Difference between revisions of "ALPS 2 Tutorials:Overview"

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The tutorial web pages shall facilitate the usage of the ALPS software to solve physics problems.
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このチュートリアルは、ALPSソフトウェアバージョン2.0を利用し、いくつかの物理現象の計算例を説明します。
These  tutorials are compatible with the version 2.0 of the ALPS libraries and applications.  For the 1.3 tutorials see [[Tutorials:Overview | here ]]
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バージョン1.3のチュートリアルは[[Tutorials:Overview | こちら ]]を参照してください。
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<!--The tutorial web pages shall facilitate the usage of the ALPS software to solve physics problems.
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These  tutorials are compatible with the version 2.0 of the ALPS libraries and applications.  For the 1.3 tutorials see [[Tutorials:Overview | here ]]-->
 
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==  ALPS tutorials ==
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==  ALPS チュートリアル ==
  
'''General introduction to running simulations using ALPS''' <br/>
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<!--'''General introduction to running simulations using ALPS''' <br/>-->
*  [[Documentation:Running_ALPS_Simulations |  '''Running and evaluating simulations using ALPS''' ]]
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'''ALPSを用いたシミュレーションの概要''' <br/>
** [[ALPS_using_the_command_line | Using the command line ]] (with limited evaluation tools)
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*  [[Documentation:Running_ALPS_Simulations/ja |  '''ALPSの実行方法''' ]]
** [[ALPS_using_Python | Using Python]]
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** [[ALPS_using_the_command_line/ja | コマンドラインの使用 ]] (利用できる機能は限定)
** [[ALPS_using_Vistrails| Using  the provenance-enabled Vistrails workflow system]]
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** [[ALPS_using_Python/ja | Pythonの使用]]
*  [[Tutorials:LatticeHOWTO |  Definition of lattices]]   
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** [[ALPS_using_Vistrails/ja| ワークフロー管理システムVistrailsの使用]]
*  [[Tutorials:ModelHOWTO |  Definition of models]]   
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*  [[Tutorials:LatticeHOWTO/ja 格子の定義]]   
*  [[Tutorials:MeasureHOWTO | Definition of custom measurements]]   
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*  [[Tutorials:ModelHOWTO/ja モデルの定義]]   
*  [[Tutorials:Parameters |  Common parameters]]   
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*  [[Tutorials:MeasureHOWTO/ja | 解析方法の定義]]   
*  [[Tutorials:Measurements |  Common hardcoded measurements]]   
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*  [[Tutorials:Parameters/ja 一般的なパラメータ]]   
*  [[ALPS_2_Tutorials:ToolsHOWTO |  The tools]]   
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*  [[Tutorials:Measurements/ja 一般的な計算方法]]   
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*  [[ALPS_2_Tutorials:ToolsHOWTO/ja ツールの利用法]]   
  
'''Monte Carlo simulations'''
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'''モンテカルロシミュレーション'''
* [[ALPS_2_Tutorials:MC-01_Autocorrelations |  MC-01 Classical Monte Carlo simulations and autocorrelations ]]
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<!--* [[ALPS_2_Tutorials:MC-01_Autocorrelations/ja |  MC-01 Classical Monte Carlo simulations and autocorrelations ]]-->
* [[ALPS_2_Tutorials:MC-02_Susceptibilities |  MC-02 Calculating magnetic susceptibilities by the classical MC and looper QMC codes ]]
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* [[ALPS_2_Tutorials:MC-01_Autocorrelations/ja |  MC-01 古典モンテカルロシミュレーションと自己相関 ]]
* [[ALPS_2_Tutorials:MC-03_Magnetization |  MC-03 Calculating magnetization curves by the directed loop QMC code ]]
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<!--* [[ALPS_2_Tutorials:MC-02_Susceptibilities/ja |  MC-02 Calculating magnetic susceptibilities by the classical MC and looper QMC codes ]]-->
* [[ALPS_2_Tutorials:MC-04_Measurements |  MC-04 Custom measurements in the QMC codes ]]
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* [[ALPS_2_Tutorials:MC-02_Susceptibilities/ja |  MC-02 古典MC、looperQMCコードによる磁化率の計算 ]]
* [[ALPS_2_Tutorials:MC-05_Bosons |  MC-05 Simulating the Bose-Hubbard model using the worm QMC code ]]
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* [[ALPS_2_Tutorials:MC-03_Magnetization/ja |  MC-03 有向ループQMCコードによる磁化曲線の計算 ]]
* [[ALPS_2_Tutorials:MC-06_QWL |  MC-06 Extended ensemble simulations (Quantum Wang-Landau) ]]
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* [[ALPS_2_Tutorials:MC-04_Measurements/ja |  MC-04 QMCコードによるユーザ定義計算 ]]
* [[ALPS_2_Tutorials:MC-07_Phase_Transition |  MC-07 Phase transition in the Ising model ]]
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* [[ALPS_2_Tutorials:MC-05_Bosons/ja |  MC-05 ワームQMCコードによるBose-Hubbardモデルのシミュレーション ]]
* [[ALPS_2_Tutorials:MC-08_Quantum_Phase_Transition |  MC-08 Quantum phase transition in a quantum spin model ]]
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* [[ALPS_2_Tutorials:MC-06_QWL/ja |  MC-06 拡張アンサンブル計算 (Wang-Landau) ]]
* [[Comments:_which_code_to_choose_for_your_calculation |  Comments: Which QMC code should you choose for your problem?]]
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* [[ALPS_2_Tutorials:MC-07_Phase_Transition/ja |  MC-07 イジングモデルの相転移 ]]
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* [[ALPS_2_Tutorials:MC-08_Quantum_Phase_Transition/ja |  MC-08 量子スピンモデルの量子相転移 ]]
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* [[Comments:_which_code_to_choose_for_your_calculation/ja コメント: どのQMCコードを選ぶべきか?]]
  
