Difference between revisions of "ALPS 2 Tutorials:Overview"

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* [[ALPS_2_Tutorials:DWA-01_Revisiting_MC05 | DWA-01 Simulating the Bose Hubbard model using dwa QMC code (revisiting tutorial MC-05) ]]
 
* [[ALPS_2_Tutorials:DWA-01_Revisiting_MC05 | DWA-01 Simulating the Bose Hubbard model using dwa QMC code (revisiting tutorial MC-05) ]]
 
* [[ALPS_2_Tutorials:DWA-02_Density_Profile | DWA-02 Density profile of a 3D optical lattice in a harmonic trap ]]
 
* [[ALPS_2_Tutorials:DWA-02_Density_Profile | DWA-02 Density profile of a 3D optical lattice in a harmonic trap ]]
 +
* [[ALPS_2_Tutorials:DWA-03_Time_of_Flight_Images | DWA-03 Time-of-flight images of a 3D optical lattice in a harmonic trap ]]
  
 
'''Exact diagonalization'''
 
'''Exact diagonalization'''

Revision as of 13:01, 16 September 2013



The tutorial web pages shall facilitate the usage of the ALPS software to solve physics problems. These tutorials are compatible with the version 2.0 of the ALPS libraries and applications. For the 1.3 tutorials see here .

ALPS tutorials

General introduction to running simulations using ALPS

Monte Carlo simulations

Monte Carlo simulations -- Directed worm algorithm

Exact diagonalization

Density Matrix Renormalization Group (DMRG)

Dynamical Mean Field Theory (DMFT) solvers

Time-Evolving Block Decimation (TEBD)

ALPS examples

The ALPS examples section provide examples of real simulations, which require more computing resources to run.

Dynamical Mean Field Theory (DMFT) solvers

ALPS code development tutorials

ALPSize tutorial

How to 'alpsize' your application program written in C, C++, or Fortran step by step. It easily becomes possible to use ALPS functionalities, such as Parameters and Alea, as well as ALPS scheduler by packaging with CMake and setting the link with the ALPS library.