搜索资源列表
Block_5_1
- 求解分块五对角方程组的Matlab编程,并且给出了求解误差的子函数,本编程实用性强-solution for Block pentadiagonal equations
M_5_1_Big
- 给出了五对角方程组的Matlab求解编程,并且附有误差函数,实用性强-solve for Pentadiagonal equations using matlab language.
gauss-seidel
- 通过编程实现通过共轭梯度法和Gauss-Seidel迭代法两种方法求解方程组-By programming through the conjugate gradient method and Gauss-Seidel iteration method for solving equations of two
hips-1.2b-rc5.tar
- HIPS是一个求解大规模稀疏线性方程组的一个软件包,主要利用了schur技术和网格重排技术。-HIPS is a large-scale sparse linear equations to solve a software package, the main advantage of the rearrangement schur technology and grid technology.
numerical-solution
- 非线性方程组的数值解法,用数值解法求解非线性方程组-Numerical solution of nonlinear equations
MCHOLSK
- 应用Cholesky分解算法,求解复数线性一致hermitian正定方程组。-Application of Cholesky decomposition algorithm, to solve the same complex hermitian positive definite linear equations.
linear-equation
- 使用LUP方法实现一阶线性方程组的求解过程,原理详见算法导论第28章。-LUP method implementation using the first-order process for solving linear equations, principles detailed in Chapter 28 Introduction to Algorithms.
ssor
- 数值求解正方形域上的Poisson方程边值问题,用由椭圆型第一边值问题的五点差分格式,用Gauss-Seidel迭代法、块Gauss-seidel迭代法、SSOR迭代法编写求解线性方程组Au=f的算法程序-Numerical Solution of the Poisson equation on a square domain boundary value problem, with the first boundary value problem by the oval five-point
Ordinary-Differential-Equations
- 求解常微分方程组,用了四种方法,分别是:先前欧拉、向后欧拉、改进欧拉、RK4方法。-Solution of ordinary differential equations, using the four methods are: the previous Euler, Backward Euler, Improved Euler, RK4 method.
linear-equations
- 求解线性方程组 通过逼近方法逐渐取得线性方程组的解。-Solving linear equations obtained by approximation method for the gradual solution of linear equations.
cSharp-linear-equation
- 用c#实现各类线性方程组的求解的源代码,配套书籍为《C#数值计算算法编程》-C# implementation with all kinds of linear equations to solve the source code, supporting the book as " C# numerical algorithm programming"
NewTon-and-Dolittle
- 计算方法中重要的算法,用Newton迭代法求解非线性方程组,用Dolittle直接分解法计算A的行列式-Important calculation algorithm, using Newton iterative method for solving nonlinear equations, decomposition method with Dolittle direct determinant of A
shuzhi
- 数值分析大作业 --――(高斯列主元消去法求解线性方程组)-Numerical analysis of large operating----( out principal component Gaussian elimination method for solving linear equations)
Solving-nonlinear-equations
- 非线性方程组MATLAB求解的程序,希望能够成功上传,-Solving nonlinear equations MATLAB program
ILPD
- 简单迭代法求矩阵方程,可以方便地求解线性方程组,非常使用。-matrix equation
Method-for-solving-EM-problems
- 提出了一种求解电磁场有限元 边界元混合法所生成的线性方程组的有效方法 ———内观 法结合多波前法.由于该线性方程组的系数是一个部分稀疏部分满填充的矩阵,为了加速求解,应用内观法将系数矩阵分为 2块,一块是有限元法形成的稀疏矩阵,另一块是边界元法生成的满阵,然后用多波前法求解稀疏矩阵方程,用高斯 约当消去法解满阵方程. 采用该方法,计算了二维多层介质柱体的雷达散射截面.计算结果表明,该方法的计算效率远远高于传统的高斯法.-Proposed for solving mixed finite el
Numerical-Analysis
- 数值分析: lagrange插值与三次样条插值 simpson复化积分和两点高斯复化积分 四阶龙格—库塔解微分方程 牛顿下山法求解方程的根 列主元消去法求解线性方程组的根 -Numerical Analysis: lagrange interpolation and cubic spline interpolation simpson recovery of complex points and two points of the Gaussian integral Ru
0qrjava
- 求矩阵特征值和特征向量的算法:QR算法。用于线性方程组的求解,和反幂法算法的设计-Matrix eigenvalues and eigenvectors of the algorithms: QR algorithm. For solving linear equations, and inverse power law algorithm design
solve-linear-equations-in-matlab
- 详细介绍了用迭代法求解线性方程组的方法及其Matlab语言表示。-Iterative method described in detail with the method for solving linear equations and Matlab language said.
M_5_1_Big
- 一个用于求解无对角线性方程组的matlab程序。是通过LU矩阵分解进行求解的。-a matlab program for getting the roots of big linear equations by LU decompisition.