate data of hetero_secureboost_0 component pipeline.add_component( hetero_secureboost_0, data=Data(train_data=hetero_feature_selection_0.output.data, validate_data=hetero_feature_selection_1.output.data)) pipeline.add_component(evaluation_0, data=Data(data=hetero_secureboost_0.output.data)) # compile pipeline once finished adding modules, this step will form conf and dsl files for running job pipeline.compile() # fit model pipeline.fit() # query component summary print(pipeline.get_component("hetero_secureboost_0").get_summary())
def main(config="../../config.yaml", param="./sshe_linr_config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] if isinstance(param, str): param = JobConfig.load_from_file(param) guest_train_data = { "name": "motor_hetero_guest", "namespace": f"experiment{namespace}" } host_train_data = { "name": "motor_hetero_host", "namespace": f"experiment{namespace}" } # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role='guest', party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=host, arbiter=arbiter) # define Reader components to read in data reader_0 = Reader(name="reader_0") # configure Reader for guest reader_0.get_party_instance( role='guest', party_id=guest).component_param(table=guest_train_data) # configure Reader for host reader_0.get_party_instance( role='host', party_id=host).component_param(table=host_train_data) # define DataTransform components data_transform_0 = DataTransform( name="data_transform_0") # start component numbering at 0 # get DataTransform party instance of guest data_transform_0_guest_party_instance = data_transform_0.get_party_instance( role='guest', party_id=guest) # configure DataTransform for guest data_transform_0_guest_party_instance.component_param( with_label=True, output_format="dense", label_name=param["label_name"], label_type="float") # get and configure DataTransform party instance of host data_transform_0.get_party_instance( role='host', party_id=host).component_param(with_label=False) # define Intersection component intersection_0 = Intersection(name="intersection_0") param = { "penalty": param["penalty"], "max_iter": param["max_iter"], "optimizer": param["optimizer"], "learning_rate": param["learning_rate"], "init_param": param["init_param"], "batch_size": param["batch_size"], "alpha": param["alpha"], "early_stop": param["early_stop"], "reveal_strategy": param["reveal_strategy"], "tol": 1e-6, "reveal_every_iter": True } hetero_sshe_linr_0 = HeteroSSHELinR(name='hetero_sshe_linr_0', **param) hetero_sshe_linr_1 = HeteroSSHELinR(name='hetero_sshe_linr_1') evaluation_0 = Evaluation(name='evaluation_0', eval_type="regression", metrics=[ "r2_score", "mean_squared_error", "root_mean_squared_error", "explained_variance" ]) # add components to pipeline, in order of task execution pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(hetero_sshe_linr_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(hetero_sshe_linr_1, data=Data(test_data=intersection_0.output.data), model=Model(hetero_sshe_linr_0.output.model)) pipeline.add_component(evaluation_0, data=Data(data=hetero_sshe_linr_0.output.data)) # compile pipeline once finished adding modules, this step will form conf and dsl files for running job pipeline.compile() # fit model pipeline.fit() metric_summary = parse_summary_result( pipeline.get_component("evaluation_0").get_summary()) data_linr_0 = extract_data( pipeline.get_component("hetero_sshe_linr_0").get_output_data().get( "data"), "predict_result") data_linr_1 = extract_data( pipeline.get_component("hetero_sshe_linr_1").get_output_data().get( "data"), "predict_result") desc_linr_0 = regression_metric.Describe().compute(data_linr_0) desc_linr_1 = regression_metric.Describe().compute(data_linr_1) metric_summary["script_metrics"] = { "linr_train": desc_linr_0, "linr_validate": desc_linr_1 } data_summary = { "train": { "guest": guest_train_data["name"], "host": host_train_data["name"] }, "test": { "guest": guest_train_data["name"], "host": host_train_data["name"] } } return data_summary, metric_summary
