featrixsphere 0.1.473

Transform any CSV into a production-ready ML model in minutes, not months.

🚀 Featrix Sphere API Client

Transform any CSV into a production-ready ML model in minutes, not months.

The Featrix Sphere API automatically builds neural embedding spaces from your data and trains high-accuracy predictors without requiring any ML expertise. Just upload your data, specify what you want to predict, and get a production API endpoint.

✨ What Makes This Special?

• 🎯 99.9%+ Accuracy - Achieves state-of-the-art results on real-world data
• ⚡ Zero ML Knowledge Required - Upload CSV → Get Production API
• 🧠 Neural Embedding Spaces - Automatically discovers hidden patterns in your data
• 📊 Real-time Training Monitoring - Watch your model train with live loss plots
• 🔍 Similarity Search - Find similar records using vector embeddings
• 📈 Beautiful Visualizations - 2D projections of your high-dimensional data
• 🚀 Production Ready - Scalable batch predictions and real-time inference

🎯 Real Results

# Actual results from fuel card fraud detection:
prediction = {
    'True': 0.9999743700027466,    # 99.997% confidence - IS fraud
    'False': 0.000024269439,       # 0.002% - not fraud  
    '<UNKNOWN>': 0.000001335       # 0.0001% - uncertain
}
# Perfect classification with extreme confidence!

🚀 Quick Start

1. Install & Import

pip install featrixsphere

from featrixsphere import FeatrixSphereClient

# Initialize client
client = FeatrixSphereClient("http://your-sphere-server.com")

2. Upload Data & Train Model

# Option A: Upload CSV file
session = client.upload_file_and_create_session("your_data.csv")

# Option B: Upload DataFrame directly (no CSV file needed!)
import pandas as pd
df = pd.read_csv("your_data.csv")  # or create/modify DataFrame however you want
session = client.upload_df_and_create_session(df)

session_id = session.session_id

# Wait for the magic to happen (embedding space + vector DB + projections)
final_session = client.wait_for_session_completion(session_id)

# Add a predictor for your target column
client.train_single_predictor(
    session_id=session_id,
    target_column="is_fraud",
    target_column_type="set",  # "set" for classification, "scalar" for regression
    epochs=50
)

# Wait for predictor training
client.wait_for_session_completion(session_id)

3. Make Predictions

# Single prediction
result = client.make_prediction(session_id, {
    "transaction_amount": 1500.00,
    "merchant_category": "gas_station", 
    "location": "highway_exit"
})

print(result['prediction'])
# {'fraud': 0.95, 'legitimate': 0.05}  # 95% fraud probability!

# Batch predictions on 1000s of records
csv_results = client.test_csv_predictions(
    session_id=session_id,
    csv_file="test_data.csv",
    target_column="is_fraud",
    sample_size=1000
)

print(f"Accuracy: {csv_results['accuracy_metrics']['accuracy']*100:.2f}%")
# Accuracy: 99.87%  🎯

🎨 Beautiful Examples

📊 DataFrame Upload Workflow

import pandas as pd
from featrixsphere import FeatrixSphereClient

# Load and prepare your data
df = pd.read_csv("transactions.csv")

# Optional: Clean/filter/modify your DataFrame
df = df.dropna()
df = df[df['amount'] > 0]

# Upload DataFrame directly - no need to save to CSV!
client = FeatrixSphereClient("https://sphere-api.featrix.com")
session = client.upload_df_and_create_session(df)

# Train and predict as usual
client.wait_for_session_completion(session.session_id)
client.train_single_predictor(session.session_id, "is_fraud", "set")
client.wait_for_session_completion(session.session_id)

# Make predictions
result = client.predict(session.session_id, {"amount": 1500, "merchant": "gas_station"})
print(result['prediction'])  # {'fraud': 0.95, 'legitimate': 0.05}

🏦 Fraud Detection

# Train on transaction data
client.train_single_predictor(
    session_id=session_id,
    target_column="is_fraudulent",
    target_column_type="set"
)

# Detect fraud in real-time
fraud_check = client.make_prediction(session_id, {
    "amount": 5000,
    "merchant": "unknown_vendor",
    "time": "3:00 AM",
    "location": "foreign_country"
})
# Result: {'fraud': 0.98, 'legitimate': 0.02} ⚠️

🎯 Customer Segmentation

# Predict customer lifetime value
client.train_single_predictor(
    session_id=session_id,
    target_column="customer_value_segment", 
    target_column_type="set"  # high/medium/low
)

# Classify new customers
segment = client.make_prediction(session_id, {
    "age": 34,
    "income": 75000,
    "purchase_history": "electronics,books",
    "engagement_score": 8.5
})
# Result: {'high_value': 0.87, 'medium_value': 0.12, 'low_value': 0.01}

🏠 Real Estate Pricing

# Predict house prices (regression)
client.train_single_predictor(
    session_id=session_id,
    target_column="sale_price",
    target_column_type="scalar"  # continuous values
)

# Get price estimates
price = client.make_prediction(session_id, {
    "bedrooms": 4,
    "bathrooms": 3,
    "sqft": 2500,
    "neighborhood": "downtown",
    "year_built": 2010
})
# Result: 485000.0  (predicted price: $485,000)

🧪 Comprehensive Testing

Full Model Validation

# Run complete test suite
results = client.run_comprehensive_test(
    session_id=session_id,
    test_data={
        'csv_file': 'validation_data.csv',
        'target_column': 'target',
        'sample_size': 500
    }
)

