Hardware/Software Co-design for Hyperelliptic Curve Cryptography (HECC) on the 8051 μP

机译：8051μP上的超椭圆曲线密码术（HECC）的硬件/软件协同设计

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Implementing public-key cryptography on platforms with limited resources, such as microprocessors, is a challenging task. Hardware/software co-design is often the only answer to implement the computationally intensive operations with limited memory and power at an acceptable speed. This contribution describes such a solution for Hyper-elliptic Curve Cryptography (HECC). The proposed hardware/software co-design of the HECC system was implemented and co-simulated using the GEZEL design environment. As a low-cost platform, we chose an 8-bit 8051 microprocessor to which one small hardware co-processor was added for field multiplication. We show that the Jacobian scalar multiplication can be computed in 2.488 sec at 12 MHz on this platform if a minimal hardware module is added i.e. a hardware multiply-add unit. This optimal solution provides a factor of 26 speed-up over a software-only solution.

机译：在资源有限的平台（例如微处理器）上实现公钥加密是一项艰巨的任务。硬件/软件协同设计通常是在有限的内存和功耗下以可接受的速度实现计算密集型操作的唯一答案。此文稿描述了超椭圆曲线密码术（HECC）的这种解决方案。使用GEZEL设计环境实现并共同仿真了HECC系统的拟议硬件/软件协同设计。作为一种低成本平台，我们选择了一个8位8051微处理器，并在其中添加了一个小型硬件协处理器用于现场乘法。我们表明，如果添加了最小硬件模块（即硬件乘法加法单元），则可以在此平台上在12MHz下的2.488秒内以2.488秒的速度计算雅可比标量乘法。与纯软件解决方案相比，这种最佳解决方案的速度提高了26倍。

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来源
《International Workshop on Cryptographic Hardware and Embedded Systems(CHES 2005); 20050829-0901; Edinburgh(GB)》|2005年|P.106-118|共13页
会议地点 Edinburgh(GB)
作者
Lejla Batina; David Hwang; Alireza Hodjat; Bart Preneel; Ingrid Verbauwhede;
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作者单位

Katholieke Universiteit Leuven, ESAT/COSIC, Kasteelpark Arenberg 10, B-3001 Leuven-Heverlee, Belgium;

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会议组织
原文格式 PDF
正文语种 eng
中图分类安全保密;
关键词
HECC; GF(2~m); genus 2 curves; hardware/software co-design; embedded implementation;

机译：HECC; GF（2〜m）; 2类曲线;软/硬件协同设计;嵌入式实现;

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1. Data Security Model Employing Hyperelliptic Curve Cryptography (HECC) and Secure Hash Algorithm-3 (Sha-3) in Cloud Computing [J] . Devi Thiyagarajan, Ganesan R. International Journal of Technology . 2015,第3期

机译：云计算中采用超椭圆曲线密码学（HECC）和安全哈希算法3（Sha-3）的数据安全模型
2. SystemC-Based Hardware/ Software Co-Design of Elliptic Curve Cryptographic System for Network Authentication [J] . Hau Yuan Wen, Mohamed Khalil Hani, Muhammad N. Marsono Malaysian Journal of Computer Science . 2011,第2期

机译：基于SystemC的椭圆曲线密码认证系统硬件/软件协同设计。
3. Efficient and secure cryptographic systems based on addition chains: Hardware design vs. software/hardware co-design [J] . Nadia Nedjah, Luiza de Macedo Mourelle Integration . 2007,第1期

机译：基于附加链的高效，安全的密码系统：硬件设计与软件/硬件协同设计
4. Hardware/Software Co-design for Hyperelliptic Curve Cryptography (HECC) on the 8051 μP [C] . International Workshop on Cryptographic Hardware and Embedded Systems . 2005

机译：8051μp的硬件/软件共同设计用于高温曲线加密（HECC）
5. Public Key Cryptography Using Hardware/Software Co-design for the Internet of Things [D] . Salman, Ahmad. 2017

机译：使用硬件/软件共同设计的公钥密码专用用于物联网
6. Analysis of the width-... formula ... non-adjacent form in conjunction with hyperelliptic curve cryptography and with lattices [O] . Daniel Krenn -1

机译：结合超椭圆曲线密码学和晶格分析宽度不等式
7. Hardware/Software Co-design for Hyperelliptic Curve Cryptography (HECC) on the 8051 microprocessor [O] . Batina Lejla, Hwang D, Hodjat A, 2005

机译：8051微处理器上的超椭圆曲线密码术（HECC）的硬件/软件协同设计

Hardware/Software Co-design for Hyperelliptic Curve Cryptography (HECC) on the 8051 μP

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