2018-2019OngoingProjects

Joint Usage/Research Centerfor Interdisciplinary Large-ScaleInformation InfrastructureJHPCN: Japan High Performance Computing and Networkingplus Large-scale Data Analyzing and Information Systemshttps://jhpcn-kyoten.itc.u-tokyo.ac.jp

52 Projects, 88 joint research centers

HPCI-JHPCN projects are marked with *

Project Title Leader(Affiliation) CategoryJoint Research

Center* Hierarchical low-rank approximationmethods on distributed memory andGPUs

Rio Yokota(Tokyo Institute ofTechnology)

Hokkaido, UTokyo,Tokyo Tech.,Kyushu

* Innovative Multigrid Methods Kengo Nakajima(The University of Tokyo)

Hokkaido,UTokyo, Kyushu

* Optimisation of Fusion PlasmaTurbulence Code toward Post-PetascaleEra III

Yuuichi Asahi(National Institutes forQuantum andRadiological Science andTechnology)

Tokyo Tech,Nagoya

Project Title Leader(Affiliation) CategoryJoint Research

Center* Application to Design Catalyst fromConsideration of Weak InteractionEnergies between and withinBiological Macromolecule

TomohikoUshijima(ZeonCorporation)

Tokyo Tech

1 Industrial Joint Research Projects3 International Joint Research Projects

48 General Joint Research ProjectsProject Title Leader(Affiliation) Category

Joint ResearchCenter

* Development of LES code formagnetohydrodynamic turbulence

Hideaki Miura(National Institute forFusion Science)

UTokyo

* Development of massively parallelized particlesimulation code for fusion plasma research andvisualization of the simulation results

Hiroaki Ohtani(National Institute forFusion Science)

Nagoya, Kyoto

* Large scale acoustic-fluid analysis on air-jetinstruments and some pieces of acousticequipment

Kin’ya Takahashi(Kyushu Institute ofTechnology)

Kyushu

* Interaction between turbulent mixing andlarge ensemble of micro particles withinternal degrees of freedom

Toshiyuki Gotoh(Nagoya Institute ofTechnology)

Nagoya

* Development and application of riskevaluation for heat stroke

Akimasa Hirata(Nagoya Institute ofTechnology)

Tohoku

* Large-scale Simulations by Advanced NumericalMethods with High-Performance/Adaptive-Precision/High-Reliability

Kengo Nakajima(The University ofTokyo)

UTokyo, TokyoTech

* Domain Partitioning with Compatibility betweenLoad Balance and Communication Cost usingTopology Optimization of MPF Method

Takayuki Aoki(Tokyo Institute ofTechnology)

Tokyo Tech

* A Fully-explicit Computation forIncompressible Gas-liquid Two-phase Flowswith Mesh Refinement Adapting to Interfacesand Implementation on a GPU Supercomputer

Takayuki Aoki(Tokyo Institute ofTechnology)

Kyushu

* Database development of grain boundaryanisotropic properties by data assimilationand large-scale grain growth phase-fieldsimulations

Tomohiro Takaki(Kyoto Institute ofTechnology)

Tokyo Tech

* Optimisation of real time tsunami inundationsimulation for modern supercomputer systems

Akihiro Musa(Tohoku University)

Tohoku, Osaka

* Plume Dispersion Simulation using LatticeBoltzmann Method in Urban Area

Naoyuki Onodera(Japan Atomic Energy Agency)

Tokyo Tech

* Developing Monte Carlo codes available forhigh-density 2-color QCD as a way todetermine the phase diagram

Kei Iida(Kochi University)

Kyoto, Osaka

* Development of efficient algorithm forspatiotemporal boundary integral equation methodand application to gigantic earthquake simulations

Ryosuke Ando(The University ofTokyo)

UTokyo

* Investigation of formation and evolutionhistory of galaxies using high-precision andhigh-resolution simulations

Yohei Miki(The University ofTokyo)

UTokyo, TokyoTech

* Flooding analysis of a large cruise shipusing a large-scale particle method

Hirotada Hashimoto(Kobe University)

Tokyo Tech

* Development of numerical methods forelastic wave propagation in heterogeneousand anisotropic materials and theirapplication to nondestructive inspection

Takahiro Saitoh(Gunma University)

Kyoto

* Dark matter from lattice gauge theory Hideaki Iida(Keio University)

Osaka

* Study of thinking networks by the trinity ofuser equipment, network edges, and cloud

Akihiro Nakao(The University of Tokyo)

Hokkaido, Tohoku,UTokyo, Kyushu

* Constructions of fundamental theory in particle methodsand their expansion to a large-scale simulator

Yusuke Imoto(Tohoku University)

Nagoya, Kyushu

* Advancement of an AMR framework torealize effective high- resolution simulations

Takashi Shimokawabe(The University of Tokyo)

UTokyo, TokyoTech

* Soil - structure - fluid interaction simulationfor heavy rain disaster magnitude predictionand establishment of its interna- tionalstandard examples for V&V

