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### Description This PR is to update the win-ort-main branch to the tip main branch as of 2025-01-16. ### Motivation and Context This update includes the OpenVino fix for debug builds. --------- Signed-off-by: Liqun Fu <liqfu@microsoft.com> Signed-off-by: Liqun Fu <liqun.fu@microsoft.com> Signed-off-by: Junze Wu <junze.wu@intel.com> Signed-off-by: dependabot[bot] <support@github.com> Signed-off-by: Jianhui Dai <jianhui.j.dai@intel.com> Co-authored-by: Yueqing Zhang <yuz75@Pitt.edu> Co-authored-by: amancini-N <63410090+amancini-N@users.noreply.github.com> Co-authored-by: Adrian Lizarraga <adlizarraga@microsoft.com> Co-authored-by: liqun Fu <liqfu@microsoft.com> Co-authored-by: Guenther Schmuelling <guschmue@microsoft.com> Co-authored-by: Yifan Li <109183385+yf711@users.noreply.github.com> Co-authored-by: yf711 <yifanl@microsoft.com> Co-authored-by: Wanming Lin <wanming.lin@intel.com> Co-authored-by: wejoncy <wejoncy@163.com> Co-authored-by: wejoncy <wejoncy@.com> Co-authored-by: Scott McKay <skottmckay@gmail.com> Co-authored-by: Changming Sun <chasun@microsoft.com> Co-authored-by: Jean-Michaël Celerier <jeanmichael.celerier+github@gmail.com> Co-authored-by: Dmitry Deshevoy <mityada@gmail.com> Co-authored-by: xhcao <xinghua.cao@intel.com> Co-authored-by: Yueqing Zhang <yueqingz@amd.com> Co-authored-by: Yulong Wang <7679871+fs-eire@users.noreply.github.com> Co-authored-by: Jiajia Qin <jiajiaqin@microsoft.com> Co-authored-by: Wu, Junze <junze.wu@intel.com> Co-authored-by: Jian Chen <cjian@microsoft.com> Co-authored-by: github-actions[bot] <41898282+github-actions[bot]@users.noreply.github.com> Co-authored-by: Matthieu Darbois <mayeut@users.noreply.github.com> Co-authored-by: Prathik Rao <prathik.rao@gmail.com> Co-authored-by: wonchung-microsoft <wonchung@microsoft.com> Co-authored-by: Vincent Wang <wangwchpku@outlook.com> Co-authored-by: PARK DongHa <luncliff@gmail.com> Co-authored-by: Hector Li <hecli@microsoft.com> Co-authored-by: Sam Webster <13457618+samwebster@users.noreply.github.com> Co-authored-by: Adrian Lizarraga <adrianlm2@gmail.com> Co-authored-by: Preetha Veeramalai <preetha.veeramalai@intel.com> Co-authored-by: jatinwadhwa921 <jatin.wadhwa@intel.com> Co-authored-by: Satya Kumar Jandhyala <satya.k.jandhyala@gmail.com> Co-authored-by: Corentin Maravat <101636442+cocotdf@users.noreply.github.com> Co-authored-by: Xiaoyu <85524621+xiaoyu-work@users.noreply.github.com> Co-authored-by: Tianlei Wu <tlwu@microsoft.com> Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> Co-authored-by: Jie Chen <jie.a.chen@intel.com> Co-authored-by: Jianhui Dai <jianhui.j.dai@intel.com> Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com> Co-authored-by: Edward Chen <18449977+edgchen1@users.noreply.github.com> Co-authored-by: Baiju Meswani <bmeswani@microsoft.com> Co-authored-by: kunal-vaishnavi <115581922+kunal-vaishnavi@users.noreply.github.com> Co-authored-by: Justin Chu <justinchuby@users.noreply.github.com> Co-authored-by: Copilot Autofix powered by AI <62310815+github-advanced-security[bot]@users.noreply.github.com> Co-authored-by: Ted Themistokleous <107195283+TedThemistokleous@users.noreply.github.com> Co-authored-by: Jeff Daily <jeff.daily@amd.com> Co-authored-by: Artur Wojcik <artur.wojcik@outlook.com> Co-authored-by: Ted Themistokleous <tedthemistokleous@amd.com> Co-authored-by: Xinya Zhang <Xinya.Zhang@amd.com> Co-authored-by: ikalinic <ilija.kalinic@amd.com> Co-authored-by: sstamenk <sstamenk@amd.com> Co-authored-by: Yi-Hong Lyu <yilyu@microsoft.com> Co-authored-by: Ti-Tai Wang <titaiwang@microsoft.com>
