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Notebook ini menunjukkan cara membuat kartu model menggunakan Model Card Toolkit dengan model scikit-learn di lingkungan Jupyter/Colab. Anda dapat mempelajari lebih lanjut tentang kartu model pada https://modelcards.withgoogle.com/about .
Mempersiapkan
Pertama-tama kita perlu menginstal dan mengimpor paket yang diperlukan.
Tingkatkan ke Pip 20.2 dan Instal Paket
pip install -q --upgrade pip==20.2pip install -q -U seaborn scikit-learn model-card-toolkit
Apakah Anda me-restart runtime?
Jika Anda menggunakan Google Colab, pertama kali menjalankan sel di atas, Anda harus memulai ulang runtime (Runtime > Restart runtime ...).
paket impor
Kami mengimpor paket yang diperlukan, termasuk scikit-learn.
from datetime import date
from io import BytesIO
from IPython import display
from model_card_toolkit import ModelCardToolkit
from sklearn.datasets import load_breast_cancer
from sklearn.ensemble import GradientBoostingClassifier
from sklearn.model_selection import train_test_split
from sklearn.metrics import plot_roc_curve, plot_confusion_matrix
import base64
import matplotlib.pyplot as plt
import pandas as pd
import seaborn as sns
import uuid
Muat data
Contoh ini menggunakan Payudara dataset Kanker Wisconsin Diagnostik yang scikit-belajar dapat memuat menggunakan load_breast_cancer () fungsi.
cancer = load_breast_cancer()
X = pd.DataFrame(cancer.data, columns=cancer.feature_names)
y = pd.Series(cancer.target)
X_train, X_test, y_train, y_test = train_test_split(X, y)
X_train.head()
y_train.head()
28 0 157 1 381 1 436 1 71 1 dtype: int64
Data plot
Kami akan membuat beberapa plot dari data yang akan kami sertakan dalam kartu model.
# Utility function that will export a plot to a base-64 encoded string that the model card will accept.
def plot_to_str():
img = BytesIO()
plt.savefig(img, format='png')
return base64.encodebytes(img.getvalue()).decode('utf-8')
# Plot the mean radius feature for both the train and test sets
sns.displot(x=X_train['mean radius'], hue=y_train)
mean_radius_train = plot_to_str()
sns.displot(x=X_test['mean radius'], hue=y_test)
mean_radius_test = plot_to_str()
# Plot the mean texture feature for both the train and test sets
sns.displot(x=X_train['mean texture'], hue=y_train)
mean_texture_train = plot_to_str()
sns.displot(x=X_test['mean texture'], hue=y_test)
mean_texture_test = plot_to_str()
Model kereta api
# Create a classifier and fit the training data
clf = GradientBoostingClassifier().fit(X_train, y_train)
Evaluasi model
# Plot a ROC curve
plot_roc_curve(clf, X_test, y_test)
roc_curve = plot_to_str()
# Plot a confusion matrix
plot_confusion_matrix(clf, X_test, y_test)
confusion_matrix = plot_to_str()
Buat kartu model
Inisialisasi toolkit dan kartu model
mct = ModelCardToolkit()
model_card = mct.scaffold_assets()
Anotasi informasi ke dalam kartu model
model_card.model_details.name = 'Breast Cancer Wisconsin (Diagnostic) Dataset'
model_card.model_details.overview = (
'This model predicts whether breast cancer is benign or malignant based on '
'image measurements.')
model_card.model_details.owners = [
{'name': 'Model Cards Team', 'contact': 'model-cards@google.com'}
]
model_card.model_details.references = [
'https://archive.ics.uci.edu/ml/datasets/Breast+Cancer+Wisconsin+(Diagnostic)',
'https://minds.wisconsin.edu/bitstream/handle/1793/59692/TR1131.pdf'
]
model_card.model_details.version.name = str(uuid.uuid4())
model_card.model_details.version.date = str(date.today())
model_card.considerations.ethical_considerations = [{
'name': ('Manual selection of image sections to digitize could create '
'selection bias'),
'mitigation_strategy': 'Automate the selection process'
}]
model_card.considerations.limitations = ['Breast cancer diagnosis']
model_card.considerations.use_cases = ['Breast cancer diagnosis']
model_card.considerations.users = ['Medical professionals', 'ML researchers']
model_card.model_parameters.data.train.graphics.description = (
f'{len(X_train)} rows with {len(X_train.columns)} features')
model_card.model_parameters.data.train.graphics.collection = [
{'image': mean_radius_train},
{'image': mean_texture_train}
]
model_card.model_parameters.data.eval.graphics.description = (
f'{len(X_test)} rows with {len(X_test.columns)} features')
model_card.model_parameters.data.eval.graphics.collection = [
{'image': mean_radius_test},
{'image': mean_texture_test}
]
model_card.quantitative_analysis.graphics.description = (
'ROC curve and confusion matrix')
model_card.quantitative_analysis.graphics.collection = [
{'image': roc_curve},
{'image': confusion_matrix}
]
mct.update_model_card_json(model_card)
Buat kartu model
# Return the model card document as an HTML page
html = mct.export_format()
display.display(display.HTML(html))