def main(): # parties config guest = 9999 host = 10000 arbiter = 10000 # specify input data name & namespace in database guest_train_data = { "name": "breast_hetero_guest", "namespace": "experiment" } host_train_data = {"name": "breast_hetero_host", "namespace": "experiment"} guest_eval_data = { "name": "breast_hetero_guest", "namespace": "experiment" } host_eval_data = {"name": "breast_hetero_host", "namespace": "experiment"} # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role="guest", party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=host, arbiter=arbiter) # define Reader components to read in data reader_0 = Reader(name="reader_0") # configure Reader for guest reader_0.get_party_instance( role="guest", party_id=guest).component_param(table=guest_train_data) # configure Reader for host reader_0.get_party_instance( role="host", party_id=host).component_param(table=host_train_data) # define DataTransform component data_transform_0 = DataTransform(name="data_transform_0") # get DataTransform party instance of guest data_transform_0_guest_party_instance = data_transform_0.get_party_instance( role="guest", party_id=guest) # configure DataTransform for guest data_transform_0_guest_party_instance.component_param( with_label=True, output_format="dense") # get and configure DataTransform party instance of host data_transform_0.get_party_instance( role="host", party_id=host).component_param(with_label=False) # define Intersection components intersection_0 = Intersection(name="intersection_0") # define HeteroLR component hetero_lr_0 = HeteroLR(name="hetero_lr_0", early_stop="diff", learning_rate=0.15, optimizer="rmsprop", max_iter=10) # add components to pipeline, in order of task execution pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) # set data input sources of intersection components pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) # set train data of hetero_lr_0 component pipeline.add_component(hetero_lr_0, data=Data(train_data=intersection_0.output.data)) # compile pipeline once finished adding modules, this step will form conf and dsl files for running job pipeline.compile() # fit model pipeline.fit() # query component summary import json print( json.dumps(pipeline.get_component("hetero_lr_0").get_summary(), indent=4)) # predict # deploy required components pipeline.deploy_component([data_transform_0, intersection_0, hetero_lr_0]) # initiate predict pipeline predict_pipeline = PipeLine() # define new data reader reader_1 = Reader(name="reader_1") reader_1.get_party_instance( role="guest", party_id=guest).component_param(table=guest_eval_data) reader_1.get_party_instance( role="host", party_id=host).component_param(table=host_eval_data) # define evaluation component evaluation_0 = Evaluation(name="evaluation_0") evaluation_0.get_party_instance( role="guest", party_id=guest).component_param(need_run=True, eval_type="binary") evaluation_0.get_party_instance( role="host", party_id=host).component_param(need_run=False) # add data reader onto predict pipeline predict_pipeline.add_component(reader_1) # add selected components from train pipeline onto predict pipeline # specify data source predict_pipeline.add_component( pipeline, data=Data(predict_input={ pipeline.data_transform_0.input.data: reader_1.output.data })) # add evaluation component to predict pipeline predict_pipeline.add_component( evaluation_0, data=Data(data=pipeline.hetero_lr_0.output.data)) # run predict model predict_pipeline.predict()
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] guest_train_data = { "name": "motor_hetero_guest", "namespace": f"experiment{namespace}" } host_train_data = { "name": "motor_hetero_host", "namespace": f"experiment{namespace}" } pipeline = PipeLine().set_initiator(role='guest', party_id=guest).set_roles(guest=guest, host=host) reader_0 = Reader(name="reader_0") reader_0.get_party_instance( role='guest', party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance( role='host', party_id=host).component_param(table=host_train_data) reader_0.get_party_instance( role='host', party_id=host).component_param(table=host_train_data) data_transform_0 = DataTransform(name="data_transform_0", output_format="dense", missing_fill=True, outlier_replace=False) data_transform_0.get_party_instance( role='guest', party_id=guest).component_param(with_label=True, label_name="motor_speed", label_type="float") data_transform_0.get_party_instance( role='host', party_id=host).component_param(with_label=False) intersection_0 = Intersection(name="intersection_0") hetero_linr_0 = HeteroSSHELinR(name="hetero_linr_0", penalty="L2", optimizer="sgd", tol=0.001, alpha=0.01, max_iter=20, early_stop="weight_diff", batch_size=100, learning_rate=0.2, decay=0.0, decay_sqrt=False, init_param={ "init_method": "const", "init_const": 100 }) evaluation_0 = Evaluation(name="evaluation_0", eval_type="regression", pos_label=1) # evaluation_0.get_party_instance(role='host', party_id=host).component_param(need_run=False) pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(hetero_linr_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(evaluation_0, data=Data(data=hetero_linr_0.output.data)) pipeline.compile() pipeline.fit()
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] guest_train_data = { "name": "dvisits_hetero_guest", "namespace": f"experiment{namespace}" } host_train_data = { "name": "dvisits_hetero_host", "namespace": f"experiment{namespace}" } pipeline = PipeLine().set_initiator( role='guest', party_id=guest).set_roles(guest=guest, host=host, arbiter=arbiter) reader_0 = Reader(name="reader_0") reader_0.get_party_instance( role='guest', party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance( role='host', party_id=host).component_param(table=host_train_data) data_transform_0 = DataTransform(name="data_transform_0", output_format="sparse") data_transform_0.get_party_instance( role='guest', party_id=guest).component_param(with_label=True, label_name="doctorco", label_type="float") data_transform_0.get_party_instance( role='host', party_id=host).component_param(with_label=False) intersection_0 = Intersection(name="intersection_0") hetero_poisson_0 = HeteroPoisson( name="hetero_poisson_0", early_stop="weight_diff", max_iter=2, alpha=100.0, batch_size=-1, learning_rate=0.01, exposure_colname="exposure", optimizer="rmsprop", penalty="L2", decay_sqrt=False, tol=0.001, init_param={"init_method": "zeros"}, ) evaluation_0 = Evaluation(name="evaluation_0", eval_type="regression", pos_label=1) evaluation_0.get_party_instance( role='host', party_id=host).component_param(need_run=False) pipeline.add_component(reader_0) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(intersection_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(hetero_poisson_0, data=Data(train_data=intersection_0.output.data)) pipeline.add_component(evaluation_0, data=Data(data=hetero_poisson_0.output.data)) pipeline.compile() pipeline.fit()
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] guest_train_data_0 = {"name": "breast_hetero_guest", "namespace": "experiment"} guest_train_data_1 = {"name": "breast_hetero_guest", "namespace": "experiment"} guest_test_data_0 = {"name": "breast_hetero_guest", "namespace": "experiment"} guest_test_data_1 = {"name": "breast_hetero_guest", "namespace": "experiment"} host_train_data_0 = {"name": "breast_hetero_host_tag_value", "namespace": "experiment"} host_train_data_1 = {"name": "breast_hetero_host_tag_value", "namespace": "experiment"} host_test_data_0 = {"name": "breast_hetero_host_tag_value", "namespace": "experiment"} host_test_data_1 = {"name": "breast_hetero_host_tag_value", "namespace": "experiment"} # initialize pipeline pipeline = PipeLine() # set job initiator pipeline.set_initiator(role='guest', party_id=guest) # set participants information pipeline.set_roles(guest=guest, host=host, arbiter=arbiter) # define Reader components to read in data reader_0 = Reader(name="reader_0") reader_1 = Reader(name="reader_1") reader_2 = Reader(name="reader_2") reader_3 = Reader(name="reader_3") # configure Reader for guest reader_0.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data_0) reader_1.