CCS International Symposium 2021 Parallel Sessions
Session 1: Particle physics, Convenor: OHNO Hiroshi 【Zoom】
Time (5 + 2 min. each) |
Speaker (Affiliation) |
Title |
16:15 – 16:22 |
OHNO Hiroshi (Univ. of Tsukuba) |
Critical endpoint of finite temperature phase transition for four-flavor QCD |
16:22 – 16:29 |
NAKAMURA Yoshifumi (RIKEN) |
Study of QCD with finite temperature |
16:29 – 16:36 |
KANAYA Kazuyuki (Univ. of Tsukuba) |
Thermodynamics of 2+1 flavor QCD with the gradient flow |
16:36 – 16:43 |
FUKAYA Hidenori (Osaka Univ.) |
Topological excitation of high temperature QCD near the physical point |
16:43 – 16:50 |
AKIYAMA Shinichiro (Univ. of Tsukuba) |
Particle Physics with Tensor Network Scheme |
16:50 – 16:57 |
SHIBATA Akihiro (KEK) |
Lattice study of confinement mechanism based on the dual superconductivity |
16:57 – 17:04 |
NEMURA Hidekatsu (Osaka Univ.) |
Implementation of Lattice QCD common code to large scale parallel supercomputer with manycore architecture |
17:04 – 17:11 |
KANEKO Takashi (KEK) |
B meson mixing from lattice QCD with relativistic heavy quarks |
17:11 – 17:18 |
YAMADA Norikazu (KEK) |
Peeking into the θ vacuum |
17:18 – 17:25 |
UKITA Naoya (Univ. of Tsukuba) |
Calculation of QCD hadron spectrum in master field formalism |
17:25 – 17:32 |
ISHIZUKA Naruhito (Univ. of Tsukuba) |
Calculation of K meson decay amplitudes |
17:32 – 17:39 |
YAMAZAKI Takeshi (Univ. of Tsukuba) |
Calculation of pion and kaon electromagnetic form factors in N_f=2+1 lattice QCD |
17:39 – 17:46 |
SHINTANI Eigo (Univ. of Tsukuba) |
Hadronic vacuum polarization contribution to muon g-2 in lattice QCD |
17:46 – 17:53 |
ISHIKAWA Ken-Ichi (Hiroshima Univ.) |
Search for physics beyond the standard model from 2+1 Flavor Lattice QCD with the Physical Quark Masses |
Session 2: Astrophysics, Convenor: WAGNER Alexander 【Zoom】
Time (5 + 2 min. each) |
Speaker (Affiliation) |
Title |
16:15 – 16:22 |
TANIKAWA Ataru |
Astronomical transients in star clusters |
16:22 – 16:29 |
OKAMOTO Takashi |
Modelling supernova feedback in galaxy simulations |
16:29 – 16:36 |
OHSUGA Ken |
Structure Formation in the Universe using Radiation Hydrodynamic Simulations |
16:36 – 16:43 |
YAJIMA Hidenobu |
Radiative transfer simulations and machine learning for in-vivo bioimaging |
16:43 – 16:50 |
MORI Masao |
Evolution of the local galaxies |
16:50 – 16:57 |
KIUCHI Kenta |
Implementation of advanced Riemann solver in numerical relativity code |
16:57 – 17:04 |
FUJIMOTO Yusuke |
Formation and evolution of the local interstellar environment: combined constraints from nucleosynthetic and X-ray data |
Session 3: Nuclear physics, Convenor: HINOHARA Nobuo 【Zoom】
Time (5 + 2 min. each) |
Speaker (Affiliation) |
Title |
16:15 – 16:22 |
TSUJI Ryutaro (Tohoku Univ.) |
Nucleon Structure from lattice QCD at the physical point |
16:22 – 16:29 |
DOI Takumi (RIKEN) |
First-principles Lattice QCD calculation of Hadron interactions |
16:29 – 16:36 |
AOYAMA Shigeyoshi (Tokyo Univ. of Agriculture and Technology) |
A fundamental research for the tritium contaminated water problem by nuclear ab-initio calculation |
16:36 – 16:43 |
TANIGUCHI Yasutaka (NIT, Kagawa College) |
12C + 12C Fusion Astrophysical S factor from a Full-microscopic Nuclear Model |
16:43 – 16:50 |
MAGIERSKI Piotr (Warsaw Univ. of Technology) |
Superfluid dynamics of nuclear systems |
16:50 – 16:57 |
NAKATSUKASA Takashi (Univ. of Tsukuba) |
