登录
首页 » Visual C++ » wavepacket-cpp-0.1.1b

wavepacket-cpp-0.1.1b

于 2020-07-04 发布 文件大小:304KB
0 388
下载积分: 1 下载次数: 15

代码说明:

  c++编写的小波包算法,可以实现小波包分解与重构,速度较快(A wavelet packet implementation written in C++, does wavepacket decomposition and reconstruction quite efficiently)

文件列表:

wavepacket-cpp-0.1.1b
.....................\AUTHORS,146,2016-09-13
.....................\Demos
.....................\.....\FreeParticle
.....................\.....\............\Gaussian_1D
.....................\.....\............\...........\1
.....................\.....\............\...........\.\demo.cpp,2707,2016-09-13
.....................\.....\............\...........\.\Makefile,687,2016-09-13
.....................\.....\HarmonicOscillator
.....................\.....\..................\Gaussian_1D
.....................\.....\..................\...........\1
.....................\.....\..................\...........\.\demo.cpp,3234,2016-09-13
.....................\.....\..................\...........\.\Makefile,687,2016-09-13
.....................\.....\..................\Gaussian_2D
.....................\.....\..................\...........\1
.....................\.....\..................\...........\.\demo.cpp,3337,2016-09-13
.....................\.....\..................\...........\.\Makefile,687,2016-09-13
.....................\.....\Makefile,506,2016-09-13
.....................\deploy
.....................\......\readme,61,2016-09-13
.....................\doc
.....................\...\builder.doc,115,2016-09-13
.....................\...\complexutil.doc,127,2016-09-13
.....................\...\doxygen.config,99426,2016-09-13
.....................\...\extern.doc,105,2016-09-13
.....................\...\functor.doc,139,2016-09-13
.....................\...\grid.doc,91,2016-09-13
.....................\...\operator.doc,79,2016-09-13
.....................\...\propagator.doc,109,2016-09-13
.....................\...\util.doc,79,2016-09-13
.....................\GPL.txt,18092,2016-09-13
.....................\include
.....................\.......\builder
.....................\.......\.......\StateBuilder.hpp,4567,2016-09-13
.....................\.......\complexutil
.....................\.......\...........\RedfieldBuilder.hpp,8560,2016-09-13
.....................\.......\extern
.....................\.......\......\odeint_impl.hpp,5747,2016-09-13
.....................\.......\......\tensordefs.hpp,1078,2016-09-13
.....................\.......\functor
.....................\.......\.......\misc
.....................\.......\.......\....\Interpolator.hpp,2163,2016-09-13
.....................\.......\.......\potentials
.....................\.......\.......\..........\HarmonicFunction.hpp,2520,2016-09-13
.....................\.......\.......\..........\MorseFunction.hpp,1910,2016-09-13
.....................\.......\.......\state
.....................\.......\.......\.....\Gaussian.hpp,2064,2016-09-13
.....................\.......\.......\.....\HarmonicState.hpp,2259,2016-09-13
.....................\.......\.......\.....\MorseState.hpp,2780,2016-09-13
.....................\.......\grid
.....................\.......\....\FFTGrid.hpp,3115,2016-09-13
.....................\.......\....\Grid.hpp,5966,2016-09-13
.....................\.......\....\Representation.hpp,3258,2016-09-13
.....................\.......\operator
.....................\.......\........\LinearOperator.hpp,3449,2016-09-13
.....................\.......\........\LiouvilleOperator.hpp,1295,2016-09-13
.....................\.......\........\liouvillian
.....................\.......\........\...........\CommutatorLiouvillian.hpp,2191,2016-09-13
.....................\.......\........\...........\LindbladLiouvillian.hpp,3293,2016-09-13
.....................\.......\........\...........\OneSidedLiouvillian.hpp,2245,2016-09-13
.....................\.......\........\...........\RedfieldLiouvillian.hpp,4237,2016-09-13
.....................\.......\........\...........\SumLiouvillian.hpp,2615,2016-09-13
.....................\.......\........\operations.hpp,2326,2016-09-13
.....................\.......\........\OperatorMatrix.hpp,6122,2016-09-13
.....................\.......\........\OperatorPrimitive.hpp,6412,2016-09-13
.....................\.......\........\primitive
.....................\.......\........\.........\CartesianKineticEnergy.hpp,3015,2016-09-13
.....................\.......\........\.........\Constant.hpp,2832,2016-09-13
.....................\.......\........\.........\CoordinateOperator.hpp,2401,2016-09-13
.....................\.......\........\.........\GenericOperator.hpp,2576,2016-09-13
.....................\.......\........\.........\MomentumOperator.hpp,2627,2016-09-13
.....................\.......\........\.........\Potential1D.hpp,3633,2016-09-13
.....................\.......\........\.........\PotentialND.hpp,3391,2016-09-13
.....................\.......\........\.........\potentials.hpp,2756,2016-09-13
.....................\.......\........\.........\PrimitiveProduct.hpp,2626,2016-09-13
.....................\.......\........\.........\PrimitiveSum.hpp,2423,2016-09-13
.....................\.......\........\.........\TensorOperator.hpp,2849,2016-09-13
.....................\.......\........\.........\TimeFunction.hpp,2945,2016-09-13
.....................\.......\........\SchroedingerOperator.hpp,2217,2016-09-13
.....................\.......\propagator
.....................\.......\..........\observer
.....................\.......\..........\........\LoggingOutput.hpp,2350,2016-09-13
.....................\.......\..........\primitive
.....................\.......\..........\.........\ChebychevHelper.hpp,3031,2016-09-13
.....................\.......\..........\.........\ChebychevPrimitive.hpp,4275,2016-09-13
.....................\.......\..........\.........\ChebychevRelax.hpp,3584,2016-09-13
.....................\.......\..........\.........\OdePrimitive.hpp,5840,2016-09-13
.....................\.......\..........\.........\OdeRelax.hpp,4813,2016-09-13
.....................\.......\..........\.........\ode_private.hpp,2335,2016-09-13
.....................\.......\..........\PropagationObserver.hpp,2844,2016-09-13
.....................\.......\..........\Propagator.hpp,4601,2016-09-13
.....................\.......\..........\PropagatorPrimitive.hpp,3892,2016-09-13
.....................\.......\util
.....................\.......\....\file_utils.hpp,3251,2016-09-13
.....................\.......\....\Manipulator.hpp,6838,2016-09-13
.....................\.......\....\special_functions.hpp,1369,2016-09-13
.....................\.......\....\wp_exceptions.hpp,6475,2016-09-13
.....................\.......\wavepacket.hpp,2845,2016-09-13
.....................\htm" target=_blank>LICENSE,463,2016-09-13
.....................\Makefile,2452,2016-09-13

