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A Model Compression Toolkit for neural networks

Project description


Getting Started

Quick Installation

Pip install the model compression toolkit package in a Python>=3.9 environment with PyTorch>=2.1 or Tensorflow>=2.12.

pip install model-compression-toolkit

For installing the nightly version or installing from source, refer to the installation guide.

Important note: In order to use MCT, you’ll need to provide a floating point .pt or .keras model as an input.

Tutorials and Examples

Our tutorials section will walk you through the basics of the MCT tool, covering various compression techniques for both Keras and PyTorch models. Access interactive notebooks for hands-on learning with popular models/tasks or move on to Resources section.

Supported Quantization Methods

MCT supports various quantization methods as appears below.

Quantization Method Complexity Computational Cost API Tutorial
PTQ (Post Training Quantization) Low Low (~1-10 CPU minutes) PyTorch API / Keras API
GPTQ (parameters fine-tuning using gradients) Moderate Moderate (~1-3 GPU hours) PyTorch API / Keras API
QAT (Quantization Aware Training) High High (~12-36 GPU hours) QAT API

For each flow, Quantization core utilizes various algorithms and hyper-parameters for optimal hardware-aware quantization results. For further details, please see Supported features and algorithms.

Required input:

  • Floating point model - 32bit model in either .pt or .keras format
  • Representative dataset - can be either provided by the user, or generated utilizing the Data Generation capability

High level features and techniques

MCT offers a range of powerful features to optimize models for efficient edge deployment. These supported features include:

Quantization Core Features

🏆 Mixed-precision search Open In Colab. Assigning optimal quantization bit-width per layer (for weights/activations)

📈 Graph optimizations. Transforming the model to be best fitted for quantization process.

🔎 Quantization parameter search Open In Colab. Minimizing expected quantization-noise during thresholds search using methods such as MSE, No-Clipping and MAE.

🧮 Advanced quantization algorithms Open In Colab. Enhancing quantization performance for advanced cases is available with some algorithms that can be applied, such as Shift negative correction, Outliers filtering and clustering.


Hardware-aware optimization

🎯 TPC (Target Platform Capabilities). Describes the target hardware’s constrains, for which the model optimization is targeted. See TPC Readme for more information.


Data-free quantization (Data Generation) Open In Colab

Generates synthetic images based on the statistics stored in the model's batch normalization layers, according to your specific needs, for when image data isn’t available. See Data Generation Library for more.


Structured Pruning Open In Colab

Reduces model size/complexity and ensures better channels utilization by removing redundant input channels from layers and reconstruction of layer weights. Read more (Pytorch API / Keras API).


Debugging and Visualization

🎛️ Network Editor (Modify Quantization Configurations) Open In Colab. Modify your model's quantization configuration for specific layers or apply a custom edit rule (e.g adjust layer's bit-width) using MCT’s network editor

🖥️ Visualization. Observe useful information for troubleshooting the quantized model's performance using TensorBoard. Read more.

🔑 XQuant (Explainable Quantization) Open In Colab. Get valuable insights regarding the quality and success of the quantization process of your model. The report includes histograms and similarity metrics between the original float model and the quantized model in key points of the model. The report can be visualized using TensorBoard.


Enhanced Post-Training Quantization (EPTQ)

As part of the GPTQ capability, we provide an advanced optimization algorithm called EPTQ. The specifications of the algorithm are detailed in the paper: "EPTQ: Enhanced Post-Training Quantization via Hessian-guided Network-wise Optimization" [4]. More details on how to use EPTQ via MCT can be found in the GPTQ guidelines.

Resources

Supported Versions

Currently, MCT is being tested on various Python, Pytorch and TensorFlow versions:

Supported Versions Table
PyTorch 2.2 PyTorch 2.3 PyTorch 2.4 PyTorch 2.5
Python 3.9 Run Tests Run Tests Run Tests Run Tests
Python 3.10 Run Tests Run Tests Run Tests Run Tests
Python 3.11 Run Tests Run Tests Run Tests Run Tests
Python 3.12 Run Tests Run Tests Run Tests Run Tests
TensorFlow 2.12 TensorFlow 2.13 TensorFlow 2.14 TensorFlow 2.15
Python 3.9 Run Tests Run Tests Run Tests Run Tests
Python 3.10 Run Tests Run Tests Run Tests Run Tests
Python 3.11 Run Tests Run Tests Run Tests Run Tests

Results

Pytorch

We quantized classification networks from the torchvision library. In the following table we present the ImageNet validation results for these models:

Network Name Float Accuracy 8Bit Accuracy Data-Free 8Bit Accuracy
MobileNet V2 [3] 71.886 71.444 71.29
ResNet-18 [3] 69.86 69.63 69.53
SqueezeNet 1.1 [3] 58.128 57.678

Keras

MCT can quantize an existing 32-bit floating-point model to an 8-bit fixed-point (or less) model without compromising accuracy. Below is a graph of MobileNetV2 accuracy on ImageNet vs average bit-width of weights (X-axis), using single-precision quantization, mixed-precision quantization, and mixed-precision quantization with GPTQ.

For more results, please see [1]

Pruning Results

Results for applying pruning to reduce the parameters of the following models by 50%:

Model Dense Model Accuracy Pruned Model Accuracy
ResNet50 [2] 75.1 72.4
DenseNet121 [3] 74.44 71.71

Troubleshooting and Community

If you encountered large accuracy degradation with MCT, check out the Quantization Troubleshooting for common pitfalls and some tools to improve quantized model's accuracy.

Check out the FAQ for common issues.

You are welcome to ask questions and get support on our issues section and manage community discussions under discussions section.

Contributions

MCT aims at keeping a more up-to-date fork and welcomes contributions from anyone.

*Checkout our Contribution guide for more details.

License

MCT is licensed under Apache License Version 2.0. By contributing to the project, you agree to the license and copyright terms therein and release your contribution under these terms.

References

[1] Habi, H.V., Peretz, R., Cohen, E., Dikstein, L., Dror, O., Diamant, I., Jennings, R.H. and Netzer, A., 2021. HPTQ: Hardware-Friendly Post Training Quantization. arXiv preprint.

[2] Keras Applications

[3] TORCHVISION.MODELS

[4] Gordon, O., Cohen, E., Habi, H. V., & Netzer, A., 2024. EPTQ: Enhanced Post-Training Quantization via Hessian-guided Network-wise Optimization. arXiv preprint

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