On estimation of optimal window size in m_ary algorithm in modular exponentiation and point multiplication;
定义了大窗口和小窗口,指出经典蚁群算法实质上是大窗口蚁窗算法。
Modular exponentiation is the most common fundamental and time consuming operation in RSA public-key cryptosystems.
模幂运算是RSA公钥密码算法中最基本也是最耗时的运算。
The performance of RSA decryption has direct relationship with the efficiency of modular exponentiation implementation.
RSA算法的解密性能与大数模幂运算的实现效率有着直接的关系。
The hardware architecture is made up of modular controller, modular exponentiation controller, data register, and modular multiplication operation units.
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。
In these public key cryptographic algorithms, the kernel operations are modular exponentiation of multi-precision integer and elliptic curve scalar multiplication, which both are computing intensive.
这些公钥密码算法的关键操作为大整数模幂乘操作与椭圆曲线标量乘法操作,均属于计算密集型运算。
Modul ar exponentiation algorithm scans encryption from right to sot, so t wo modular multiplications can be processed parallelly.
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.
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。
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