HQNAS: Auto CNN deployment framework for joint quantization and architecture search
This addresses the need for energy-efficient neural network deployment on resource-constrained edge devices, offering a novel integrated approach rather than incremental improvements.
The paper tackles the problem of efficiently deploying neural networks on edge devices by jointly optimizing architecture and quantization, achieving a 1.8x latency reduction with only 0.7% accuracy loss on ImageNet in 10% of the GPU time of traditional methods.
Deep learning applications are being transferred from the cloud to edge with the rapid development of embedded computing systems. In order to achieve higher energy efficiency with the limited resource budget, neural networks(NNs) must be carefully designed in two steps, the architecture design and the quantization policy choice. Neural Architecture Search(NAS) and Quantization have been proposed separately when deploying NNs onto embedded devices. However, taking the two steps individually is time-consuming and leads to a sub-optimal final deployment. To this end, we propose a novel neural network design framework called Hardware-aware Quantized Neural Architecture Search(HQNAS) framework which combines the NAS and Quantization together in a very efficient manner using weight-sharing and bit-sharing. It takes only 4 GPU hours to discover an outstanding NN policy on CIFAR10. It also takes only %10 GPU time to generate a comparable model on Imagenet compared to the traditional NAS method with 1.8x decrease of latency and a negligible accuracy loss of only 0.7%. Besides, our method can be adapted in a lifelong situation where the neural network needs to evolve occasionally due to changes of local data, environment and user preference.