搜索资源列表
SpiralMatrix
- 螺旋矩阵的生成,vc6.0 螺旋矩阵的生成,vc6.0-spiral matrix generation, vc6.0 spiral matrix generation, vc6.0
Lab1
- 自动生成矩阵 输入数字 两个数字 饥渴
Lab2
- 自动生成矩阵 用法简单 用用就知道了
经典矩形问题
- 经典矩形问题 生成各种矩阵是竞赛时经常考的一种题目,如何用C语言或C++生成以下形式几种矩阵:-classic rectangular matrix of various problems generated when the contest is a regular test subject, how to use C or C generated several matrix form :
jaccobi&GS
- jaccobi迭代法和GS迭代法求解线性方程组,并有著名病态对称正定矩阵Hilbert矩阵的生成程序和其不同维数下,求解结果的对比作图-jaccobi iteration and GS iterative method for solving linear equations, and a well-known pathological symmetric positive definite matrix Hilbert matrix formation process and the diff
mysor
- SOR(超松弛)迭代发求解线性方程组问题,带有Hilbert矩阵生成程序和其不同维数下求解的结果对比作图-SOR (Overrelaxation) iteration made for solving linear equations, with Hilbert matrix formation process and the different dimensions of the results evaluated Comparative mapping
MYFEM.rar
- 有限元求解柏松方程。本文采用FORTRAN语言编制程序。程序中大部分变量采用有名公共区存储方式存储,这样可以减少内存占用量。 IFG:生成有限元网格信息,即元素节点局部编码与总体编码对照表,节点实际坐标,边界节点编码与边界点上的已知值 GKD:生成总刚一维存储对角元的地址,计算总刚一维存储长度 FIXP:设置已知节点函数值 GK(NI,NJ,ADJ,AIJ):单元刚度矩阵计算 GF(NI,N,M,LE,YI,FE):单元列阵的计算 AK(I,J,AIJ):总刚度矩阵元素迭加 QEB
1
- 生成导纳矩阵,再对复数导纳矩阵求逆,可用于电路分析,电流计算等程序-Admittance matrix generation, and then on the complex admittance matrix inversion can be used in circuit analysis, current calculation procedures
Possion_FEM
- 有限元求解柏松方程。本文采用FORTRAN语言编制程序。程序中大部分变量采用有名公共区存储方式存储,这样可以减少内存占用量。 IFG:生成有限元网格信息,即元素节点局部编码与总体编码对照表,节点实际坐标,边界节点编码与边界点上的已知值 GKD:生成总刚一维存储对角元的地址,计算总刚一维存储长度 FIXP:设置已知节点函数值 GK(NI,NJ,ADJ,AIJ):单元刚度矩阵计算 GF(NI,N,M,LE,YI,FE):单元列阵的计算 AK(I,J,AIJ):总刚度矩阵元素迭
chaoliu1
- 采用C语言编写的用于处理潮流计算问题的代码,包括生成导纳矩阵和求解雅克比方程组.-Using C language to deal with the issue of power flow calculation code, including admittance to generate Jacobian matrix and solving equations.
linear_blockcode
- 线性分组码的判定,若是线性分组码,则给出其生成矩阵和校验矩阵。-Linear block code to determine, if the linear block code, then the given matrix and calibration matrix of their generation.
strassen
- 1.实现时间复杂度为 Ο (nlg7) strassen矩阵乘法 2. 实现时间复杂度为 Ο(n3) 常规矩阵乘法 3. 能随机生成矩阵 4. 分析比较不同输入规模下的strassen算法与常规矩阵乘法的运行时间-1. To achieve the time complexity of Ο (nlg7) strassen matrix multiplication 2. To achieve the time complexity of Ο (n3) General matrix m
Matrix_Calculator
- 矩阵运算器,可以输入m行n列的矩阵或者自动生成,然后进行加减乘转置等功能-Matrix calculator, type m row n column matrix or automatically generated, and then add or subtract functions by transposition
Homotopy_method
- 求解低阶非线性方程组的同伦方法程序,包括Euler修正迭代算法程序,切矩阵形成,切向量生成程序等。-Nonlinear equations to solve low-order methods and procedures homotopy
MaximumMatching
- 用匈牙利算法实现的任务分配程序,对随机生成的矩阵求出最大匹配-Hungarian algorithm with task allocation procedures, randomly generated matrix of the maximum matching obtained
how-to-produce-H-G-of--LDPC
- 生成LDPC校验矩阵H和生成矩阵G的C语言程序-failed to translate
ldpc
- LCPC编码的C语言描述,给定了校验阵,计算生成矩阵并且进行编码-LCPC coded C language descr iption, given the parity matrix, computing and encoding matrix generation
matrix
- 实现简单方阵的操作。如加,减,乘。运算符重载。文件读取。矩阵随即生成-Simple matrix operation. Such as addition, subtraction, multiplication. Operator overloading. File read. Matrix then generates
ANA2
- 本程序为SVD的matlab代码,包括随机生成矩阵,进行SVD分解,并利用SVD分解进行图像压缩。-This procedure for SVD matlab code, including the random generator matrix, perform SVD decomposition, and image compression using SVD decomposition.
邻接矩阵
- 邻接矩阵,描述多个节点之间的相邻关系,最多16个(Adjacency matrix, describing the adjacent relations between multiple nodes, up to 16)