PIT-CP conformal prediction with pivotal scores
Project description
🎯 PIT-CP
pitcp is a Python package for conformal prediction using probability integral transform (PIT) pivotal scores. Given any black-box nonconformity score, it fits a conditional density estimator on the score distribution and maps raw scores to PIT values, yielding valid marginal coverage at any user-specified level.
✨ Features
- PIT Conformal Prediction: Maps base nonconformity scores through a learned conditional CDF, producing asymptotically exact conditional coverage.
- Model-agnostic: Works with any callable nonconformity score
s(x, y), including distance, residual, or likelihood-based scores. - Flexible Density Estimation: Supports normalizing flows and mixture density networks from the zuko library.
- Marginal Coverage Guarantee: Provably valid conformal coverage at any target level via finite-sample calibration.
- scikit-learn: Native
BaseEstimatorintegration with a familiarfit/conformalize/predictAPI.
🚀 Installation
pip install pitcp
🔧 Usage
Example
import torch
import zuko
from pitcp import PITCP
def std(x):
return torch.where((x > -0.9) & (x < 0.9), torch.cos(torch.pi * x / 2), 1.0)
def gen_data(n):
x = torch.rand(n, 1) * 2 - 1
return x, torch.randn(n, 1) * std(x)
torch.manual_seed(42)
(X_train, y_train), (X_cal, y_cal), (X_test, y_test) = [
gen_data(5000) for _ in range(3)
]
# Define a nonconformity score
def score(x, y):
return y.abs()
# Build a normalizing flow density estimator
model = zuko.flows.NSF(features=1, context=1, bins=4, hidden_features=(32, 32, 32))
optimizer = torch.optim.Adam(model.parameters(), lr=1e-2)
# Fit and conformalize
pitcp = PITCP(score, model, optimizer, n_epochs=10, batch_size=128)
pitcp.fit(X_train, y_train)
pitcp.conformalize(X_cal, y_cal)
# Predict coverage at multiple quantiles (single float also accepted)
covered = pitcp.predict(X_test, y_test, quantile=[0.7, 0.8, 0.9])
print(f"Empirical coverages: {[covered[:, k].float().mean().item() for k in range(3)]}")
📖 Learn More
For tutorials, API reference, visit the official site:
👉 pitcp's documentation
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