模幂算法采用从右到左扫描指数的方法,可以使得两次模乘运算同时进行。
Modul ar exponentiation algorithm scans encryption from right to sot, so t wo modular multiplications can be processed parallelly.
为了防御计时攻击,一般采用以“绑定法”为代表,影响运算性能的模幂算法。
The most widely accepted defense against timing attacks is to perform RSA blinding, which has a performance penalty.
蒙哥马利算法对幂模运算的改进大大的提高了RSA的加解密效率。
The advancing of Montgomery algorithm for the computation power module greatly improves the RSA encryption efficiency.
算法的硬件结构由模乘控制器、模幂控制器、数据寄存器和模乘运算单元构成。
The hardware architecture is made up of modular controller, modular exponentiation controller, data register, and modular multiplication operation units.
模幂运算是RSA公钥密码算法中最基本也是最耗时的运算。
Modular exponentiation is the most common fundamental and time consuming operation in RSA public-key cryptosystems.
为以较小的面积代价实现RSA公钥密码算法及其他一些算法所需的求模、模加、模乘、模幂等运算,该文设计了一种可作为协处理器使用的模运算处理器。
An area efficient modular arithmetic processor was developed that is capable of performing RSA public-key cryptography and other modular arithmetic operations as a coprocessor.
为以较小的面积代价实现RSA公钥密码算法及其他一些算法所需的求模、模加、模乘、模幂等运算,该文设计了一种可作为协处理器使用的模运算处理器。
An area efficient modular arithmetic processor was developed that is capable of performing RSA public-key cryptography and other modular arithmetic operations as a coprocessor.
应用推荐