Development of GPU-based Monte Carlo Simulator for radiation physics<br />at subcellular scale: “MPEXS-DNA”

Shogo Okada; Koichi Murakami; Katsuya Amako; Takashi Sasaki; Akinori Kimura; Tatsumi Koi; Makoto Asai; Andorea Dotti; Margot Gerritsen; Sebastien Incerti

9:00 AM - 9:15 AM

[20a-A304-1] Development of GPU-based Monte Carlo Simulator for radiation physics
at subcellular scale: “MPEXS-DNA”

〇Shogo Okada¹, Koichi Murakami¹, Katsuya Amako¹, Takashi Sasaki¹, Akinori Kimura², Tatsumi Koi³, Makoto Asai³, Andorea Dotti³, Margot Gerritsen⁴, Sebastien Incerti⁵ (1.KEK, 2.AIT, 3.SLAC, 4.Stanford Univ., 5.CENBG)

Keywords:simulation, microdosimetry, GPGPU

Microdosimetry simulation handles a large number of secondary particles and chemical species generated via interactions for quantitative estimation of DNA damage by radiation. Consequently, the simulation on CPUs has an issue on very long duration of processing time. We have developed GPU-based Monte Carlo simulator named “MPEXS-DNA” accelerating Geant4-DNA simulation with ultra-parallel processing. Using an NVIDIA’s GPU card, MPEXS-DNA has achieved up to 1,000 times speedup against Geant4-DNA simulation with single-core CPU.

Presentation information

[20a-A304-1~12] 2.2 Detection systems

[20a-A304-1] Development of GPU-based Monte Carlo Simulator for radiation physics
at subcellular scale: “MPEXS-DNA”

Presentation information

[20a-A304-1~12] 2.2 Detection systems

[20a-A304-1] Development of GPU-based Monte Carlo Simulator for radiation physicsat subcellular scale: “MPEXS-DNA”

[20a-A304-1] Development of GPU-based Monte Carlo Simulator for radiation physics
at subcellular scale: “MPEXS-DNA”