/models

Model Zoo for Intel® Architecture: contains Intel optimizations for running deep learning workloads on Intel® Xeon® Scalable processors

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Model Zoo for Intel® Architecture

This repository contains links to pre-trained models, sample scripts, best practices, and step-by-step tutorials for many popular open-source machine learning models optimized by Intel to run on Intel® Xeon® Scalable processors.

Purpose of the Model Zoo

  • Demonstrate the AI workloads and deep learning models Intel has optimized and validated to run on Intel hardware
  • Show how to efficiently execute, train, and deploy Intel-optimized models
  • Make it easy to get started running Intel-optimized models on Intel hardware in the cloud or on bare metal

DISCLAIMER: These scripts are not intended for benchmarking Intel platforms. For any performance and/or benchmarking information on specific Intel platforms, visit https://www.intel.ai/blog.

How to Use the Model Zoo

Getting Started

  • If you know what model you are interested in, or if you want to see a full list of models in the Model Zoo, start here.
  • For framework best practice guides, and step-by-step tutorials for some models in the Model Zoo, start here.
  • With Intel® AI Analytics Toolkit, Powered by oneAPI
    • Intel Model Zoo is also released as a part of Intel® AI Analytics Toolkit which provides a consolidated package of Intel’s latest deep and machine learning optimizations all in one place for ease of development. Along with Model Zoo, the toolkit also includes Intel optimized versions of deep learning frameworks (Tensorflow, PyTorch) and high performing Python libraries to streamline end-to-end data science and AI workflows on Intel architectures.
    • To get started you can refer to ResNet50 FP32 Inference code sample.

Directory Structure

The Model Zoo is divided into four main directories:

  • benchmarks: Look here for sample scripts and complete instructions on downloading and running each Intel-optimized pre-trained model.
  • docs: General best practices and detailed tutorials for a selection of models and frameworks can be found in this part of the repo.
  • models: This directory contains optimized model code that has not yet been upstreamed to its respective official repository, such as dataset processing routines. There are no user-friendly READMEs in this directory, but many supporting modules are here.
  • tests: Look here for unit tests and information on how to run them.

The benchmarks, models, and docs folders share a common structure. Each model (or document) is organized first by use case and then by framework. Inside the model-specific directory, there may be further nesting subdirectories for inference vs. training and FP32 vs. Int8 precision. We hope this structure is intuitive and helps you find what you are looking for; when in doubt, consult the section's main README.

Repo Structure

How to Contribute

If you would like to add a new benchmarking script, please use this guide.