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gprmax
- gprMax 是利用有限差分时域 (fdtd) 方法求解3D 麦克斯韦方程组,用来模拟探地雷达而设计的, 但也可用于为许多其它应用建立电磁波传播模型。(The Gprmax is designed by using the finite difference Time-domain (FDTD) method to simulate the 3D Maxwell equations, but it can also be used to establish electromagnetic wav
新建文件夹 (2)
- 雅可比迭代的MATLAB代码,可以求解一些线性方程组 用鼠标作图(The MATLAB code of Jacobi iterative, you can solve some linear equations Plot with a mouse)
ILP
- 病态线性方程组的一些求解算法,包括传统的CG,CGLS,CGNR,LSQR和较新的OVM算法,它们都是一些迭代算法。(Some solving algorithms for ill conditioned linear equations include conventional CG, CGLS, CGNR, LSQR, and newer OVM algorithms, all of which are iterative algorithms.)
经典牛顿迭代法C++实例
- 使用c++实现了牛顿迭代法的求解方程组的过程。(The use of c++ to achieve the Newton iterative method for solving equations process.)
列主元高斯消去法c++
- 利用c++语言实现了列主元高斯消去法求解方程组的过程。(Using c++ language to achieve the main element Gauss elimination method for solving equations process.)
bkraew
- 数值方法中用c++编写的数值矩阵直接三角分解法求解线形方程组的算法,(The numerical method is used in c + + written numerical matrix directly triangle decomposition method algorithm for solving linear equations,)
caoz
- 数值方法里面的用lagrange插值发求解线形方程的算法,可以用来解线形方程组的习题(The inside of the numerical methods used though laser hair interpolation algorithm for solving linear equations, problem sets can be used to solve the linear system of equations)
特殊矩阵1
- 利用变参数追赶法求解周期三对角线性方程组的matlab程序(Matlab program for solving three diagonal linear equations by using variable parameter pursuit method)
MATLAB使用欧拉Euler法求解微分方程组 源程序代码
- Matlab欧拉法解微分方程的程序源代码,供matlab学习使用(Matlab Euler solution of differential equations of the program source code, for learning to use matlab)
常用数值算法--C语言
- 常用数值算法,C语言实现,尤其针对求解多重微分方程组数值解、求多重积分有帮助(Commonly used numerical algorithm, C language implementation, especially for solving multiple differential equations of numerical solution. It is very helpful for you to seek multiple points.)
111
- 列主元高斯消去法的matlab实现,适用于求解线性方程组(Matlab implementation of Gauss elimination of column principal component)
Data.PS科学计算与绘图软件
- Data.PS功能简介:本数据处理软件内置表格编辑器,可以方便的进行数据输入输出;可以进行常见的(a)数值计算,如求解线性方程组、非线性方程组、常微分方程组、多项式求根、傅里叶变换、傅里叶逆变换、线性规划求解、多元线性回归和多元非线性回归参数拟合(20参数)、插值、微分、积分、求逆矩阵、矩阵特征值和特征向量、行列式值;(b)统计分析,统计描述、频数分布、假设检验、正态分布检验、二项式分布检验、泊松分布检验、相关性分析、方差分析;(c)6Sigman工具,过程能力CPK计算、测量系统分析MSA、公
高斯消去法
- 使用原始高斯消去法求解线性方程组,用Python进行实现(The original Gauss elimination method is used to solve the system of linear equations, and Python is used to realize it)
SOR
- 超松驰迭代法,用于快速求解线性方程组,可按每行注释理解算法原理,可自行调整松弛因子(一般建议1.2左右有良好效果)(The super relaxation iteration method is used to solve the linear equations quickly. It can understand the algorithm principle according to each row annotation, and can adjust the relaxation f
mwjan
- Gauss列主消元法,用于求解线性方程组,c代码,()
共轭梯度
- 求解大型对称正定线性方程组,内含收敛率计算,迭代步数和结果。(To solve large symmetric positive definite linear equations, the calculation of convergence rate, the number of iterations and the results are found.)
yfajzv
- 用VB实现线性方程组的求解,包括:高斯消元法,LU分解法追赶法,迭代法,奇异值分解,乔累斯基分解法等12种数值方法,()
中国剩余定理
- 中国剩余定理是中国古代算数智慧的结晶,本程序将中国剩余定理用密码学数学的方法实现。实质为一次同余方程组的求解过程。(The Chinese remainder theorem is the crystallization of the Chinese ancient arithmetical wisdom. This program uses the method of cryptology to realize the Chinese remainder theorem. In essence
sdaoi
- 用乔里斯基(cholesky)算法求解对称正定方程组,()
smcg
- 共轭梯度法求解N*N对称正定方程组,将解方程组问题转化一个最优化问题。(The conjugate gradient method is used to solve the N*N symmetric positive definite equations, and the problem of solving the equation set is transformed into an optimization problem.)