下载说明:请别用迅雷下载,失败请重下,重下不扣分!

发表评论

0 个回复

  • qiuni
    C语言矩阵求逆模块,输入矩阵调用此模块即可求出对应的逆矩阵(C language matrix inversion module)
    2013-12-16 21:18:18下载
    积分:1
  • GPKolmogorov
    This file contains a summary of what you will find in each of the files that make up your GPKolmogorov application.
    2008-03-27 22:07:01下载
    积分:1
  • C
    说明:  含随机出题(四则运算)及其迭代程序、返回数组中最大子数组和及其迭代程序等。(Software class operations, including four operations and iterative procedure, returns an array of sub-arrays and the largest and Iterative procedures)
    2016-07-01 08:32:22下载
    积分:1
  • LM3S_ADC
    LM3S例程系列,非常实用。 代码稍加修改即可使用。(LM3S routine series, very practical. The code is slightly modified can be used.)
    2012-07-25 11:59:28下载
    积分:1
  • vf-udf
    膜渗透 FUENT UDF 气液两相流 (Gas-liquid two-phase flow membrane permeation FUENT UDF)
    2020-12-01 16:09:26下载
    积分:1
  • Simplex method for linear programming
    线性规划中的单纯形法的c实现,代码有测试类,(Simplex method for linear programming)
    2017-08-25 11:03:43下载
    积分:1
  • multiplication-table
    只是一个课堂上做的九九乘法表,可能很多人做过(Just a class to do multiplication table, many people may have done)
    2011-10-21 19:43:24下载
    积分:1
  • Rongekutta
    四阶龙格库塔法函数更新四元数程序代码,采用VC编写(Fourth-order Runge-Kutta method function is updated quaternion code)
    2010-03-03 21:53:15下载
    积分:1
  • na7
    Orthogonal Polynomials Approximation 数值分析,计算正交基多项式的系数 (Given a function f and a set of m >0 distinct points . You are supposed to write a function to approximate f by an orthogonal polynomial using the exact function values at the given m points with a weight assigned to each point . The total error must be no larger than a given tolerance. Format of function int OPA( double (*f)(double t), int m, double x[], double w[], double c[], double*eps ) where the function pointer double (*f)(double t) defines the function f int m is the number of points double x[] contains points double w[] contains the values of a weight function at the given points x[] double c[] contains the coefficients of the approximation polynomial double*eps is passed into the function as the tolerance for the error, and is supposed to be returned as the value of error. The function OPA is supposed to return the degree of the approximation polynomial. Note: a constant Max_n is defined so that if the total error is still not small enough when n = Ma)
    2011-11-27 11:47:21下载
    积分:1
  • 1parallel
    用于FLUENT计算结构单自由度涡激振动,采用四阶龙哥库塔法,并设置了并行计算(FLUENT, VIV, Fourth order Runge-Kutta )
    2016-09-30 18:49:07下载
    积分:1
  • 696516资源总数
  • 106914会员总数
  • 0今日下载