234 lines
6.8 KiB
Python
234 lines
6.8 KiB
Python
# Copyright (c) Microsoft Corporation. All rights reserved.
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# Licensed under the MIT License.
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# pylint: disable=C0411,C0412,C0413
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"""
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.. _l-logreg-example-speed:
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Train, convert and predict with ONNX Runtime
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============================================
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This example demonstrates an end to end scenario
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starting with the training of a machine learned model
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to its use in its converted from.
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Train a logistic regression
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+++++++++++++++++++++++++++
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The first step consists in retrieving the iris datset.
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"""
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from sklearn.datasets import load_iris
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from sklearn.linear_model import LogisticRegression
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from sklearn.model_selection import train_test_split
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iris = load_iris()
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X, y = iris.data, iris.target
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X_train, X_test, y_train, y_test = train_test_split(X, y)
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####################################
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# Then we fit a model.
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clr = LogisticRegression()
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clr.fit(X_train, y_train)
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####################################
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# We compute the prediction on the test set
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# and we show the confusion matrix.
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from sklearn.metrics import confusion_matrix # noqa: E402
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pred = clr.predict(X_test)
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print(confusion_matrix(y_test, pred))
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####################################
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# Conversion to ONNX format
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# +++++++++++++++++++++++++
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#
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# We use module
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# `sklearn-onnx <https://github.com/onnx/sklearn-onnx>`_
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# to convert the model into ONNX format.
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from skl2onnx import convert_sklearn # noqa: E402
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from skl2onnx.common.data_types import FloatTensorType # noqa: E402
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initial_type = [("float_input", FloatTensorType([None, 4]))]
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onx = convert_sklearn(clr, initial_types=initial_type)
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with open("logreg_iris.onnx", "wb") as f:
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f.write(onx.SerializeToString())
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##################################
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# We load the model with ONNX Runtime and look at
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# its input and output.
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import onnxruntime as rt # noqa: E402
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sess = rt.InferenceSession("logreg_iris.onnx", providers=rt.get_available_providers())
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print(f"input name='{sess.get_inputs()[0].name}' and shape={sess.get_inputs()[0].shape}")
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print(f"output name='{sess.get_outputs()[0].name}' and shape={sess.get_outputs()[0].shape}")
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##################################
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# We compute the predictions.
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input_name = sess.get_inputs()[0].name
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label_name = sess.get_outputs()[0].name
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import numpy # noqa: E402
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pred_onx = sess.run([label_name], {input_name: X_test.astype(numpy.float32)})[0]
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print(confusion_matrix(pred, pred_onx))
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###################################
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# The prediction are perfectly identical.
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#
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# Probabilities
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# +++++++++++++
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#
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# Probabilities are needed to compute other
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# relevant metrics such as the ROC Curve.
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# Let's see how to get them first with
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# scikit-learn.
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prob_sklearn = clr.predict_proba(X_test)
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print(prob_sklearn[:3])
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#############################
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# And then with ONNX Runtime.
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# The probabilies appear to be
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prob_name = sess.get_outputs()[1].name
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prob_rt = sess.run([prob_name], {input_name: X_test.astype(numpy.float32)})[0]
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import pprint # noqa: E402
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pprint.pprint(prob_rt[0:3])
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###############################
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# Let's benchmark.
