15 dépôts
Tools for tracking, auditing, and managing iterations of machine learning models and their associated artifacts.
Distinguishing note: Focuses on model-specific versioning and reproducibility rather than general source code version control.
Explore 15 awesome GitHub repositories matching artificial intelligence & ml · Model Versioning Systems. Refine with filters or upvote what's useful.
This project is a comprehensive, curated knowledge base designed to support the development and maintenance of production-grade machine learning systems. It serves as a centralized repository of industry-standard technical literature, engineering case studies, and research papers, providing a structured reference for practitioners navigating the complexities of modern data science and machine learning engineering. The resource distinguishes itself through a cross-domain approach that bridges the gap between academic research and practical implementation. By synthesizing proven industry archit
Track and organize different iterations of machine learning models to ensure reproducibility, auditability, and easy rollback during the deployment process.
DVC is a data versioning tool and pipeline orchestrator designed to track large datasets and machine learning models. It functions as a system for managing large data artifacts by storing lightweight metadata in version control while keeping the actual binaries in a separate cache. The project serves as an experiment tracker and remote storage synchronizer, enabling the execution and comparison of machine learning iterations based on hyperparameters and performance metrics. It provides a bridge for pushing and pulling these large data artifacts between local environments and cloud or on-premi
Tracks and manages iterations of machine learning models and their associated data artifacts for reproducibility.
PaddleDetection is an object detection framework designed for the end-to-end development, training, and deployment of computer vision models. It provides a comprehensive library of modular neural network architectures and pipelines that support object detection, instance segmentation, and multi-object tracking tasks. The project distinguishes itself through a configuration-driven approach that decouples model components like backbones and heads, allowing for the flexible assembly of custom vision workflows. It incorporates advanced techniques such as anchor-free detection logic, joint detecti
Tracks model versions and configuration metadata to ensure traceability of deployed models.
This project serves as a comprehensive reference tool for prompt engineering within generative image models. It provides a structured guide for exploring artistic styles, technical parameters, and keyword combinations to assist in achieving specific aesthetic outcomes and consistent visual themes. The resource distinguishes itself by enabling direct comparisons between different model versions, allowing users to observe how specific keywords and settings influence output quality over time. By organizing visual examples and technical data into a hierarchical taxonomy, it facilitates the iterat
Enables side-by-side comparison of model versions to observe how keywords and settings influence output quality.
Kedro is a data science pipeline framework and production toolbox designed to build reproducible, modular workflows using software engineering best practices. It functions as a data engineering orchestrator and catalog manager, bridging the gap between interactive analysis and maintainable production pipelines. The framework distinguishes itself by using a data catalog to decouple data access from processing logic and providing tools to transition analysis from interactive notebooks into structured workflows. It includes a workflow visualization tool that generates visual maps of data pipelin
Tracks versions of datasets and models within a catalog to ensure the reproduction of specific results.
Wandb is a centralized platform for machine learning experiment tracking, model registry management, and workflow orchestration. It provides a comprehensive suite of tools for logging, visualizing, and versioning training metrics, model artifacts, and hyperparameter sweeps to ensure reproducibility across development cycles. The platform also functions as an observability tool for large language model applications, enabling the tracing of execution steps, token usage, and reasoning processes. The project distinguishes itself through its event-driven automation capabilities, which allow users
Manages versioned datasets and model weights as immutable snapshots to maintain lineage and reproducibility.
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
Implements systems to control and switch between specific model versions to optimize resource consumption and performance.
PyCaret is a Python AutoML platform and MLOps lifecycle manager designed to automate machine learning workflows. It functions as a low-code environment that leverages a scikit-learn native engine to execute preprocessing, training, and evaluation for tabular data. The platform distinguishes itself as an LLM-powered ML copilot, using large language model agents to analyze datasets, design experiment configurations, and explain model results. It also serves as a Kubernetes ML orchestrator and model registry, enabling the versioning of trained pipelines and their promotion to production API endp
Tracks iterations of machine learning models and their associated artifacts in a central registry.
