Efficient Algorithms for Elliptic Curve Cryptosystems using Endomorphisms
This book focuses on fast algorithms for computing scalar multiplication (or point multiplication) on certain types of elliptic curves, as scalar multiplication is the most time-consuming operation in elliptic curve cryptography (ECC). More precisely, the text provides readers with both a theoretical perspective on the use of low Hamming weight Frobenius expansion for scalar multiplication and a practical perspective on the implementation of scalar multiplication using the above technique. ECC has a wide range of applications, including public-key encryption and digital signatures. However, along with the use of ECC in low-end devices, the goal is to improve the efficiency of the operation. The results of this book can be used for the efficient implementation of various ECC-based applications. The book will be of interest to all readers who have at least a basic grasp of the theory of elliptic curves, or are familiar with the use of cryptography. After reading this book, readers will understand both the theory and implementation of fast scalar multiplication algorithms.

1121319141
Efficient Algorithms for Elliptic Curve Cryptosystems using Endomorphisms
This book focuses on fast algorithms for computing scalar multiplication (or point multiplication) on certain types of elliptic curves, as scalar multiplication is the most time-consuming operation in elliptic curve cryptography (ECC). More precisely, the text provides readers with both a theoretical perspective on the use of low Hamming weight Frobenius expansion for scalar multiplication and a practical perspective on the implementation of scalar multiplication using the above technique. ECC has a wide range of applications, including public-key encryption and digital signatures. However, along with the use of ECC in low-end devices, the goal is to improve the efficiency of the operation. The results of this book can be used for the efficient implementation of various ECC-based applications. The book will be of interest to all readers who have at least a basic grasp of the theory of elliptic curves, or are familiar with the use of cryptography. After reading this book, readers will understand both the theory and implementation of fast scalar multiplication algorithms.

139.99 Pre Order
Efficient Algorithms for Elliptic Curve Cryptosystems using Endomorphisms

Efficient Algorithms for Elliptic Curve Cryptosystems using Endomorphisms

by Keisuke Hakuta
Efficient Algorithms for Elliptic Curve Cryptosystems using Endomorphisms

Efficient Algorithms for Elliptic Curve Cryptosystems using Endomorphisms

by Keisuke Hakuta

Hardcover(1st ed. 2024)

$139.99 
  • SHIP THIS ITEM
    Available for Pre-Order. This item will be released on December 21, 2025

Related collections and offers


Overview

This book focuses on fast algorithms for computing scalar multiplication (or point multiplication) on certain types of elliptic curves, as scalar multiplication is the most time-consuming operation in elliptic curve cryptography (ECC). More precisely, the text provides readers with both a theoretical perspective on the use of low Hamming weight Frobenius expansion for scalar multiplication and a practical perspective on the implementation of scalar multiplication using the above technique. ECC has a wide range of applications, including public-key encryption and digital signatures. However, along with the use of ECC in low-end devices, the goal is to improve the efficiency of the operation. The results of this book can be used for the efficient implementation of various ECC-based applications. The book will be of interest to all readers who have at least a basic grasp of the theory of elliptic curves, or are familiar with the use of cryptography. After reading this book, readers will understand both the theory and implementation of fast scalar multiplication algorithms.


Product Details

ISBN-13: 9784431553472
Publisher: Springer Japan
Publication date: 12/21/2025
Series: Mathematics for Industry , #10
Edition description: 1st ed. 2024
Pages: 280
Product dimensions: 6.10(w) x 9.25(h) x (d)
From the B&N Reads Blog

Customer Reviews