JAXA Supercomputer System Annual Report February 2022-January 2023 Compiled PDF of All Reports is available here. Report pages could be accessed by clicking their titles. Red "*" at the end of the report title indicates that it has video clip(s). Aeronautical Technology(61reports) Acoustic Liner Program for High-bypass-ratio Aircraft engines (acoustic performance improvement)* Acoustic Liner Program for High-bypass-ratio Aricraft engines Advanced simulation of internal flow in rotating machinery Aerodynamic Analysis for High-speed Rotorcraft Aerodynamic Simulations on Airframe Noise Reduction Technology・・・<<read more>>
JAXA Supercomputer System Annual Report February 2022-January 2023 ■ Operation of JSS3: April 1, 2022-March 31, 2023 * For specifications of JSS3, refer to Supplement 1. Job filling rate trends Usage trends of JSS3 JSS usage trends Trends of JSS usage frame The fields of use are classified into five frameworks, and utilization rate guarantees and job execution priority control suitable for each framework are set, effectively maximizing R&D results. FY2022 results by usage framework Trend of usage for Specified・・・<<read more>>
JAXA Supercomputer System Annual Report February 2022-January 2023 Report Number: R22EU0904 Subject Category: Space and Astronautical Science PDF Responsible Representative: Ikkoh Funaki, Professor, ISAS Contact Information: Ikkoh Funaki(funaki.ikkoh@jaxa.jp) Members: Yuki Murayama, Ryoka Hayashi Abstract Due to the limitation of the existing spacecraft technology level, it is very difficult to enable solar system explorations in a quick and cost-effective mannger. Objective of this study is to obtain a breakthrough spacecraft propulsion technology that enables solar system exploration of the next generations.・・・<<read more>>
JAXA Supercomputer System Annual Report February 2022-January 2023 Report Number: R22EU0912 Subject Category: Space and Astronautical Science PDF Responsible Representative: Yoshifumi Saito, Institute of Space and Astronautical Science, Department of Solar System Sciences Contact Information: Toshifumi Shimizu(shimizu.toshifumi@jaxa.jp) Members: Yusuke Kawabata, Toshifumi Shimizu, Kouhei Teraoka Abstract Our study focuses on understanding of the mechanism responsible for the occurrence of the solar flares. We derive 3D magnetic field structure in the corona by performing a 3D magnetohydrodynamics simulation using vector magnetic field・・・<<read more>>