'''Exact diagonalization'''
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'''厳密対角化'''
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<!--'''Exact diagonalization'''-->
  
*  [[ALPS_2_Tutorials:ED-01_SparseDiagonalization |  ED-01 Sparse Diagonalization (Lanczos)]]
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*  [[ALPS_2_Tutorials:ED-01_SparseDiagonalization/ja |  ED-01 ランチョス法による疎行列の対角化]]
*  [[ALPS_2_Tutorials:ED-02_Gaps |  ED-02 Spin gaps of 1D quantum systems ]]  
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*  [[ALPS_2_Tutorials:ED-02_Gaps/ja |  ED-02 1次元量子系でのスピンギャップ ]]  
*  [[ALPS_2_Tutorials:ED-03_Spectra |  ED-03 Spectra of 1D quantum systems ]]  
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*  [[ALPS_2_Tutorials:ED-03_Spectra/ja |  ED-03 1次元量子系でのスペクトル ]]  
*  [[ALPS_2_Tutorials:ED-04_Criticality | ED-04 Conformal field theory description of 1D critical spectra ]]  
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<!--*  [[ALPS_2_Tutorials:ED-04_Criticality | ED-04 Conformal field theory description of 1D critical spectra ]] -->
*  [[ALPS_2_Tutorials:ED-05_ED_Phase_Transition |  ED-05 Phase transition in a frustrated spin chain ]]  
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*  [[ALPS_2_Tutorials:ED-04_Criticality/ja | ED-04 1次元臨界スペクトルの共形場理論 ]]  
*  [[ALPS_2_Tutorials:ED-06_FullDiagonalization |  ED-06 Full Diagonalization ]]  
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*  [[ALPS_2_Tutorials:ED-05_ED_Phase_Transition/ja |  ED-05 フラストレートスピン鎖の相転移 ]]  
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*  [[ALPS_2_Tutorials:ED-06_FullDiagonalization/ja |  ED-06 完全対角化 ]]  
  
'''Density Matrix Renormalization Group (DMRG)'''
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'''密度行列繰り込み群 (DMRG)'''
  
* [[ALPS_2_Tutorials:DMRG-01_DMRG |  DMRG-01 Density Matrix Renormalization Group Introduction ]]
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* [[ALPS_2_Tutorials:DMRG-01_DMRG/ja |  DMRG-01 DMRGの概要 ]]
* [[ALPS_2_Tutorials:DMRG-02_Gaps |  DMRG-02 Calculating gaps ]]
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* [[ALPS_2_Tutorials:DMRG-02_Gaps/ja |  DMRG-02 ギャップ計算 ]]
* [[ALPS_2_Tutorials:DMRG-03_Local_Observables |  DMRG-03 Calculating local observables ]]
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* [[ALPS_2_Tutorials:DMRG-03_Local_Observables/ja |  DMRG-03 ​局​所​観​測​量の計算 ]]
* [[ALPS_2_Tutorials:DMRG-04_Correlations |  DMRG-04 Calculating correlations ]]
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* [[ALPS_2_Tutorials:DMRG-04_Correlations/ja |  DMRG-04 相関関数の計算 ]]
  
'''Dynamical Mean Field Theory (DMFT) solvers'''
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<!--'''Dynamical Mean Field Theory (DMFT) solvers'''-->
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'''動的平均場 (DMFT)の解法'''
  