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data_1) reader_2.get_party_instance(role='guest', party_id=guest).component_param(table=guest_test_data_0) reader_3.get_party_instance(role='guest', party_id=guest).component_param(table=guest_test_data_1) # configure Reader for host reader_0.get_party_instance(role='host', party_id=host).component_param(table=host_train_data_0) reader_1.get_party_instance(role='host', party_id=host).component_param(table=host_train_data_1) reader_2.get_party_instance(role='host', party_id=host).component_param(table=host_test_data_0) reader_3.get_party_instance(role='host', party_id=host).component_param(table=host_test_data_1) param = { "name": "union_0", "keep_duplicate": True } union_0 = Union(**param) param = { "name": "union_1", "keep_duplicate": True } union_1 = Union(**param) param = { "input_format": "tag", "with_label": False, "tag_with_value": True, "delimitor": ";", "output_format": "dense" } # define DataIO components dataio_0 = DataIO(name="dataio_0") # start component numbering at 0 dataio_1 = DataIO(name="dataio_1") # start component numbering at 1 # get DataIO party instance of guest dataio_0_guest_party_instance = dataio_0.get_party_instance(role='guest', party_id=guest) # configure DataIO for guest dataio_0_guest_party_instance.component_param(with_label=True, output_format="dense") # get and configure DataIO party instance of host dataio_0.get_party_instance(role='host', party_id=host).component_param(**param) dataio_1.get_party_instance(role='guest', party_id=guest).component_param(with_label=True) dataio_1.get_party_instance(role='host', party_id=host).component_param(**param) # define Intersection components intersection_0 = Intersection(name="intersection_0") intersection_1 = Intersection(name="intersection_1") param = { "name": 'hetero_feature_binning_0', "method": 'optimal', "optimal_binning_param": { "metric_method": "iv" }, "bin_indexes": -1 } hetero_feature_binning_0 = HeteroFeatureBinning(**param) statistic_0 = DataStatistics(name='statistic_0') param = { "name": 'hetero_feature_selection_0', "filter_methods": ["manually", "iv_filter", "statistic_filter"], "manually_param": { "filter_out_indexes": [1, 2], "filter_out_names": ["x2", "x3"] }, "iv_param": { "metrics": ["iv", "iv"], "filter_type": ["top_k", "threshold"], "take_high": [True, True], "threshold": [10, 0.01] }, "statistic_param": { "metrics": ["coefficient_of_variance", "skewness"], "filter_type": ["threshold", "threshold"], "take_high": [True, True], "threshold": [0.001, -0.01] }, "select_col_indexes": -1 } hetero_feature_selection_0 = HeteroFeatureSelection(**param) hetero_feature_selection_1 = HeteroFeatureSelection(name='hetero_feature_selection_1') param = { "name": "hetero_scale_0", "method": "standard_scale" } hetero_scale_0 = FeatureScale(**param) hetero_scale_1 = FeatureScale(name='hetero_scale_1') param = { "penalty": "L2", "validation_freqs": None, "early_stopping_rounds": None, "max_iter": 5 } hetero_lr_0 = HeteroLR(name='hetero_lr_0', **param) evaluation_0 = Evaluation(name='evaluation_0') # add components to pipeline, in order of task execution pipeline.add_component(reader_0) pipeline.add_component(reader_1) pipeline.add_component(reader_2) pipeline.add_component(reader_3) pipeline.add_component(union_0, data=Data(data=[reader_0.output.data, reader_1.output.data])) pipeline.add_component(union_1, data=Data(data=[reader_2.output.data, reader_3.output.data])) pipeline.add_component(dataio_0, data=Data(data=union_0.output.data)) pipeline.add_component(dataio_1, data=Data(data=union_1.output.data), model=Model(dataio_0.output.model)) # set data input sources of intersection components pipeline.add_component(intersection_0, data=Data(data=dataio_0.output.data)) pipeline.add_component(intersection_1, data=Data(data=dataio_1.output.data)) # set train & validate data of hetero_lr_0 component