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8 Repos

Awesome GitHub RepositoriesPreprocessing Pipelines

Automated workflows for transforming input data to match model-specific requirements.

Distinguishing note: None of the candidates were provided; this addresses the alignment of input data with pre-trained model configurations.

Explore 8 awesome GitHub repositories matching artificial intelligence & ml · Preprocessing Pipelines. Refine with filters or upvote what's useful.

Awesome Preprocessing Pipelines GitHub Repositories

Finde die besten Repos mit KI.Wir suchen mit KI nach den am besten passenden Repositories.
  • huggingface/pytorch-image-modelsAvatar von huggingface

    huggingface/pytorch-image-models

    36,893Auf GitHub ansehen↗

    This project is a comprehensive library of state-of-the-art neural network architectures designed for image classification and feature extraction. It provides a complete deep learning training framework that supports distributed execution, allowing users to build, train, and fine-tune vision models using optimized schedulers and pre-configured training recipes. The library distinguishes itself through a modular backbone architecture that treats neural networks as decoupled feature extractors, enabling the retrieval of multi-scale outputs for downstream tasks like object detection and segmenta

    Input transformation matching creates image preprocessing pipelines that align with the specific configuration requirements of a pre-trained model.

    Pythonaugmixconvnextdistributed-training
    Auf GitHub ansehen↗36,893
  • lllyasviel/controlnetAvatar von lllyasviel

    lllyasviel/ControlNet

    33,942Auf GitHub ansehen↗

    ControlNet is a framework for structural image generation that extends pre-trained diffusion models with neural network architectures designed for precise spatial control. By injecting structural guidance directly into the latent-space denoising process, the system enables users to enforce geometric or semantic constraints on generated outputs while maintaining style consistency. The framework distinguishes itself through a weight-locked copying mechanism that preserves the integrity of the original model while introducing new control signals. It supports multi-condition synthesis, allowing f

    Transforms raw images into structured control maps for spatial guidance.

    Python
    Auf GitHub ansehen↗33,942
  • lllyasviel/stable-diffusion-webui-forgeAvatar von lllyasviel

    lllyasviel/stable-diffusion-webui-forge

    12,730Auf GitHub ansehen↗

    Stable Diffusion WebUI Forge is a web-based interface and inference engine designed for the generation of AI media. It functions as a platform for executing diffusion-based models, providing a centralized environment to manage image preprocessors, custom generation logic, and hardware-accelerated sampling. The project distinguishes itself through a neural network patching framework that allows for the modification of model layers and the application of spatial conditioning during inference. By injecting custom logic and adapters directly into the network, users can influence output behaviors

    Manages consistent image preparation tasks to ensure data compatibility across generation and enhancement workflows.

    Python
    Auf GitHub ansehen↗12,730
  • qubvel-org/segmentation_models.pytorchAvatar von qubvel-org

    qubvel-org/segmentation_models.pytorch

    11,622Auf GitHub ansehen↗

    This is a PyTorch semantic segmentation library designed for building image masking frameworks. It provides a collection of over 500 pretrained convolutional and transformer-based encoders and various decoder architectures to perform binary and multiclass pixel-level classification. The library features a modular backbone integration that decouples encoder choice from decoder logic. It supports custom input channel configurations and encoder depth tuning, allowing the modification of input layers to accept non-standard channel counts while preserving pretrained weights. Some configurations al

    Provides preprocessing functions aligned with specific pretrained encoder weights to ensure consistent normalization.

    Pythoncomputer-visiondeeplab-v3-plusdeeplabv3
    Auf GitHub ansehen↗11,622
  • openvinotoolkit/openvinoAvatar von openvinotoolkit

    openvinotoolkit/openvino

    10,414Auf GitHub ansehen↗

    OpenVINO is an AI inference engine and model serving platform designed to execute optimized deep learning models across CPUs, GPUs, and NPUs through a unified API. It includes a model optimization toolkit for converting, quantizing, and compressing models from various frameworks, alongside a specialized generative AI runtime for large language models. The project distinguishes itself through a plugin-based hardware acceleration layer that maps neural network operations to vendor-specific drivers. It features advanced execution mechanisms such as continuous batching, speculative decoding, and

    Translates image preprocessing pipelines into model operators and embeds them directly into the model.

