Design of Scalable Hardware Architecture for Dual-field Montgomery Modular Inverse Computation

机译：双场蒙哥马利模块化反转计算可扩展硬件架构的设计

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Modular inverse computation is needed in many public key cryptographic applications. In this work, we present two new Montgomery inverse hardware algorithms for GF(p) and GF(2n) field, which are modified from Kaliski algorithm to benefit from multi-bit shifting hardware features. Based on these improved algorithms, a scalable and unified hardware architecture is proposed. The architecture allows the hardware to compute the inverse of long precision numbers in a repetitive way. In addition, the implementation of this design using Xilinx FPGA was compared with other designs. The unified hardware showed better overall performance in area/time than the others, thus it is a very efficient solution whenever arithmetic in the two finite fields is needed.

机译：许多公钥加密应用程序中需要模块化反转。在这项工作中，我们为GF（P）和GF（2N）字段的两个新的蒙哥马利逆硬件算法提供了从kaliski算法修改，从而受益于多个转换硬件特征。基于这些改进的算法，提出了一种可扩展和统一的硬件架构。该体系结构允许硬件以重复的方式计算长度的长度数的倒数。此外，将使用Xilinx FPGA的这种设计的实现与其他设计进行了比较。统一硬件在面积/时间内比其他硬件显示出更好的整体性能，因此每当需要两个有限字段中的算术时，它是一个非常有效的解决方案。

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《Pacific-Asia Conference on Circuits, Communications and System》|2009年||共4页
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中图分类 TN7-53;
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Galois fields; field programmable gate arrays; logic design; public key cryptography; Kaliski algorithm; Montgomery inverse hardware algorithms; Xilinx FPGA; dual-field montgomery modular inverse computation; finite fields; multibit shifting hardware features; public key cryptographic applications; scalable hardware architecture; Montgomer; modular inverse; scalable;

机译：Galois Fields;现场可编程门阵列;逻辑设计;公钥密码学;kaliski算法;蒙哥马利逆硬件算法;Xilinx FPGA;双场蒙哥马利模块化逆计算;有限的领域;有限的领域;多维特转换硬件功能;公钥加密应用;可扩展的硬件架构;montgomer;模块化逆;可扩展;

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1. New Hardware Architectures for Montgomery Modular Multiplication Algorithm [J] . Huang Miaoqing, Gaj Kris, El-Ghazawi Tarek Computers, IEEE Transactions on . 2011,第7期

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2. An Efficient Radix-4 Scalable Architecture for Montgomery Modular Multiplication [J] . Shiann-Rong Kuang, Chih-Yuan Liang, Chun-Chi Chen Circuits and Systems II: Express Briefs, IEEE Transactions on . 2016,第6期

机译：蒙哥马利模块化乘法的高效Radix-4可扩展架构
3. Scalable Montgomery Modular Multiplication Architecture with Low-Latency and Low-Memory Bandwidth Requirement [J] . Lin Wen-Ching, Ye Jheng-Hao, Shieh Ming-Der IEEE Transactions on Computers . 2014,第2期

机译：具有低延迟和低内存带宽需求的可扩展Montgomery模块化乘法体系结构
4. Design of Scalable Hardware Architecture for Dual-field Montgomery Modular Inverse Computation [C] . Pacific-Asia Conference on Circuits, Communications and System . 2009

机译：双场蒙哥马利模块化反转计算可扩展硬件架构的设计
5. New hardware algorithms and designs for Montgomery modular inverse computation in Galois fields GF(p) and GF(2n). [D] . Gutub, Adnan Abdul-Aziz. 2003

机译：Galois场GF（p）和GF（2n）中蒙哥马利模块化逆计算的新硬件算法和设计。
6. Distributed and Modular CAN-Based Architecture for Hardware Control and Sensor Data Integration [O] . Diego P. Losada, Joaquín L. Fernández, Enrique Paz, 2017

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7. New Hardware Algorithms and Designs for Montgomery Modular Inverse Computation in Galois Fields GF(p) and GF(2n) [O] . Gutub Adnan 2002

机译：伽罗瓦域GF（p）和GF（2n）中蒙哥马利模块化逆算法的新硬件算法和设计

Design of Scalable Hardware Architecture for Dual-field Montgomery Modular Inverse Computation

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