资源列表
lichaxun
- 理查逊外推法求数值微分,能达到很高的精度。-Richardson extrapolation method for numerical differentiation, to achieve high accuracy.
Gaussseidel
- 数值分析中的Gaussseidel迭代算法,能够实现线性方程组的数值解法- Gaussseidel numerical analysis of iterative algorithms, linear equations to achieve the numerical solution
majacobi
- 用Jacobi迭代法解线性方程组Ax=b,A为系数矩阵,b为右端向量-Solution using Jacobi iterative method of linear equations Ax = b, A as the coefficient matrix, b is the right end of the vector
Text1
- 这是用Fortran编写的解线性方程组,一般的线性方程组都可以解,很方便-It is written in Fortran for solving linear equations, the general solution of linear equations can be very convenient
conputezhi
- 计算矩阵的秩:这是数值处理的一个基本要求,经常要用到。-Calculate rank of matrix: This is a basic requirement for numerical processing is usually used.
bisect
- 该function文件可以利用二分法求解方程的数值解,其中有例子-The function files can be used to solve equations numerical solution of the dichotomy, of which examples
Newton
- 共轭梯度法(Conjugate Gradient)是介于最速下降法与牛顿法之间的一个方法,它仅需利用一阶导数信息,但克服了最速下降法收敛慢的缺点,又避免了牛顿法需要存储和计算Hesse矩阵并求逆的缺点,共轭梯度法不仅是解决大型线性方程组最有用的方法之一,也是解大型非线性最优化最有效的算法之一。 在各种优化算法中,共轭梯度法是非常重要的一种。其优点是所需存储量小,具有步收敛性,稳定性高,而且不需要任何外来参数。-Conjugate Gradient method (Conjugate Gradie
crc16-jisuan
- 循环冗余码的计算程序,对任意输入的信息块生成实际传输的码字-Cyclic redundancy code calculation program, any input code word to generate the actual transmission
20_3circl
- C++程序设计实验题 进行矩阵最大值的计算和输出-The calculation of the matrix maximum output
juggling
- 翻转算法,效果:abcdefg->defgabc 使用到辗转相除求最大公约数。-The Flip algorithm, the effect: abcdefg-> defgabc use to euclidean division of the common denominator.
chua_sys
- 可生成chua系统的matlab代码,可用于生成常微分系统数值解和相关图形-It can produce the numerical Chua system
Piscard
- 解非线性方程的不动点(Piscard)法,编译器用的是intel visual fortran-solve nonlinear equation with Piscard method