Mitsuteru Asai(Kyushu University)

Kyoto

* Enhancement of the GW space-time code for large-scalecalculation of organic-metal interfaces

Susumu Yanagisawa(University of the Ryukyus)

Tohoku

* Large scale simulation on layered coal dustexplosion induced by shock wave

Akiko Matsuo (KeioUniversity)

Tohoku

Project Title Leader(Affiliation) CategoryJoint Research

Center* Study of computer-assisted detection oflesions in medical images using Deep Learning

Issei Sato(The University of Tokyo)

UTokyo

* SIMD Optimization of In-Situ VisualizationSystem using Particle Data

Takuma Kawamura(Japan Atomic Energy Agency)

UTokyo, Nagoya,Kyoto

* Design of virtual aerodynamic shape by anintegrated optimiza- tion of body-shape andplasma actuator installation

Takashi Matsuno (TottoriUniversity)

Hokkaido, Nagoya

Massively-Parallelized Particle Simulation ofSpace Plasma Phenomena

Yohei Miyake (KobeUniversity)

Hokkaido, Kyoto

Developments of information infrastructurefor deep learning based analysis of two-dimensional scattering patterns of polymermaterials during fracture and formationprocesses

Katsumi Hagita(National DefenseAcademy)

Hokkaido, Nagoya,Osaka

Numerical simulation of stellar mergers,disruptions, and explosions

Ataru Tanikawa(The University of Tokyo)

UTokyo, Tokyo Tech

Physiologically realistic study of subcellularcalcium dynamics with nanometer resolution

Kengo Nakajima(The University of Tokyo)

UTokyo

High Performance Computational (HPC) Studieson Beyond the Standard Model of ParticlePhysics using Atoms and Molecules

Das Bhanu Pratap(Tokyo Institute ofTechnology)

Tokyo Tech

High-performance Randomized Matrix Computationsfor Big Data Analytics and Applications

Takahiro Katagiri(Nagoya University)

UTokyo, Tokyo Tech,Nagoya

Isogeometric analysis for nonlocal stress fieldaround lattice defects

Ryuichi Tarumi(Osaka University)

Nagoya, Osaka

Implementation of parallel sparse solver onCPU-GPU hybrid architecture

Atsushi Suzuki(Osaka University)

Osaka

Large scale simulation on detonation propagation indisk-shaped rotating detonation engine combustor

Akiko Matsuo(Keio University)

Tohoku

Cartesian-Based CFD/CAA Hybrid Method forNoise Prediction in Aerospace Fields

Daisuke Sasaki(Kanazawa Institute of Technology)

Tohoku, Nagoya

Two-phase GPU computation by pressure evolutionLBM for droplet infiltration to porous media

Masayuki Kaneda(Osaka Prefecture University)

Tokyo Tech

Improvement of strong scalability of softwareMODYLAS by optimizing parallelizedoperations and communications

Yoshimichi Andoh(Institute for Molecular Science)

UTokyo, Nagoya,Kyushu

Development and Application of Large-ScaleMultiphase Flow Simulation based on ImmersedBoundary Method

Shun Takahashi(Tokai University)

Tohoku

Simulation of seismic-waves incorporating non-linear responses of subsurface layers forstudies of strong-motion prediction and sourceprocesses

Hiroshi Takenaka(Okayama University)

Tokyo Tech, Nagoya

Mechanism for meson mass generation inlattice QCD with domain wall fermions

Motoo Sekiguchi(Kokushikan University)

Osaka

Inter-datacenter file transfer examinations forHPC using real datasets

Ken T. Murata(National Institute of Information andCommunications Technology)

Tohoku, Nagoya,Kyoto, Kyushu

High Performance Computing EnvironmentApplied to Airframe and Thrust Design ofWinged Rocket For Practical Use

Masahiro Kanazaki(Tokyo MetropolitanUniversity)

Hokkaido, Nagoya,Kyushu

Study on mass transfer in complex turbulentflows by large-scale numerical simulation

Tatsuya Tsuneyoshi(Nagoya University)

Nagoya

Evaluation of large-scale reinforcement learning Tomoyuki Kaneko(The University of Tokyo)

UTokyo

Resource Management System Toward Orchestrationon Soft- ware-Defined IT Infrastructure

Yasuhiro Watashiba(Osaka University)

Osaka

Gyrokinetic simulation of divertor heat-load inmagnetic fusion devices

Toseo Moritaka(National Institute for FusionScience)

Tokyo Tech

Visualization and Statistical Modeling ofFinancial Big Data

Masayuki Jimichi(Kwansei GakuinUniversity)

UTokyo

Very large-scale numerical computationVery large-scale data processingVery large-scale information systemsVery large capacity network technology

JHPCN: Japan High Performance Computing and Networking plus Large-scale Data Analyzing and Information Systems

* 61 Exploratory joint research projects are adopted as well