Three hardware architectures for the binary modular exponentiation: sequential, parallel, and systolic

Nedjah N.; Mourelle Ld.M.

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Three hardware architectures for the binary modular exponentiation: sequential, parallel, and systolic

机译：二进制模块化指数的三种硬件体系结构：顺序，并行和脉动

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Modular exponentiation is the cornerstone computation in public-key cryptography systems such as RSA cryptosystems. The operation is time consuming for large operands. This paper describes the characteristics of three architectures designed to implement modular exponentiation using the fast binary method: the first field-programmable gate array (FPGA) prototype has a sequential architecture, the second has a parallel architecture, and the third has a systolic array-based architecture. The paper compares the three prototypes as well as Blum and Paar's implementation using the time times area classic factor. All three prototypes implement the modular multiplication using the popular Montgomery algorithm

机译：模幂运算是公钥密码系统（例如RSA密码系统）中的基石计算。对于大型操作数而言，该操作非常耗时。本文介绍了设计用于使用快速二进制方法实现模块化幂运算的三种体系结构的特点：第一个现场可编程门阵列（FPGA）原型具有顺序体系结构，第二个具有并行体系结构，第三个具有脉动阵列-基于架构。本文使用时间乘以区域经典因子比较了这三个原型以及Blum和Paar的实现。所有三个原型都使用流行的蒙哥马利算法实现了模块化乘法

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《IEEE transactions on circuits and systems . I , Regular papers》 |2006年第3期|p.627-633|共7页
作者
Nedjah N.; Mourelle Ld.M.;
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正文语种 eng
中图分类 TN71;
关键词
field programmable gate arrays; integrated circuit design; multiplying circuits; public key cryptography; sequential circuits; systolic arrays; FPGA; Montgomery algorithm; binary modular exponentiation; fast binary method; field-programmable gate array; hardware ar;

机译：现场可编程门阵列;集成电路设计;乘法电路;公钥密码学;顺序电路;脉动阵列;FPGA;蒙哥马利算法;二进制模幂;快速二进制方法;现场可编程门阵列;硬件;

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专利

1. Three Hardware Architectures for the Binary Modular Exponentiation: Sequential, Parallel, and Systolic [J] . Nadia Nedjah, Luiza de Macedo Mourelle IEEE Transactions on Circuits and Systems. I, Regular Papers . 2006,第3期

机译：二进制模块化幂运算的三种硬件体系结构：顺序，并行和脉动
2. Fast reconfigurable systolic hardware for modular multiplication and exponentiation [J] . Nadia Nedjah, Luiza de Macedo Mourelle Journal of systems architecture . 2003,第7a9期

机译：快速可重新配置的脉动硬件，用于模块化乘法和求幂
3. Massively parallel modular exponentiation method and its implementation in software and hardware for high-performance cryptographic systems [J] . Nedjah N., Mourelle L.M., Santana M., Computers & Digital Techniques, IET . 2012,第5期

机译：大规模并行模块化幂运算方法及其在高性能密码系统的软件和硬件中的实现
4. Three hardware implementations for the binary modular exponentiation: sequential, parallel and systolic [C] . Nedjah, N., de Macedo Mourelle, . 2003

机译：二进制模块化指数的三种硬件实现：顺序，并行和脉动
5. A novel unified algorithm and hardware architecture for integrated modular division and multiplication in GF(p) and GF(2n) suitable for public-key cryptography. [D] . Tawalbeh, Lo'ai Ali. 2004

机译：适用于公钥密码学的GF（p）和GF（2n）中集成模块化除法和乘法的新颖的统一算法和硬件体系结构。
6. A Novel Hardware Systolic Architecture of a Self-Organizing Map Neural Network [O] . Khaled Ben Khalifa, Ahmed Ghazi Blaiech, Mohamed Hédi Bedoui 2019

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7. Hardware Implementation of Parallel Modular Exponentiation Algorithm Based on Pipelining Technique [O] . 黄世伟, 王云峰 2013

机译：基于流水线技术的并行模幂运算算法的硬件实现
8. Novel Highly Parallel and Systolic Architectures Using Quantum Dot-Based Hardware [R] . Fijany, A., Toomarian, B. N., Spotniz, M. 1999

机译：使用基于量子点的硬件的新型高度并行和收缩结构

Three hardware architectures for the binary modular exponentiation: sequential, parallel, and systolic

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