pipeline.add_component(hetero_feature_binning_0, data=Data(data=intersection_0.output.data)) pipeline.add_component(statistic_0, data=Data(data=intersection_0.output.data)) pipeline.add_component(hetero_feature_selection_0, data=Data(data=intersection_0.output.data), model=Model(isometric_model=[hetero_feature_binning_0.output.model, statistic_0.output.model])) pipeline.add_component(hetero_feature_selection_1, data=Data(data=intersection_1.output.data), model=Model(hetero_feature_selection_0.output.model)) pipeline.add_component(hetero_scale_0, data=Data(data=hetero_feature_selection_0.output.data)) pipeline.add_component(hetero_scale_1, data=Data(data=hetero_feature_selection_1.output.data), model=Model(hetero_scale_0.output.model)) # set train & validate data of hetero_lr_0 component pipeline.add_component(hetero_lr_0, data=Data(train_data=hetero_scale_0.output.data, validate_data=hetero_scale_1.output.data)) pipeline.add_component(evaluation_0, data=Data(data=[hetero_lr_0.output.data])) # compile pipeline once finished adding modules, this step will form conf and dsl files for running job pipeline.compile() # fit model pipeline.fit() # query component summary print(pipeline.get_component("hetero_lr_0").get_summary())
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] arbiter = parties.arbiter[0] guest_train_data = {"name": "breast_homo_guest", "namespace": f"experiment{namespace}"} host_train_data = {"name": "breast_homo_host", "namespace": f"experiment{namespace}"} pipeline = PipeLine().set_initiator(role='guest', party_id=guest).set_roles(guest=guest, host=host, arbiter=arbiter) reader_0 = Reader(name="reader_0") reader_0.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data) reader_0.get_party_instance(role='host', party_id=host).component_param(table=host_train_data) reader_1 = Reader(name="reader_1") reader_1.get_party_instance(role='guest', party_id=guest).component_param(table=guest_train_data) reader_1.get_party_instance(role='host', party_id=host).component_param(table=host_train_data) data_transform_0 = DataTransform(name="data_transform_0", with_label=True) data_transform_1 = DataTransform(name="data_transform_1") federated_sample_0 = FederatedSample(name="federated_sample_0", mode="stratified", method="downsample", fractions=[[0, 1.0], [1, 1.0]], task_type="h**o") homo_binning_0 = HomoFeatureBinning(name='homo_binning_0', sample_bins=10, method="recursive_query") homo_binning_1 = HomoFeatureBinning(name='homo_binning_1') homo_onehot_0 = HomoOneHotEncoder(name='homo_onehot_0', need_alignment=True) homo_onehot_1 = HomoOneHotEncoder(name='homo_onehot_1') homo_lr_0 = HomoLR(name="homo_lr_0", penalty="L2", tol=0.0001, alpha=1.0, optimizer="rmsprop", max_iter=5) homo_lr_1 = HomoLR(name="homo_lr_1") local_baseline_0 = LocalBaseline(name="local_baseline_0", model_name="LogisticRegression", model_opts={"penalty": "l2", "tol": 0.0001, "C": 1.0, "fit_intercept": True, "solver": "lbfgs", "max_iter": 5, "multi_class": "ovr"}) local_baseline_0.get_party_instance(role='guest', party_id=guest).component_param(need_run=True) local_baseline_0.get_party_instance(role='host', party_id=host).component_param(need_run=True) local_baseline_1 = LocalBaseline(name="local_baseline_1") homo_secureboost_0 = HomoSecureBoost(name="homo_secureboost_0", num_trees=3) homo_secureboost_1 = HomoSecureBoost(name="homo_secureboost_1", num_trees=3) evaluation_0 = Evaluation(name="evaluation_0") evaluation_1 = Evaluation(name="evaluation_1") pipeline.add_component(reader_0) pipeline.add_component(reader_1) pipeline.add_component(data_transform_0, data=Data(data=reader_0.output.data)) pipeline.add_component(data_transform_1, data=Data(data=reader_1.output.data), model=Model(model=data_transform_0.output.model)) pipeline.add_component(federated_sample_0, data=Data(data=data_transform_0.output.data)) pipeline.add_component(homo_binning_0, data=Data(data=federated_sample_0.output.data)) pipeline.add_component(homo_binning_1, data=Data(data=data_transform_1.output.data), model=Model(model=homo_binning_0.output.model)) pipeline.add_component(homo_onehot_0, data=Data(data=homo_binning_0.output.data)) pipeline.add_component(homo_onehot_1, data=Data(data=homo_binning_1.output.data), model=Model(model=homo_onehot_0.output.model)) pipeline.add_component(homo_lr_0, data=Data(data=homo_onehot_0.output.data)) pipeline.add_component(homo_lr_1, data=Data(data=homo_onehot_1.output.data), model=Model(model=homo_lr_0.output