A Lightweight Multi-Precision Squaring on Embedded Processors for ECC

机译：ECC嵌入式处理器上的轻量级多精度平方

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In this paper, we introduce a lightweight implementation of multi-precision squaring for Elliptic Curve Cryptography (ECC) on resource-constrained devices. We present a new method named Complete Hybrid Karatsuba Squaring (CHKS) which follows subtractive Karatsuba structure, and use Vector-Like (VL) to compute small block squaring. VL has a slight advantage compared with traditional product-scanning squaring from 24-bit to 64-bit input. In order to achieve a lightweight multi-precision squaring, we make an optimized modification for Karatsuba squaring carefully. Our experimental results on 8-bit AVR microprocessor show that CHKS saves nearly half size of code while keeping 1%-9% faster speed compared with prior works.

机译：在本文中，我们在资源受限设备上介绍了用于椭圆曲线密码（ECC）的多精度平方的轻量级实现。我们提出了一种名为Completave Charatsuba Squaring（CHK）的新方法，其遵循减阳松结构，并使用载体样（VL）来计算小块平方。与从24位到64位输入的传统产品扫描平方相比，VL略有优势。为了实现轻量级的多精度平方，我们仔细修改了Karatsuba Squaring。我们在8位AVR微处理器上的实验结果表明，CLKS与先前作品相比保持速度较快的速度近一半的代码。

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《IEEE International Conference on Big Data Science and Engineering》|2018年|651-1308p|共6页
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作者
Wei Zhang; Dongdai Lin; Hailong Zhang; Xiaojun Zhou; Yiwen Gao; Cong Chen;
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中图分类 TP393.08-53;
关键词
Multi-precision Squaring; AVR; Lightweight; Elliptic Curve Cryptography; Karatsuba multiplicaion;

机译：多精度平方;AVR;轻量级;椭圆曲线密码学;Karatsuba乘法;

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专利

1. Fast Multi-precision Multiplication for Public-Key Cryptography on Embedded Microprocessors [J] . Hutter Michael, Wenger Erich Journal of Cryptology . 2020,第4期

机译：嵌入式微处理器上公钥加密的快速多精度乘法
2. Fast Multi-precision Multiplication for Public-Key Cryptography on Embedded Microprocessors [J] . Hutter Michael, Wenger Erich Journal of Cryptology . 2018,第4期

机译：嵌入式微处理器上用于公钥密码的快速多精度乘法
3. Lightweight Implementations of NIST P-256 and SM2 ECC on 8-bit Resource-Constraint Embedded Device [J] . Zhou Lu, Su Chunhua, Hu Zhi, ACM Transactions on Embedded Computing Systems . 2019,第3期

机译：NIST P-256和SM2 ECC在8位资源约束嵌入式设备上轻量级实现
4. A Lightweight Multi-precision Squaring on Embedded Processors for ECC [C] . Wei Zhang, Dongdai Lin, Hailong Zhang, 2018 17th IEEE International Conference on Trust, Security and Privacy In Computing and Communications, 12th IEEE International Conference on Big Data Science and Engineering . 2018

机译：用于ECC的嵌入式处理器上的轻量级高精度平方
5. Seismic Performance of Square Nickel-Titanium Reinforced ECC Columns with Headed Couplers. [D] . Nakashoji, Brian A. 2014

机译：带头部耦合器的方形镍钛增强ECC柱的抗震性能。
6. Simulation of Eccentric Impact of Square and Rectangular Composite Laminates Embedded with SMA [O] . Min Sun, Mengzhou Chang, Zhenqing Wang, 2018

机译：SMA嵌入方形和矩形复合板偏心冲击的模拟。
7. Multi-precision Squaring for Public-Key Cryptography on Embedded Microprocessors [O] . Seo, Hwajeong, Liu, Zhe, Choi, Jongseok, 2013

机译：嵌入式微处理器上公钥密码的多精度平方

A Lightweight Multi-Precision Squaring on Embedded Processors for ECC

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