Sequre: a high-performance framework for rapid development of secure bioinformatics pipelines

2022 IEEE International Parallel and Distributed Processing Symposium Workshops (IPDPSW) Pub Date : 2022-05-01 DOI:10.1109/IPDPSW55747.2022.00040

Haris Smajlovic, Ariya Shajii, Bonnie Berger, Hyunghoon Cho, Ibrahim Numanagić

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引用次数: 1

Abstract

Genomic data leaks are irreversible. Leaked DNA cannot be changed, stays disclosed indefinitely, and affects the owner's family members as well. The recent large-scale genomic data collections [1], [2] render the traditional privacy protection mechanisms, like the Health Insurance Portability and Accountability Act (HIPAA), inadequate for protection against the novel security attacks [3]. On the other hand, data access restrictions hinder important clinical research that requires large datasets to operate [4]. These concerns can be naturally addressed by the employment of privacy-enhancing technologies, such as a secure multiparty computation (MPC) [5]–[10]. Secure MPC enables computation on data without disclosing the data itself by dividing the data and computation between multiple computing parties in a distributed manner to prevent individual computing parties from accessing raw data. MPC systems are being increasingly adopted in fields that operate on sensitive datasets [11]–[13], such as computational genomics and biomedical research [14]–[22].

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secure:用于快速开发安全生物信息学管道的高性能框架

基因组数据泄露是不可逆转的。泄露的DNA是无法改变的，会无限期地公开，而且也会影响到所有者的家庭成员。最近大规模的基因组数据收集[1]，[2]使得传统的隐私保护机制，如健康保险流通与责任法案(HIPAA)，不足以抵御新的安全攻击[3]。另一方面，数据访问限制阻碍了需要大数据集运行的重要临床研究[4]。这些问题自然可以通过使用隐私增强技术来解决，例如安全多方计算(MPC)[5] -[10]。安全MPC通过在多个计算方之间以分布式方式划分数据和计算，以防止单个计算方访问原始数据，从而在不泄露数据本身的情况下实现对数据的计算。MPC系统越来越多地应用于操作敏感数据集的领域[11]-[13]，例如计算基因组学和生物医学研究[14]-[22]。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE International Parallel and Distributed Processing Symposium Workshops (IPDPSW)

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