Simple and Efficient Parallelization Method for MOC Calculation
スポンサーリンク
概要
- 論文の詳細を見る
A parallelization method that does not entail much data communication and allows easy implementation was developed for the method of characteristics (MOC). In the parallelization method, azimuthal angles were grouped to compute, on the same processor, the angular flux before and after the reflection on the outer boundary. The method can be easily applied to existing MOC codes without the highly technical knowledge on efficient data communication in parallel computing. It was implemented into the GALAXY code and numerical comparisons were performed. As a result, computation speedup by a factor of 9 to 10 and good parallel efficiencies of 70 to 80% were achieved by using twelve processors. The speedup benefits the practical reactor core design using MOC codes. Other than the parallel efficiency, the proposed method allows easy implementation because no drastic change in the conventional algorithm for existing sequential process codes is needed. This is carried out with the absence of data communication between processors during the inner iteration of MOC with the proposed method.
- 2010-01-01
著者
-
YAMAJI Kazuya
Method and Software Development Group, Reactor Core Engineering Department, Mitsubishi Heavy Industr
-
MATSUMOTO Hideki
Method and Software Development Group, Reactor Core Engineering Department, Mitsubishi Heavy Industr
-
SATO Daisuke
Method and Software Development Group, Reactor Core Engineering Department, Mitsubishi Heavy Industr
-
KIRIMURA Kazuki
Division of Sustainable Energy and Environmental Engineering, Graduate School of Engineering, Osaka
-
TAKEDA Toshikazu
Division of Sustainable Energy and Environmental Engineering, Graduate School of Engineering, Osaka
-
Yamaji Kazuya
Method And Software Development Group Reactor Core Engineering Department Mitsubishi Heavy Industrie
-
Takeda Toshikazu
Div. Of Sustainable Energy And Enviromental Engineering Graduate School Of Engineering Osaka Univ.
-
Takeda Toshikazu
Department Of Sustainable Energy And Environmental Engineering Graduate School Of Engineering Osaka
-
Takeda Toshikazu
Division Of Sustainable Energy And Environmental Engineering Graduate School Of Engineering Osaka Un
-
MATSUMOTO Hideki
Mitsubishi Heavy Industries, Ltd.
-
Kirimura Kazuki
Division Of Sustainable Energy And Environmental Engineering Graduate School Of Engineering Osaka Un
-
Matsumoto Hideki
Method And Software Development Group Reactor Core Engineering Department Mitsubishi Heavy Industrie
-
Takeda Toshikazu
Division Of Sustainable Energy And Environment Engineering Graduate School Of Engineering Osaka Univ
-
Takeda Toshikazu
Division Of Sustainable Energy And Environmental Engineering Graduate School Of Engineering Osaka Un
-
Sato Daisuke
Method And Software Development Group Reactor Core Engineering Department Mitsubishi Heavy Industrie
関連論文
- Analysis of the Main Steam Line Break Benchmark (Phase II) Using ANCK/MIDAC Code
- Simple and Efficient Parallelization Method for MOC Calculation
- Analysis of the SPERT-III E-Core Using ANCK Code with the Chord Weighting Method
- The Verification of 3 Dimensional Nodal Kinetics Code ANCK Using Transient Benchmark Problems
- Prediction Accuracy Improvement of Neutronic Characteristics of a Breeding Light Water Reactor Core by Extended Bias Factor Methods with Use of FCA-XXII-1 Critical Experiments
- Depletion Calculations for PWR Assemblies including Burnable Absorbers with Lattice Code PARAGON
- Spatially Dependent Self-Shielding Method with Temperature Distribution for the Two-Dimensional Transport Code PARAGON
- Development of Spatially Dependent Resonance Shielding Method
- Applicability of Constant Flux Approximation in Method of Characteristics with Filtering to Tiny Regions
- Theoretical Study on New Bias Factor Methods to Effectively Use Critical Experiments for Improvement of Prediction Accuracy of Neutronic Characteristics
- Sensitivity Analysis based on Transport Theory
- Evaluation of Prediction Error Reduction for Breeding Ratio by Bias Factor Method with Use of Experimental Result on Basic Reaction Rate Ratio
- Generalized Bias Factor Method for Accurate Prediction of Neutronics Characteristics
- A New Uncertainty Reduction Method for Fuel Fabrication Process with Erbia-Bearing Fuel
- Extension of Effective Cross Section Calculation Method for Neutron Transport Calculations in Particle-dispersed Media
- A Complement Proposal for Optimization of Subgroup Parameters
- Advanced resonance self-shielding method for gray resonance treatment in lattice physics code GALAXY
- Spatially Dependent Self-Shielding Method with Temperature Distribution for the Two-Dimensional Transport Code PARAGON