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A Privacy-Preserving-Oriented DNN Pruning and Mobile Acceleration Framework

Yifan Gong, Zheng Zhan, Zhengang Li, Wei Niu, Xiaolong Ma, Wenhao Wang, Bin Ren, Caiwen Ding, Xue Lin, Xiaolin Xu, Yanzhi Wang

202022 citationsDOI

Abstract

Weight pruning of deep neural networks (DNNs) has been proposed to satisfy the limited storage and computing capability of mobile edge devices. However, previous pruning methods mainly focus on reducing the model size and/or improving performance without considering the privacy of user data. To mitigate this concern, we propose a privacy-preserving-oriented pruning and mobile acceleration framework that does not require the private training dataset. At the algorithm level of the proposed framework, a systematic weight pruning technique based on the alternating direction method of multipliers (ADMM) is designed to iteratively solve the pattern-based pruning problem for each layer with randomly generated synthetic data. In addition, corresponding optimizations at the compiler level are leveraged for inference accelerations on devices. With the proposed framework, users could avoid the time-consuming pruning process for non-experts and directly benefit from compressed models. Experimental results show that the proposed framework outperforms three state-of-art end-to-end DNN frameworks, i.e., TensorFlow-Lite, TVM, and MNN, with speedup up to 4.2×, 2.5×, and 2.0×, respectively, with almost no accuracy loss, while preserving data privacy.

Topics & Concepts

PruningComputer scienceSpeedupMobile deviceCompilerAccelerationInferenceEnhanced Data Rates for GSM EvolutionFocus (optics)Process (computing)Edge computingArtificial intelligenceMobile edge computingMachine learningComputer engineeringParallel computingBiologyOperating systemProgramming languageOpticsAgronomyPhysicsClassical mechanicsAdvanced Neural Network ApplicationsStochastic Gradient Optimization TechniquesPrivacy-Preserving Technologies in Data
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