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from timeit import Timer # noqa: E402
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def speed(inst, number=5, repeat=10):
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timer = Timer(inst, globals=globals())
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raw = numpy.array(timer.repeat(repeat, number=number))
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ave = raw.sum() / len(raw) / number
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mi, ma = raw.min() / number, raw.max() / number
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print(f"Average {ave:1.3g} min={mi:1.3g} max={ma:1.3g}")
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return ave
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print("Execution time for clr.predict")
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speed("clr.predict(X_test)")
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print("Execution time for ONNX Runtime")
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speed("sess.run([label_name], {input_name: X_test.astype(numpy.float32)})[0]")
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###############################
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# Let's benchmark a scenario similar to what a webservice
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# experiences: the model has to do one prediction at a time
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# as opposed to a batch of prediction.
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def loop(X_test, fct, n=None):
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nrow = X_test.shape[0]
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if n is None:
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n = nrow
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for i in range(n):
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im = i % nrow
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fct(X_test[im : im + 1])
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print("Execution time for clr.predict")
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speed("loop(X_test, clr.predict, 50)")
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def sess_predict(x):
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return sess.run([label_name], {input_name: x.astype(numpy.float32)})[0]
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print("Execution time for sess_predict")
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speed("loop(X_test, sess_predict, 50)")
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#####################################
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# Let's do the same for the probabilities.
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print("Execution time for predict_proba")
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speed("loop(X_test, clr.predict_proba, 50)")
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def sess_predict_proba(x):
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return sess.run([prob_name], {input_name: x.astype(numpy.float32)})[0]
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print("Execution time for sess_predict_proba")
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speed("loop(X_test, sess_predict_proba, 50)")
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#####################################
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# This second comparison is better as
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# ONNX Runtime, in this experience,
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# computes the label and the probabilities
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# in every case.
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##########################################
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# Benchmark with RandomForest
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# +++++++++++++++++++++++++++
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#
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# We first train and save a model in ONNX format.
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from sklearn.ensemble import RandomForestClassifier # noqa: E402
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rf = RandomForestClassifier(n_estimators=10)
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rf.fit(X_train, y_train)
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initial_type = [("float_input", FloatTensorType([1, 4]))]
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onx = convert_sklearn(rf, initial_types=initial_type)
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with open("rf_iris.onnx", "wb") as f:
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f.write(onx.SerializeToString())
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###################################
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# We compare.
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sess = rt.InferenceSession("rf_iris.onnx", providers=rt.get_available_providers())
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def sess_predict_proba_rf(x):
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return sess.run([prob_name], {input_name: x.astype(numpy.float32)})[0]
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print("Execution time for predict_proba")
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speed("loop(X_test, rf.predict_proba, 50)")
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print("Execution time for sess_predict_proba")
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speed("loop(X_test, sess_predict_proba_rf, 50)")
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##################################
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# Let's see with different number of trees.
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measures = []
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for n_trees in range(5, 51, 5):
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print(n_trees)
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rf = RandomForestClassifier(n_estimators=n_trees)
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rf.fit(X_train, y_train)
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initial_type = [("float_input", FloatTensorType([1, 4]))]
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onx = convert_sklearn(rf, initial_types=initial_type)
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with open(f"rf_iris_{n_trees}.onnx", "wb") as f:
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f.write(onx.SerializeToString())
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sess = rt.InferenceSession(f"rf_iris_{n_trees}.onnx", providers=rt.get_available_providers())
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def sess_predict_proba_loop(x):
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return sess.run([prob_name], {input_name: x.astype(numpy.float32)})[0] # noqa: B023
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tsk = speed("loop(X_test, rf.predict_proba, 25)", number=5, repeat=4)
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trt = speed("loop(X_test, sess_predict_proba_loop, 25)", number=5, repeat=4)
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measures.append({"n_trees": n_trees, "sklearn": tsk, "rt": trt})
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from pandas import DataFrame # noqa: E402
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df = DataFrame(measures)
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ax = df.plot(x="n_trees", y="sklearn", label="scikit-learn", c="blue", logy=True)
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df.plot(x="n_trees", y="rt", label="onnxruntime", ax=ax, c="green", logy=True)
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ax.set_xlabel("Number of trees")
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ax.set_ylabel("Prediction time (s)")
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ax.set_title("Speed comparison between scikit-learn and ONNX Runtime\nFor a random forest on Iris dataset")
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ax.legend()
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