Cluster formation and dynamics in low-energy nuclear reaction |
16:57 – 17:04 |
TSUNODA Yusuke (Univ. of Tokyo) |
Nuclear shapes and collective motions in the region of Sm |
17:04 – 17:11 |
SHIMIZU Noritaka (Univ. of Tokyo) |
Microscopic description of the collective motions of medium-heavy nuclei based on shell-model calculations |
17:11 – 17:18 |
ABE Kohei (Chiba Univ.) |
Microscopic study on the origin of the rotational band of nuclei |
17:18 – 17:25 |
TERASAKI Jun (Czech Tech. Univ. in Prague) |
Estimation of nuclear matrix elements of double-β decay from shell model and quasiparticle random-phase approximation |
17:25 – 17:32 |
HINOHARA Nobuo (Univ. of Tsukuba) |
Systematic calculation of two-neutrino double-beta decay nuclear matrix element with the finite-amplitude method of nuclear density functional theory |
Session 4: Material science, Convenor: OTANI Minoru 【Zoom】
Time (5 + 2 min. each) |
Speaker (Affiliation) |
Title |
16:15 – 16:22 |
HAYASHI Toshiaki (NTT Corporation) |
Higher order perturbation of voltage potential on variable-range hopping transport |
16:22 – 16:29 |
FUKUI Kiyu (Univ. of Tokyo) |
Functional renormalization group study on the feasibility of Kitaev quantum spin liquid |
16:29 – 16:36 |
HOSHI Takeo (Tottori Univ.) |
Novel structure analysis method for two-dimensional material by massively parallel data-driven science |
16:36 – 16:43 |
HASHMI Arqum (QST) |
Spin-valley polarization in 2D materials |
16:43 – 16:50 |
SEKIKAWA Takuya (Niigata Univ.) |
First-principles and quantum many-body calculations for electronic states and superconductivity in Tungsten Bronze AxWO3 |
16:50 – 16:57 |
MATSUSHITA Yu-ichiro (Tokyo Tech) |
Theoretical study for the reduction of interface states in SiC/SiO2 |
16:57 – 17:04 |
ONO Tomoya (Kobe Univ.) |
First-principles electronic-structure and transport-property calculations using RSPACE code |
17:04 – 17:11 |
UEMOTO Mitsuharu (Kobe Univ.) |
Design of Nanophotonic Device by Large-Scale Ab-initio Calculation |
17:11 – 17:18 |
YAMADA Shunsuke (Univ. of Tsukuba) |
First-principles study for maximizing efficiency of high-order harmonic generation from nano-scale thin films |
17:18 – 17:25 |
YABANA Kazuhiro (Univ. of Tsukuba) |
Quantum effects in optical response of plasmonic meta-surface |
17:25 – 17:32 |
YAMADA Atsushi (Univ. of Tsukuba) |
Terahertz generation spectroscopy by Maxwell + MD multiscale simulation |
17:32 – 17:39 |
TONG Xiao-Min (Univ. of Tsukuba) |
Carrier-Envelope-Phase Dependent Strong-Field Excitation |
17:39 – 17:46 |
KOIZUMI Hiroyasu (Univ. of Tsukuba) |
Cuprate superconductor qubits |
17:46 – 17:53 |
KOBAYASHI Nobuhiko (Univ. of Tsukuba) |
Theory of electronic devices by large-scale first-principles charge transport calculations |
Session 5: Life science, Chemistry, Biology, Convenor: HARADA Ryuhei 【Zoom】
Time |
Speaker (Affiliation) |
Title |
16:15 – 16:22 |
SHOJI Mitsuo (Univ. of Tsukuba) |
Theoretical Elucidations of Chemical Reactions by Using Large-scale Molecular Simulations |
16:22 – 16:29 |
KUMADA Hiroaki (Univ. of Tsukuba) |
Research of Realization for Comprehensive Dose Estimation System for Various Radiotherapy with PHITS, a High Accuracy Monte Carlo Code |
16:29 – 16:36 |
OYA Megumi (RIKEN) |
Investigation of Clinical Target Volume Segmentation for Whole Breast Irradiation Using Three‑dimensional Convolutional Neural Networks with Gradient‑Weighted Class Activation Mapping |
16:36 – 16:43 |
