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From sap-hana-ml
SAP HANA Machine Learning Python Client (hana-ml) development skill. Use when: Building ML solutions with SAP HANA's in-database machine learning using Python hana-ml library for PAL/APL algorithms, DataFrame operations, AutoML, model persistence, and visualization. Keywords: hana-ml, SAP HANA, machine learning, PAL, APL, predictive analytics, HANA DataFrame, ConnectionContext, classification, regression, clustering, time series, ARIMA, gradient boosting, AutoML, SHAP, model storage
How this skill is triggered — by the user, by Claude, or both
Slash command
/sap-hana-ml:sap-hana-mlThe summary Claude sees in its skill listing — used to decide when to auto-load this skill
**Package Version**: 2.22.241011
Package Version: 2.22.241011
Last Verified: 2025-11-27
pip install hana-ml
Requirements: Python 3.8+, SAP HANA 2.0 SPS03+ or SAP HANA Cloud
from hana_ml import ConnectionContext
# Connect
conn = ConnectionContext(
address='<hostname>',
port=443,
user='<username>',
password='<password>',
encrypt=True
)
# Create DataFrame
df = conn.table('MY_TABLE', schema='MY_SCHEMA')
print(f"Shape: {df.shape}")
df.head(10).collect()
from hana_ml.algorithms.pal.unified_classification import UnifiedClassification
# Train model
clf = UnifiedClassification(func='RandomDecisionTree')
clf.fit(train_df, features=['F1', 'F2', 'F3'], label='TARGET')
# Predict & evaluate
predictions = clf.predict(test_df, features=['F1', 'F2', 'F3'])
score = clf.score(test_df, features=['F1', 'F2', 'F3'], label='TARGET')
from hana_ml.algorithms.apl.classification import AutoClassifier
# Automated classification
auto_clf = AutoClassifier()
auto_clf.fit(train_df, label='TARGET')
predictions = auto_clf.predict(test_df)
from hana_ml.model_storage import ModelStorage
ms = ModelStorage(conn)
clf.name = 'MY_CLASSIFIER'
ms.save_model(model=clf, if_exists='replace')
UnifiedClassification, UnifiedRegression, KMeans, ARIMAreferences/PAL_ALGORITHMS.md for complete listAutoClassifier, AutoRegressor, GradientBoostingClassifierreferences/APL_ALGORITHMS.md for detailscollect() calledreferences/DATAFRAME_REFERENCE.md for complete APIreferences/VISUALIZERS.md for 14 visualization modulesfrom hana_ml.algorithms.pal.partition import train_test_val_split
train, test, val = train_test_val_split(
data=df,
training_percentage=0.7,
testing_percentage=0.2,
validation_percentage=0.1
)
# APL models
importance = auto_clf.get_feature_importances()
# PAL models
from hana_ml.algorithms.pal.preprocessing import FeatureSelection
fs = FeatureSelection()
fs.fit(train_df, features=features, label='TARGET')
from hana_ml.algorithms.pal.pipeline import Pipeline
from hana_ml.algorithms.pal.preprocessing import Imputer, FeatureNormalizer
pipeline = Pipeline([
('imputer', Imputer(strategy='mean')),
('normalizer', FeatureNormalizer()),
('classifier', UnifiedClassification(func='RandomDecisionTree'))
])
collect()ModelStorage for persistencePipelineProgressStatusMonitor for long-running jobsreferences/DATAFRAME_REFERENCE.md (479 lines)
references/PAL_ALGORITHMS.md (869 lines)
references/APL_ALGORITHMS.md (534 lines)
references/VISUALIZERS.md (704 lines)
references/SUPPORTING_MODULES.md (626 lines)
from hana_ml.ml_exceptions import Error
try:
clf.fit(train_df, features=features, label='TARGET')
except Error as e:
print(f"HANA ML Error: {e}")
Provides behavioral guidelines to reduce common LLM coding mistakes, focusing on simplicity, surgical changes, assumption surfacing, and verifiable success criteria.
Searches, retrieves, and installs Agent Skills from prompts.chat registry using MCP tools like search_skills and get_skill. Activates for finding skills, browsing catalogs, or extending Claude.
Creates, edits, and optimizes skills for Claude Code, including drafting, evaluating with test prompts, iterating on performance, and improving skill descriptions for better triggering accuracy.
npx claudepluginhub andreafusar/https-github.com-secondsky-sap-skills --plugin sap-hana-ml