* [[ALPS_2_Tutorials:DMFT-01_Intro |  DMFT-01 An introduction to Continuous-Time QMC impurity solver algorithms]]
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<!--* [[ALPS_2_Tutorials:DMFT-01_Intro/ja |  DMFT-01 An introduction to Continuous-Time QMC impurity solver algorithms]]-->
* [[ALPS_2_Tutorials:DMFT-02_Hybridization |  DMFT-02 CT-HYB: the CT-HYB QMC solver]]
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* [[ALPS_2_Tutorials:DMFT-01_Intro/ja |  DMFT-01 連続時間量子モンテカルロ不純物解法アルゴリズムの概要]]
* [[ALPS_2_Tutorials:DMFT-03_Interaction |  DMFT-03 CT-INT: the CT-INT QMC solver]]
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* [[ALPS_2_Tutorials:DMFT-02_Hybridization/ja |  DMFT-02 CT-HYB: CT-HYP法]]
* [[ALPS_2_Tutorials:DMFT-04_Mott |  DMFT-04 Mott Transition ]]
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* [[ALPS_2_Tutorials:DMFT-03_Interaction/ja |  DMFT-03 CT-INT: CT-INT法]]
* [[ALPS_2_Tutorials:DMFT-05_OSMT |  DMFT-05 Orbitally Selective Mott Transition ]]
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* [[ALPS_2_Tutorials:DMFT-04_Mott/ja |  DMFT-04 モット転移 ]]
* [[ALPS_2_Tutorials:DMFT-06_Paramagnet |  DMFT-06 Paramagnetic metal ]]
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* [[ALPS_2_Tutorials:DMFT-05_OSMT/ja |  DMFT-05 軌道選択型モット転移 ]]
* [[ALPS_2_Tutorials:DMFT-07_Hirsch-Fye |  DMFT-07 The Hirsch-Fye solver ]]
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* [[ALPS_2_Tutorials:DMFT-06_Paramagnet/ja |  DMFT-06 常磁性金属 ]]
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* [[ALPS_2_Tutorials:DMFT-07_Hirsch-Fye/ja |  DMFT-07 Hirsch-Fyeアルゴリズム ]]
  
 
'''Time-Evolving Block Decimation (TEBD)'''
 
'''Time-Evolving Block Decimation (TEBD)'''
* [[ALPS_2_Tutorials:TEBD-01_bhquench | TEBD-01 Quenches in the hardcore boson model]]
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* [[ALPS_2_Tutorials:TEBD-01_bhquench/ja | TEBD-01 ハードコアボゾンモデルのクエンチ]]
* [[ALPS_2_Tutorials:TEBD-02_kink | TEBD-02 Time Evolution of a domain wall in the XX model]]
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<!--* [[ALPS_2_Tutorials:TEBD-02_kink/ja | TEBD-02 Time Evolution of a domain wall in the XX model]]-->
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* [[ALPS_2_Tutorials:TEBD-02_kink/ja | TEBD-02 XXモデルにおける磁壁の時間発展]]
 
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==  ALPS examples  ==
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==  ALPS計算例 ==
  
The ALPS examples section provide examples of real simulations, which require more computing resources to run.  
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<!--The ALPS examples section provide examples of real simulations, which require more computing resources to run. -->
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ALPSの実際のシミュレーション例を紹介します。大規模な計算資源を必要とします。
  
'''Dynamical Mean Field Theory (DMFT) solvers'''
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<!--'''Dynamical Mean Field Theory (DMFT) solvers'''-->
* [[ALPS_2_Examples:Neel_Transition |  Néel transition in single site DMFT]]
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'''動的平均場 (DMFT)の解法'''
* [[ALPS_2_Examples:Paramagnetic_Metal | Paramagnetic metal and extrapolation errors ]]
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* [[ALPS_2_Examples:Neel_Transition/ja |  Néel transition in single site DMFT]]
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* [[ALPS_2_Examples:Neel_Transition/ja |  単一サイトDMFTのNéel転移]]
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* [[ALPS_2_Examples:Paramagnetic_Metal/ja | 常磁性金属と外挿誤差]]
  
 
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Revision as of 02:26, 10 February 2012



このチュートリアルは、ALPSソフトウェアバージョン2.0を利用し、いくつかの物理現象の計算例を説明します。 バージョン1.3のチュートリアルは こちら を参照してください。

ALPS チュートリアル

ALPSを用いたシミュレーションの概要

モンテカルロシミュレーション

厳密対角化

密度行列繰り込み群 (DMRG)

動的平均場 (DMFT)の解法

Time-Evolving Block Decimation (TEBD)

ALPS計算例

ALPSの実際のシミュレーション例を紹介します。大規模な計算資源を必要とします。

動的平均場 (DMFT)の解法