字节旋转加密算法通过并行处理和多核利用

G. Thirumaleswari, Ch. Suneetha, G. C. Bharathi
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引用次数: 0

摘要

随着技术的发展,保护数字数据已成为一项繁琐的任务。现有的AES、DES、Blowfish等加密算法虽然能够保证信息的安全,但随着安全级别的提高,这些算法会消耗大量的时间。本文采用并行处理和多核利用的方法实现了字节旋转加密算法(BREA)。BREA将数据分成固定大小的块。每个区块使用随机数键并行处理。因此,通过利用所有可用的CPU内核并行执行这组块。最后,通过实验分析发现,随着核数的增加,BREA算法的执行时间有所减少。
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Byte Rotation Encryption Algorithm through parallel processing and multi-core utilization
Securing digital data has become tedious task as the technology is increasing. Existing encryption algorithms such as AES,DES and Blowfish ensure information security but consume lot of time as the security level increases. In this paper, Byte Rotation Encryption Algorithm (BREA) has implemented using parallel processing and multi-core utilization. BREA divides data into fixed size blocks. Each block is processed parallely using random number key. So the set of blocks are executed in parallel by utilizing all the available CPU cores. Finally, from the experimental analysis, it is observed that the proposed BREA algorithm reduces execution time when the number of cores has increased.
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