The Kaggle API command line interface is a suite of utilities for managing datasets, machine learning models, and competition entries from a terminal. It functions as a command line wrapper that translates user input into API calls to control remote cloud resources. The project differentiates itself by providing specialized tools for automating the execution of notebook kernels and managing the lifecycle of machine learning models, including version iteration and performance tracking. It also includes a utility for executing evaluation tasks against large language models and downloading the r
Tracks and organizes different iterations of machine learning models to manage performance and deployment versions.
PostgresML is a machine learning database extension for PostgreSQL that integrates model training and inference directly into the database. It functions as an in-database AI platform and vector database, enabling the execution of large language models and natural language processing tasks on stored records without exporting data to external services. The system distinguishes itself by utilizing GPU acceleration to minimize latency during model predictions and employing a hybrid storage engine that maintains relational data alongside high-dimensional vectors. It allows for the building and fin
Offers tools for tracking external pre-trained model versions and monitoring performance changes across iterations.
TensorFlow Serving is a high-performance machine learning inference server designed to deploy TensorFlow models to production environments. It functions as a complete serving system that executes predictions on input data through a graph executor, providing network endpoints that eliminate the need for a separate runtime environment for client applications. The system is distinguished by its model version manager, which organizes and selects specific model versions within a directory hierarchy. It uses a filesystem watcher to detect new model versions and trigger automatic updates without int
Organizes and switches between different versions of a machine learning model without interrupting live traffic.
ZenML is an extensible machine learning orchestration framework designed to manage the end-to-end lifecycle of data pipelines and AI agent workflows. It functions as a durable orchestrator that executes machine learning tasks as directed acyclic graphs, ensuring that every step is containerized for consistent performance across local, cloud, and hybrid infrastructure. By decoupling pipeline code from underlying compute and storage backends, the platform allows developers to define infrastructure-agnostic stacks that remain portable across diverse environments. The project distinguishes itself
Groups model weights and metadata into versioned entities for centralized tracking.
ZenML is an orchestration platform designed for building, deploying, and monitoring reproducible machine learning pipelines and agentic workflows. It provides a unified framework that manages the entire lifecycle of machine learning assets, from data processing and model training to the deployment of persistent inference services. By decoupling pipeline logic from underlying compute and storage, the platform enables teams to transition workflows seamlessly from local development environments to production-grade cloud infrastructure. The platform distinguishes itself through a service-oriented
Tracks and evaluates finetuned embedding models within a centralized control plane to maintain a systematic overview of performance across different iterations.
Ce projet est un framework de service de modèles PyTorch conçu pour déployer et mettre à l'échelle des modèles de machine learning en production via des endpoints réseau évolutifs. Il fonctionne comme un serveur d'inférence haute performance, un optimiseur et un gestionnaire de cycle de vie de modèle qui gère le chargement des modèles, le batching des requêtes et l'accélération matérielle. Le système se distingue par des capacités avancées d'orchestration et d'optimisation, telles que le chaînage de plusieurs modèles dans des workflows séquentiels utilisant des graphes d'exécution et l'utilisation du batching dynamique pour améliorer le débit et la latence. Il offre un support spécialisé pour l'IA générative et les grands modèles de langage (LLM) grâce au batching continu et au parallélisme de tenseurs. Les domaines de capacités étendus incluent la gestion des ressources GPU sur divers matériels comme NVIDIA, AMD et Apple Silicon, ainsi qu'une gestion complète du cycle de vie des modèles pour l'enregistrement, le versioning et la mise à l'échelle des workers. Il intègre également des outils d'observabilité pour suivre la santé du système et les performances des modèles via des métriques compatibles Prometheus. Le serveur est géré via une interface de ligne de commande utilisée pour le contrôle du cycle de vie et la configuration des paramètres d'exécution.
Deno X removes a specific model version from the server to reclaim system resources.
Gravitino is a federated metadata lake and unified data catalog designed to manage tables, files, and AI models across diverse data sources and cloud storage. It serves as a centralized interface for governing schemas, access controls, and tagging across relational databases, messaging queues, and object stores. The project distinguishes itself by unifying the management of AI assets, such as machine learning models and their version lineages, alongside traditional tabular data. It also implements the Iceberg REST specification to provide a standardized metadata server and proxy for lakehouse
Links and retrieves specific AI model versions using associated URIs and aliases.