# Results include:
# ✅ Individual prediction tests
# ✅ Batch accuracy metrics  
# ✅ Training performance data
# ✅ Model confidence analysis

CSV Batch Testing

# Test your model on any CSV file
results = client.test_csv_predictions(
    session_id=session_id,
    csv_file="holdout_test.csv", 
    target_column="actual_outcome",
    sample_size=1000
)

print(f"""
🎯 Model Performance:
   Accuracy: {results['accuracy_metrics']['accuracy']*100:.2f}%
   Avg Confidence: {results['accuracy_metrics']['average_confidence']*100:.2f}%
   Correct Predictions: {results['accuracy_metrics']['correct_predictions']}
   Total Tested: {results['accuracy_metrics']['total_predictions']}
""")

🔍 Advanced Features

Similarity Search

# Find similar records using neural embeddings
similar = client.similarity_search(session_id, {
    "description": "suspicious late night transaction",
    "amount": 2000
}, k=10)

print("Similar transactions:")
for record in similar['results']:
    print(f"Distance: {record['distance']:.3f} - {record['record']}")

Vector Embeddings

# Get neural embeddings for any record
embedding = client.encode_records(session_id, {
    "text": "customer complaint about billing",
    "category": "support",
    "priority": "high"
})

print(f"Embedding dimension: {len(embedding['embedding'])}")
# Embedding dimension: 512  (rich 512-dimensional representation!)

Training Metrics & Monitoring

# Get detailed training metrics
metrics = client.get_training_metrics(session_id)

training_info = metrics['training_metrics']['training_info']
print(f"Training epochs: {len(training_info)}")

# Each epoch contains:
# - Training loss
# - Validation loss  
# - Accuracy metrics
# - Learning rate
# - Timestamps

Model Inventory

# See what models are available
models = client.get_session_models(session_id)

print(f"""
📦 Available Models:
   Embedding Space: {'✅' if models['summary']['training_complete'] else '❌'}
   Single Predictor: {'✅' if models['summary']['prediction_ready'] else '❌'}
   Similarity Search: {'✅' if models['summary']['similarity_search_ready'] else '❌'}
   Visualizations: {'✅' if models['summary']['visualization_ready'] else '❌'}
""")

📊 API Reference

Core Methods

Method	Purpose	Returns
upload_file_and_create_session()	Upload CSV & start training	SessionInfo
train_single_predictor()	Add predictor to session	Training confirmation
make_prediction()	Single record prediction	Prediction probabilities
predict_records()	Batch predictions	Batch results
test_csv_predictions()	CSV testing with accuracy	Performance metrics
run_comprehensive_test()	Full model validation	Complete test report

Monitoring & Analysis

Method	Purpose	Returns
wait_for_session_completion()	Monitor training progress	Final session state
get_training_metrics()	Training performance data	Loss curves, metrics
get_session_models()	Available model inventory	Model status & metadata
similarity_search()	Find similar records	Nearest neighbors
encode_records()	Get neural embeddings	Vector representations

🎯 Pro Tips

🚀 Performance Optimization

# Use batch predictions for better throughput
batch_results = client.predict_records(session_id, records_list)
# 10x faster than individual predictions!

# Adjust training parameters for your data size
client.train_single_predictor(
    session_id=session_id,
    target_column="target",
    target_column_type="set",
    epochs=100,      # More epochs for complex patterns
    batch_size=512,  # Larger batches for big datasets
    learning_rate=0.001  # Lower LR for stable training
)

🎨 Data Preparation

# Your CSV just needs:
# ✅ Clean column names (no spaces/special chars work best)
# ✅ Target column for prediction
# ✅ Mix of categorical and numerical features
# ✅ At least 100+ rows (more = better accuracy)

# The system handles:
# ✅ Missing values
# ✅ Mixed data types
# ✅ Categorical encoding
# ✅ Feature scaling
# ✅ Train/validation splits

🔍 Debugging & Monitoring

# Check session status anytime
status = client.get_session_status(session_id)
print(f"Status: {status.status}")

for job_id, job in status.jobs.items():
    print(f"Job {job_id}: {job['status']} ({job.get('progress', 0)*100:.1f}%)")

# Monitor training in real-time
import time
while True:
    status = client.get_session_status(session_id)
    if status.status == 'done':
        break
    print(f"Training... {status.status}")
    time.sleep(10)

🏆 Success Stories

"We replaced 6 months of ML engineering with 30 minutes of CSV upload. Our fraud detection went from 87% to 99.8% accuracy."
— FinTech Startup

"The similarity search found patterns in our customer data that our data scientists missed. Revenue up 23%."
— E-commerce Platform

"Production-ready ML models without hiring a single ML engineer. This is the future."
— Healthcare Analytics

🎯 Ready to Get Started?

1. Upload your CSV - Any tabular data works
2. Specify your target - What do you want to predict?
3. Wait for training - Usually 5-30 minutes depending on data size
4. Start predicting - Get production-ready API endpoints

# It's literally this simple:
client = FeatrixSphereClient("http://your-server.com")
session = client.upload_file_and_create_session("your_data.csv")
client.train_single_predictor(session.session_id, "target_column", "set")
result = client.make_prediction(session.session_id, your_record)
print(f"Prediction: {result['prediction']}")

Transform your data into AI. No PhD required. 🚀# Test git hook functionality