.model)) pipeline.add_component(local_baseline_0, data=Data(data=homo_onehot_0.output.data)) pipeline.add_component(local_baseline_1, data=Data(data=homo_onehot_1.output.data), model=Model(model=local_baseline_0.output.model)) pipeline.add_component(homo_secureboost_0, data=Data(data=homo_onehot_0.output.data)) pipeline.add_component(homo_secureboost_1, data=Data(data=homo_onehot_1.output.data), model=Model(model=homo_secureboost_0.output.model)) pipeline.add_component(evaluation_0, data=Data( data=[homo_lr_0.output.data, homo_lr_1.output.data, local_baseline_0.output.data, local_baseline_1.output.data])) pipeline.add_component(evaluation_1, data=Data( data=[homo_secureboost_0.output.data, homo_secureboost_1.output.data])) pipeline.compile() pipeline.fit() print(pipeline.get_component("evaluation_0").get_summary()) print(pipeline.get_component("evaluation_1").get_summary())
def main(config="../../config.yaml", namespace=""): # obtain config if isinstance(config, str): config = load_job_config(config) parties = config.parties guest = parties.guest[0] host = parties.host[0] backend = config.backend work_mode = config.work_mode guest_train_data = { "name": "breast_hetero_guest", "namespace": f"experiment{namespace}" } host_train_data = { "name": "breast_hetero_host", "namespace": f"experiment{namespace}" } pipeline = PipeLine().set_initiator(role='guest', party_id=guest).set_roles(guest=guest, host=host) reader_0 = Reader(name="reader_0") reader_0.get_party_instance( role='guest', party_id=guest).algorithm_param(table=guest_train_data) reader_0.get_party_instance( role='host', party_id=host).algorithm_param(table=host_train_data) reader_1 = Reader(name="reader_1") reader_1.get_party_instance( role='guest', party_id=guest).algorithm_param(table=guest_train_data) reader_1.get_party_instance( role='host', party_id=host).algorithm_param(table=host_train_data) dataio_0 = DataIO(name="dataio_0") dataio_0.get_party_instance( role='guest', party_id=guest).algorithm_param(with_label=True) dataio_0.get_party_instance( role='host', party_id=host).algorithm_param(with_label=False) dataio_1 = DataIO(name="dataio_1") dataio_1.get_party_instance( role='guest', party_id=guest).algorithm_param(with_label=True) dataio_1.get_party_instance( role='host', party_id=host).algorithm_param(with_label=False) intersection_0 = Intersection(name="intersection_0") intersection_1 = Intersection(name="intersection_1") hetero_nn_0 = HeteroNN(name="hetero_nn_0", epochs=100, validation_freqs=1, interactive_layer_lr=0.15, batch_size=-1, early_stop="diff", early_stopping_rounds=15, use_first_metric_only=True) hetero_nn_0.add_bottom_model( Dense(units=3, input_shape=(10, ), activation="relu", kernel_initializer=initializers.Constant(value=1))) hetero_nn_0.set_interactve_layer( Dense(units=2, input_shape=(2, ), kernel_initializer=initializers.Constant(value=1))) hetero_nn_0.add_top_model( Dense(units=1, input_shape=(2, ), activation="sigmoid", kernel_initializer=initializers.Constant(value=1))) hetero_nn_0.compile(optimizer=optimizers.SGD(lr=0.15), metrics=["AUC"], loss="binary_crossentropy") hetero_nn_1 = HeteroNN(name="hetero_nn_1") evaluation_0 = Evaluation(name="evaluation_0") pipeline.add_component(reader_0) pipeline.add_component(reader_1) pipeline.add_component(dataio_0, data=Data(data=reader_0.output.data)) pipeline.add_component(dataio_1, data=Data(data=reader_1.output.data)) pipeline.add_component(intersection_0, data=Data(data=dataio_0.output.data)) pipeline.add_component(intersection_1, data=Data(data=dataio_1.output.data)) pipeline.add_component(hetero_nn_0, data=Data(train_data=intersection_0.output.data, validate_data=intersection_1.output.data)) pipeline.add_component(hetero_nn_1, data=Data(test_data=intersection_1.output.data), model=Model(model=hetero_nn_0.output.model)) pipeline.add_component( evaluation_0, data=Data(data=[hetero_nn_0.output.data, hetero_nn_1.output.data])) pipeline.compile() pipeline.fit(backend=backend, work_mode=work_mode) print(pipeline.get_component("hetero_nn_0").get_summary()) print(pipeline.get_component("evaluation_0").get_summary())