SHIGETA Yasuteru (Univ. of Tsukuba) |
Drug Repositioning for Covid-19 Main Protease |
16:43 – 16:50 |
WATANABE Hiroshi (Keio University) |
Proton Transfer Dynamics in Bulk Phase Using Adaptive QM/MM Method |
16:50 – 16:57 |
INAGAKI Yuji (Univ. of Tsukuba) |
The Phylogenetic Position of a Microeukaryote Strain SRT706 as Inferred from a 300-gene Analyses |
16:57 – 17:04 |
TSUJIMURA Masaki (The Univ. of Tokyo) |
Protonation State of the Key Residue Asp234 in Light-gated Anion Channelrhodopsin GtACR1 |
17:04 – 17:11 |
HARADA Ryuhei (Univ. of Tsukuba) |
Developments of Computational Methods for Drug Design Based on Parallel Cascade Selection Molecular Dynamics (PaCS-MD) and its Applications |
Session 6: Numerical analysis, Computational informatics, Convenor: KAMEDA Yoshinari 【Zoom】
Time |
Speaker (Affiliation) |
Title |
16:15-16:22
|
OSAWA Kiyoshi (Faculty of Health and Sport Sciences, Univ. of Tsukuba) |
Evaluation of baseball players with big data |
16:22 – 16:29
|
HAGA Takanori (Japan Aerospace Exploration Agency) |
Speed-up of Compressible Combustion Solver with High-Order Unstructured Method Using GPGPU |
16:29 – 16:36
|
SAKURAI Tetsuya (Univ. of Tsukuba) |
Development of next generation parallel algorithms and software for solving large-scale eigenvalue problems |
16:36 – 16:43
|
NAKASATO Naohito (Univ. of Aizu) |
Performance Evaluation of Various Floating-point Units |
16:43 – 16:50 |
IMAMURA Toshiyuki (RIKEN) |
Multi-precision computing and application with GPUs and FPGAs |
16:50 – 16:57 |
HORIE Kazumasa (Univ. of Tsukuba) |
Characteristic wave detection in whole-night PSG signals using deep neural networks. |
16:57 – 17:04 |
TADANO Hiroto (Univ. of Tsukuba) |
Performance evaluation of the approach for solving saddle point problems using block structure |
17:04 – 17:11 |
AMAGASA Toshiyuki (Univ. of Tsukuba) |
Accelerating big data analysis using GPU and FPGA2 |
Session 7: Global environment, HPC systems, Convenor: KUSAKA Hiroyuki 【Zoom】
Time |
Speaker (Affiliation) |
Title |
16:15-16:22
|
SATO Takuto (Univ. of Tsukuba) |
Development and Application of Large Eddy Simulation Model Written in the Parallel Computational Code for Urban Areas |
16:22 – 16:29
|
NISHI Akifumi (National Defense Academy) |
Numerical simulation of wave clouds caused by local winds
|
16:29 – 16:36
|
TANAKA Hiroshi (Univ. of Tsukuba)
|
Analysis of Vorticity Budget for a Developing Extraordinary Arctic Cyclone in August 2016 |
16:36 – 16:43
|
DOAN Quang Van |
Future projection for urban extreme precipitation using the Weather Research and Forecast model |
16:43 – 16:50 |
NAKAO Masahiro (RIKEN) |
Extension for stencil calculation of parallel language XcalableMP |
16:50 – 16:57 |
HANAWA Toshihiro (The University of Tokyo) |
Transprecision Calculation Platform Offloaded on FPGA |
16:57 – 17:04 |
BOKU Taisuke (University of Tsukuba) |
GPU+FPGA multi-hybrid accelerated computing |
17:04 – 17:11 |
SANO Kentaro (RIKEN) |
Communication Infrastructure for High-Performance FPGA Cluster |
17:11 – 17:18 |
KUDOH Tomohiro (The University of Tokyo) |
Real-time high throughput processing: an attempt to implement an NIDS on FPGA and GPU |
17:18 – 17:25 |
KAWASHIMA Hideyuki (Keio University) |
An Evaluation of A Parallel Sorting Algorithm |
17:25 – 17:32 |
TAKAHASHI Daisuke (University of Tsukuba) |
Automatic Tuning of Computation-Communication Overlap for Parallel 3-D FFT with 2-D Decomposition |