1.
Biginteger Factoring in Distributed Enviorment;
分布式计算环境下大整数分解的研究
2.
The number field sieve (NFS) is the asymptotically fastest factoring methodknown.
数域筛法是目前最快的(渐进意义下)整数分解方法。
3.
An Authenticated Key Exchange Scheme Based on Difficulties of Both Discrete Logarithm and Big Integer Factorization;
同时基于离散对数和大整数分解难问题认证密钥交换方案
4.
The Properties of Solutions for a Certain Higher Order Differential Equations with Entire Coefficient;
一类整函数系数微分方程的解的性质
5.
Using Fraction Solutions of Pell FangCheng x~2-dy~2=1 to Extract Its Integer Ones;
用佩尔方程x~2-dy~2=1的分数解求其整数解
6.
A New Way of Factorization of Polynomial for Integral Coefficient Polynomial;
整系数多项式因式分解的一种新方法
7.
(math) of or relating to or being an integer that cannot be factored into other integers.
(数学)属于、关于或是不能分解成其他整数的整数的。
8.
It will be much easier to understand if the fractions are rounded up to the whole numbers.
如果把分数调高为整数,那么就更加容易理解了。
9.
The Complex Oscillation Theory of Solutions of Some Differential Equations with Entire Coefficients;
某些整函数系数微分方程解的复振荡理论
10.
The Complex Oscillation Properties of the Solutions of Some Types of Differential Equations with Entire Coefficients;
一些整函数系数线性微分方程解的复振荡性质
11.
POLYNOMIAL SELECTIONS IN FACTORING r~e±s WITH NFS
数域筛法分解r~e±s型大整数时多项式的选取
12.
The Growth of a Class of Higher Linear Differential Equations with Entire Coefficients
某类高阶整函数系数微分方程解的增长性
13.
On Oscillation Theorems of Differential Equation with Coefficients of Entire Functions
两类高阶整函数系数微分方程解的复振荡
14.
On the growth and fixed points of solutions of second order linear differential equations with entire coefficients;
二阶整系数线性微分方程解的不动点与增长级
15.
The Filled Function Method For a Class of Discrete Nonlinear Mixed-integer Programming;
一类可分离非线性混合整规划的填充函数解法
16.
Analysis of the Filter Parameters Design for the Rectification Machine of Aluminum Electrolysis
铝电解整流机组滤波器参数设计的分析
17.
The properties of solutions of linear differential equations with entire coefficients of finite iterated order
有限迭代级整系数线性微分方程解的性质
18.
A Fast Algorithm OFT to Factorize Small Factors of Big Integer
一种快速分解大整数的小因子的优化分解树OFT算法