嵌入式系统的优化密码算法

2015 International Conference on Applied and Theoretical Computing and Communication Technology (iCATccT) Pub Date : 2015-10-01 DOI:10.1109/ICATCCT.2015.7456850

A. A. Deshmukh, Mintu Jothish, K. Chandrasekaran

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引用次数: 0

摘要

加密散列算法因其算法复杂性和无法从消息摘要中重新生成原始输入而广受欢迎。由于嵌入式系统的容量有限，为了满足硬件规范，在经过大量修改后，为了其安全性，嵌入式系统采用了这样的算法。有效的哈希算法清楚地遵守所有性能约束，这就是它受欢迎的原因。我们提出了一种安全散列算法1 (SHA-1)的内存需求优化，以适应嵌入式系统的环境。我们探讨了简化SHA-1的复杂步骤集的想法，通过减少循环和查找存储在主内存中的缓冲区来加快其执行速度。

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Optimized cryptographic algorithm for embedded systems

Cryptographic hash algorithms have gained widespread popularity over its algorithmic complexity and the impossibility of recreation of the original input from the message digest. Embedded systems employ such algorithms for its security after substantial modifications in order to meet the hardware specifications due to the parsimonious capacity of such systems. Efficacious hashing algorithms lucidly adhere to all performance constraints and therein lies its popularity. We propose an optimization of the Secure Hashing Algorithm 1 (SHA-1) in memory requirements to suit the environment of an embedded system. We explore the idea of simplifying SHA-1's complicated set of steps to quicken its execution through loop reduction and lookup buffers stored in the main memory.

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来源期刊

2015 International Conference on Applied and Theoretical Computing and Communication Technology (iCATccT)

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