    C++aicomputer-visiondeep-learning
    Auf GitHub ansehen↗10,414
  • automl/auto-sklearnAvatar von automl

    automl/auto-sklearn

    8,111Auf GitHub ansehen↗

    This is a scikit-learn automated machine learning framework designed to optimize model selection and hyperparameters. It functions as an automated model selector and hyperparameter optimization tool for classification and regression tasks, utilizing an automated ensemble builder to combine high-performing models for increased predictive accuracy. The system features a distributed search engine that uses Dask for parallel machine learning optimization across CPU cores or clusters. It implements a budget-based evaluation strategy through successive halving to prioritize promising model configur

    Allows customization or disabling of the automatic preprocessing pipeline to control data transformations.

    Python
    Auf GitHub ansehen↗8,111
  • project-monai/monaiAvatar von Project-MONAI

    Project-MONAI/MONAI

    7,869Auf GitHub ansehen↗

    MONAI is a PyTorch-based deep learning framework and library specifically designed for healthcare imaging. It provides a suite of domain-specific neural network architectures, specialized loss functions, and preprocessing pipelines tailored for analyzing multi-dimensional medical data. The project distinguishes itself through a decentralized federated learning system that allows models to learn from datasets across multiple institutions without exchanging raw patient images. It also features AI-assisted medical image annotation tools and a standardized model bundling system to ensure consiste

    Provides flexible and customizable preprocessing pipelines to transform multi-dimensional healthcare data for deep learning models.

    Pythondeep-learninghealthcare-imagingmedical-image-computing
    Auf GitHub ansehen↗7,869
  • mrdbourke/zero-to-mastery-mlAvatar von mrdbourke

    mrdbourke/zero-to-mastery-ml

    5,839Auf GitHub ansehen↗

    Dieses Projekt ist ein Lehrplan für Machine Learning und eine Lernplattform, die über interaktive Jupyter Notebooks bereitgestellt wird. Es dient als umfassender Leitfaden zur Beherrschung des Python-Data-Science-Toolkits und bietet strukturierte Tutorials für numerisches Rechnen, Manipulation tabellarischer Daten und statistische Visualisierung. Der Lehrplan enthält spezifische Implementierungsleitfäden für Scikit-Learn und einen praktischen Kurs zu TensorFlow für den Aufbau, das Training und das Deployment neuronaler Netze und Computer-Vision-Modelle. Er deckt den End-to-End-Prozess des Aufbaus prädiktiver Modelle ab, von der anfänglichen Problemformulierung und Aufgabenkategorisierung bis hin zum Deployment der Modelle über interaktive Weboberflächen. Das Projekt deckt ein breites Funktionsspektrum ab, einschließlich numerischem Rechnen mit mehrdimensionalen Arrays, explorativer Datenanalyse und Datenvorverarbeitungsroutinen. Es bietet detaillierte Workflows für überwachtes und unüberwachtes Lernen, automatisierte Machine-Learning-Pipelines, Hyperparameter-Optimierung und Modellbewertung mittels Klassifizierungsmetriken und Kreuzvalidierung. Der Bildungsinhalt ist als eine Reihe von Notebooks strukturiert, die Python-Code mit narrativen Erklärungen verknüpfen, um Data-Science-Workflows zu dokumentieren.

    Chains imputation, encoding, and model fitting into automated workflows to streamline the ML process.

    Jupyter Notebookdata-sciencedeep-learningmachine-learning
    Auf GitHub ansehen↗5,839
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  3. Preprocessing Pipelines

Unter-Tags erkunden

  • Weight EmbeddingIntegrating preprocessing parameters like mean and normalization values directly into model weights during conversion. **Distinct from Preprocessing Pipelines:** Distinct from general preprocessing pipelines by embedding the logic into the model weights themselves.