Design and evaluation of basic standard encryption algorithm modules using nanosized complementary metal-oxide-semiconductor-molecular circuits

Massoud Masoumi; Farshid Raissi; Mahmoud Ahmadian

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Design and evaluation of basic standard encryption algorithm modules using nanosized complementary metal-oxide-semiconductor-molecular circuits

机译：使用纳米互补金属氧化物半导体分子电路的基本标准加密算法模块的设计和评估

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We are proposing that the recently proposed semiconductor-nanowire-molecular architecture (CMOL) is an optimum platform to realize encryption algorithms. The basic modules for the advanced encryption standard algorithm (Rijndael) have been designed using CMOL architecture. The performance of this design has been evaluated with respect to chip area and speed. It is observed that CMOL provides considerable improvement over implementation with regular CMOS architecture even with a 20 percent defect rate. Pseudo-optimum gate placement and routing are provided for Rijndael building blocks and the possibility of designing high speed, attack tolerant and long key encryptions are discussed.

机译：我们建议最近提出的半导体纳米线分子体系结构（CMOL）是实现加密算法的最佳平台。已使用CMOL体系结构设计了高级加密标准算法（Rijndael）的基本模块。已针对芯片面积和速度评估了该设计的性能。可以看出，即使使用20％的缺陷率，CMOL仍比常规CMOS架构的实现方式有了显着改善。为Rijndael构建块提供了伪最佳门的放置和路由，并讨论了设计高速，耐攻击性和长密钥加密的可能性。

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《Nanotechnology》 |2006年第1期|共11页
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Massoud Masoumi; Farshid Raissi; Mahmoud Ahmadian;
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正文语种 eng
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1. Design and evaluation of basic standard encryption algorithm modules using nanosized complementary metal-oxide-semiconductor-molecular circuits [J] . Massoud Masoumi, Farshid Raissi, Mahmoud Ahmadian Nanotechnology . 2006,第1期

机译：使用纳米互补金属氧化物半导体分子电路的基本标准加密算法模块的设计和评估
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8. Complementary Metal-Oxide-Silicon (CMOS)-Memristor Hybrid Nanoelectronics for Advanced Encryption Standard (AES) Encryption. [R] . Cady, N. C. 2016

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Design and evaluation of basic standard encryption algorithm modules using nanosized complementary metal-oxide-semiconductor-molecular circuits

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