使用ROM子模块和排除移位的AES加密的高效VLSI实现

2014 First International Conference on Computational Systems and Communications (ICCSC) Pub Date : 2014-12-01 DOI:10.1109/COMPSC.2014.7032656

Seena S. Das, R. Resmi

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引用次数: 2

摘要

介绍了一种采用高级加密标准(Advanced encryption Standard, AES)算法的高效VLSI加密实现。该体系结构处理基于ROM的密钥扩展模块，而不是常用的寄存器，另一个优点是排除了移位行，提出了算法中的两步合并，从而提高了面积和功耗的降低。Xilinx ISE 14.5是使用Virtex5 FPGA实现的软件。在该加密器中，在重定位后实现了加密过程子步骤的有效合并。在本设计中，S-BOX采用内部流水线实现，并在主轮和关键扩展单元之间共享。与以前的AES设计相比，这些设计实现了更高的FPGA效率(吞吐量/面积)。

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An efficient VLSI implementation of AES encryption using ROM submodules and exclusion of shiftrows

An efficient VLSI implementation of encryption using Advanced Encryption Standard (AES) algorithm is introduced. The architecture deals with ROM based key expansion modules rather than registers which were commonly used and another advantage is the exclusion of shift rows by which merging of two steps in algorithm is proposed which enhances the reduction in area and power. Xilinx ISE 14.5 is the software used with Virtex5 FPGA for implementation. In this encryptor an efficient merging for the encryption process sub-steps is implemented after relocating them. In this design, the S-BOX is implemented with internal pipelining and it is shared between the main round and the key expansion units. These designs achieved higher FPGA efficiency (Throughput/Area) compared to previous AES designs.

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2014 First International Conference on Computational Systems and Communications (ICCSC)

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