| 3 | | || GUARDYAN (GPU Assisted Reactor Dynamic Analysis) is a continuous energy Monte Carlo (MC) neutron transport code developed at Budapest University of Technology and Economics ([http://www.reak.bme.hu BME]). It targets to solve time-dependent problems related to fission reactors with the main focus on simulating and analyzing short transients. The key idea of GUARDYAN is a massively parallel execution structure making use of advanced programming possibilities available on CUDA (Compute Unified Device Architecture) enabled GPUs (Graphics Processing Units).\\ \\ * '''[wiki:GuarDyan_Aims Aims ]''' \\ * '''[wiki:GuarDyan_features Features ]''' \\ * '''[wiki:GuarDyan_PhysModel Physics Modeling and Verification ]''' \\ * '''[wiki:GuarDyan_VarRedu Variance Reduction ]''' \\ * '''[wiki:GuarDyan_Examples Examples ]''' \\ * '''[wiki:GuarDyan_Publ Publications ]''' \\ * '''[wiki:GuarDyan_Funding Project Participants and Funding ]''' \\ \\ [[Image(woodcock_elastic-scatter.3.png, 600px, title=Neutron density distribution in the BME Training reactor calculated by GUARDYAN)]] \\ ''Fission source time evolution after having started neutrons from a point source at the centre '' || [[Image(BME_OR_1e-6s_n2e26_neutrondensity_Guardyan_v3.jpg, 400px, title=Neutron density distribution in the BME Training reactor calculated by GUARDYAN)]] ''Neutron density distribution in the BME Training reactor calculated by GUARDYAN'' [http://www.reak.bme.hu/oktatoreaktor.html Training Reactor] || |
| | 3 | || GUARDYAN (GPU Assisted Reactor Dynamic Analysis) is a continuous energy Monte Carlo (MC) neutron transport code developed at Budapest University of Technology and Economics ([http://www.reak.bme.hu BME]). It targets to solve time-dependent problems related to fission reactors with the main focus on simulating and analyzing short transients. The key idea of GUARDYAN is a massively parallel execution structure making use of advanced programming possibilities available on CUDA (Compute Unified Device Architecture) enabled GPUs (Graphics Processing Units). |
| | 4 | * '''[wiki:GuarDyan_Aims Aims ]''' \\ |
| | 5 | * '''[wiki:GuarDyan_features Features ]''' \\ |
| | 6 | * '''[wiki:GuarDyan_PhysModel Physics Modeling and Verification ]''' \\ |
| | 7 | * '''[wiki:GuarDyan_VarRedu Variance Reduction ]''' \\ |
| | 8 | * '''[wiki:GuarDyan_Examples Examples ]''' \\ |
| | 9 | * '''[wiki:GuarDyan_Publ Publications ]''' \\ |
| | 10 | * '''[wiki:GuarDyan_Funding Project Participants and Funding ]''' \\ |
| | 11 | |
| | 12 | [[Image(woodcock_elastic-scatter.3.png, 600px, title=Neutron density distribution in the BME Training reactor calculated by GUARDYAN)]] \\ ''Fission source time evolution after having started neutrons from a point source at the centre '' || [[Image(BME_OR_1e-6s_n2e26_neutrondensity_Guardyan_v3.jpg, 400px, title=Neutron density distribution in the BME Training reactor calculated by GUARDYAN)]] ''Neutron density distribution in the BME Training reactor calculated by GUARDYAN'' [http://www.reak.bme.hu/oktatoreaktor.html Training Reactor] || |
