边缘应用安全机器学习计算的性能加速

Zi-Jie Lin, Chuan-Chi Wang, Chia-Heng Tu, Shih-Hao Hung
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引用次数: 0

摘要

基于机器学习应用构建的边缘设备已逐渐被广泛应用于智能交通、银行业和医疗诊断等各种应用领域。隐私保护计算方法可以用于智能设备,以确保敏感数据的隐私,包括应用程序数据和机器学习模型的参数。然而,数据隐私是以牺牲执行时间为代价实现的。也就是说,安全机器学习应用程序的执行速度比明文应用程序的执行速度慢几个数量级。特别是,边缘设备的性能差距扩大。在这项工作中,为了提高安全应用程序的执行效率,针对开源软件框架CrypTen,该框架被广泛用于使用基于安全多方计算(SMPC)的隐私保护计算方法构建安全机器学习应用程序。我们分析了使用CrypTen构建的安全机器学习应用程序的性能特征,分析表明通信开销阻碍了安全应用程序的执行。为了解决这个问题,一个通信库OpenMPI被添加到CrypTen框架中,作为一个新的通信后端,以提高应用程序的性能高达50%。通过将OpenMPI后端与原始通信后端与CrypTen框架相结合,我们进一步开发了一种混合通信方案。实验结果表明,与原始的CrypTen框架相比,增强的CrypTen框架能够为小数据(LeNet5在MNIST数据集上的加速提升高达50%)提供更好的性能,并且对于大数据(AlexNet在CIFAR-10上)保持相似的性能。
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Performance Acceleration of Secure Machine Learning Computations for Edge Applications
Edge appliances built with machine learning applications have been gradually adopted in a wide variety of application fields, such as intelligent transportation, the banking industry, and medical diagnosis. Privacy-preserving computation approaches can be used on smart appliances in order to secure the privacy of sensitive data, including application data and the parameters of machine learning models. Nevertheless, the data privacy is achieved at the cost of execution time. That is, the execution speed of a secure machine learning application is several orders of magnitude slower than that of the application in plaintext. Especially, the performance gap is enlarged for edge appliances. In this work, in order to improve the execution efficiency of secure applications, an open-source software framework CrypTen is targeted, which is widely used for building secure machine learning applications using the Secure Multi-Party Computation (SMPC) based privacy-preserving computation approach. We analyze the performance characteristics of the secure machine learning applications built with CrypTen, and the analysis reveals that the communication overhead hinders the execution of the secure applications. To tackle the issue, a communication library, OpenMPI, is added to the CrypTen framework as a new communication backend to boost the application performance by up to 50%. We further develop a hybrid communication scheme by combining the OpenMPI backend with the original communication backend with the CrypTen framework. The experimental results show that the enhanced CrypTen framework is able to provide better performance for the small-size data (LeNet5 on MNIST dataset by up to 50% of speedup) and maintain similar performance for large-size data (AlexNet on CIFAR-10), compared to the original CrypTen framework.
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来源期刊
CiteScore
1.70
自引率
14.30%
发文量
17
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