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Efficient-processing-of-multiple-contacts-in-MPP-
- Complex models often contain more than just a few contact interfaces. The decomposition of such a model can result in an uneven distribution of these contacts among the available processors. Some contacts may lie wholly on a single processor, whi
[neubt]PFC3D-v3.10
- 离散元程序pfc3d,模拟任意大小球形颗粒的集合体的动力学行为,可以自动生成统计学上特定分布形式的颗粒集合-Discrete element program pfc3d, simulate dynamic behavior of any size spherical particles aggregate, can automatically generate statistical distribution of the particular form of the particle coll
Jacobi
- 串行实现Jacobi迭代的关于在曲线内热分布问题的实现,当温度趋于稳定时,最终温度大于10的面积-Serial achieve Jacobi iteration on heat distribution curve in realizing the problem, when the temperature is stabilized, the final temperature of greater than 10 area
GMM
- 高斯混合模型GMM的C++实现 在高斯混合模型中需要使用概率更新参数的地方,程序中都简化成为了1处理,否则计算一个正态分布的概率还是挺花时间的。但是除了将概率换成1,其他地方还是严格按照公式的,大家可以仔细推导一下,就会看出其中的差异- Gaussian mixture model GMM C++ implementation In the Gaussian mixture model parameters need to use probability to upd
MIE
- 计算不同大小球形粒子集合的散射,粒子大小分布在fd.m文件中更改-calculation of scattering by sphere particles which has different sizes discribed by a distribution function
task1-2
- 用一万个均匀分布数据采用逆变换法产生一万个瑞利分布数据。-Produce ten thousand Rayleigh distribution data with a uniform distribution of 10,000 data using the inverse transform method.
McMC_test
- python code for stard Markov chain Monte Carlo algorithm. In this example, MCMC is used to find position of high probability of a simple distribution function. Application in identification of model parameters is similar in that the highest probable
PSO
- 利用粒子群优化算法查找物资分配问题的最优解-Optimal solution using particle swarm optimization algorithm to find the material distribution problems
wind_model
- The evolution the speed of wind according to time is modelized by a function analytical or generated by a statistical law starting the data of measurement for a given site. In a context of theoretical modeling, the profile of wind must satisfy two cr
zipf
- 可以用matlab来验证经典的zipf分布定律。-Can be used to verify the classic zipf matlab distribution law.
MATLAB
- 有限差分法计算静电场问题,有限差分法计算在二维情况下静电场的分布情况,近场分布。-Finite difference method to calculate the electrostatic field, the finite difference method to calculate the 2-d cases, the distribution of electrostatic field, the near field distribution.
sharpOCCAM2D
- 海洋大地电磁二维OCCAM尖锐边界反演程序。-Sharp boundary OCCAM2D MT Inversion Catherine de Groot-Hedlin and Steve Constable This code is not part of the Version 3.0 f90 distribution, but is Catherine s original f77 distribution. Fortran Source Code:
main
- 用牛顿法迭代求解泊松方程,以计算PN结的内建电势分布并绘制能带图,进一步模拟空间电荷区宽度-Use Newton method to solve the Poisson equation in order to calculate the PN junction potential distribution and draw energy band diagram . And simulate the space charge region width
Square_Coaxial
- 采用有限差分法原理对方形同轴线进行研究,计算分析了方同轴线TM波的两个最低模式的色散特性以及其横截面的场分布。利用Matlab编程得到了方同轴线中TM波两个最低模式的色散曲线,横截面的电磁场分布,并将所得到的结果与仿真软件得到的结果相对比,以验证所编写程序的正确性和有限差分法的适用性。-Finite difference method using the principle of the square coaxial study, calculate and analyze the disper
2DFDTDphotoniccrystals
- 用matlab语言采用FDTD算法计算了二维光子晶体的电场变化-It depicts electric field distribution of two-dimensional photonic crystal
example
- example for finding load flow in distribution networks
EMAlgorithm
- 运用EM算法生成任意条件下的二维高斯分布-Using the EM algorithm to generate a two-dimensional Gaussian distribution in any condition
MHAlgorithm
- 运用Metropolis-Hasting算法生成任意的二维高斯分布-Use Metropolis-Hasting algorithm to generate an arbitrary two-dimensional Gaussian distribution
hundun_Lyapunov
- 以 xn 1 sin xn 为迭代方程 (1) 画出系统状态随参数 的变化图,要求至少放大其中一个倍周期窗口 (2) 任选几个可使系统进入混沌态的参数 λ, 统计每一 个参数 λ 对应的方程迭代过程中 x 的分布情况? (3)画出相应的 Lyapunov 指数随参数 的变化图。-In xn 1 sin xn iterative
schrage_prmt_cpp
- Simple implementation of Schrage algorithm with distribution of tasks in C++ with example data file.