SC Exhibit Posters

SC16 Salt Lake City

  • 01 :Center for Computational Sciences, University of Tsukuba
  • 02 :Supercomputer at CCS HA-PACS/TCA and COMA
  • 03 :Research in Particle Physics
  • 04 :Solving the Mysteries of the Universe with Computational Astrophysics
  • 05 :Computational nuclear physics
  • 06 :Quantum Condensed Matter Physics
  • 07 :Computational elucidations for biomolecules
  • 08 :HPC for Phylogenetic Tree Inference
  • 09 :Division of Global Environmental Science
  • 10 :Numerical Computation
  • 11 :Software Researches for Big Data and Extreme-Scale Computing
  • 12 :Database Group
  • 13 :Computational Media Group
  • 14 :JICFuS
  • 15 :Applications with the Oakforest-PACS
  • 16 :Oakforest-PACS

SC15 Austin

  • 01 :Center for Computational Sciences, University of Tsukuba
  • 02 :HA-PACS/TCA: Tightly Coupled Accelerators for Low-Latency Communication
  • 03 :COMA: Massively Parallel Many-Core Accelerated Cluster
  • 04 :Research in Particle Physics
  • 05 :Uncovering the Mysteries of the Universe through Computational Astrophysics
  • 06 :Computational nuclear physics
  • 07 :Quantum Condensed Matter Physics
  • 08 :Computational elucidations for biomolecules
  • 09 :HPC for Phylogenetic Tree Inference
  • 10 :Division of Global Environmental Science
  • 11 :Software Researches for Big Data and Extreme-Scale Computing
  • 12 :Numerical Computation
  • 13 :Database Group
  • 14 :Computational Media Group
  • 15 :Joint Institute for Computational Fundamental Science
  • 16 :Joint Center for Advanced HPC

SC14 New Orleans

  • 01 :Center for Computational Sciences, University of Tsukuba
  • 02 :HA-PACS/TCA: Tightly Coupled Accelerators for Low-Latency Communication
  • 03 :COMA: Massively Parallel Many-Core Accelerated Cluster
  • 04 :Research in Particle Physics
  • 05 :Numerical Astrophysics
  • 06 :Quantum many-body dynamics in nuclear EOS and nucleosynthesis
  • 07 :Quantum Condensed Matter Physics
  • 08 :Biological Sciences on HA-PACS/COMA
  • 09 :HPC for Phylogenetic Tree Inference
  • 10 :Division of Global Environmental Science
  • 11 :Software Researches for Big Data and Extreme-Scale Computing
  • 12 :Numerical Computation
  • 13 :Database Group
  • 14 :Computational Media Group
  • 15 :Joint Center for Advanced HPC

SC13 Denver

  • 01 :Center for Computational Sciences, University of Tsukuba
  • 02 :Development of Parallel Computers at Tsukuba from PACS-9(1978) to PACS-CS(2006)
  • 03 :HA-PACS: Massively Parallel GPU Cluster for Accelerated HPC
  • 04 :HA-PACS/TCA: Tightly Coupled Accelerators for Low-Latency Communication
  • 05 :Research in Particle Physics (1)
  • 06 :Research in Particle Physics (2)
  • 07 :Numerical Astrophysics
  • 08 :Numerical Radiation Hydrodynamics in Astrophysics
  • 09 :Quantum Condensed Matter Physics
  • 10 :Biological Sciences on HA-PACS/T2K
  • 11 :HPC for Phylogenetic Tree Inference
  • 12 :Non-hydrostatic Numerical Weather Predication Models:NICAM and WRF
  • 13 :Omni Compiler
  • 14 :System Software for Post Petascale Data Intensive Science
  • 15 :Towards Exascale Heterogeneous Computing
  • 16 :Numerical Computation
  • 17 :JLDG: Japan Lattice Data Grid
  • 18 :Division of Computational Informatics

SC12 Salt Lake City

  • 01 :Center for Computational Sciences, University of Tsukuba
  • 02 :Development of Parallel Computers at Tsukuba from PACS-9(1978) to PACS-CS(2006)
  • 03 :HA-PACS: Massively Parallel GPU Cluster for Accelerated HPC
  • 04 :HA-PACS/TCA: Tightly Coupled Accelerators for Low-Latency Communication
  • 05 :Research in Particle Physics (1)
  • 06 :Research in Particle Physics (2)
  • 07 :FIRST Project
  • 08 :HPC in Astrophysics
  • 09 :Quantum Condensed Matter Physics
  • 10 :Biological Sciences on PACS-CS/T2K
  • 11 :HPC for Phylogenetic Tree Inference
  • 12 :Non-hydrostatic Numerical Weather Predication Models:NICAM and WRF
  • 13 :XcalableMP: Directive-Based Language eXtention for Scalable and Performance-Aware Parallel Programming
  • 14 :System Software for Post Petascale Data Intensive Science
  • 15 :Towards Exascale Heterogeneous Computing
  • 16 :Numerical Computation
  • 17 :JLDG: Japan Lattice Data Grid
  • 18 :Division of Computational Informatics

SC11 Seattle

  • 01 :Center for Computational Sciences, University of Tsukuba
  • 02 :Development of Parallel Computers at Tsukuba from PACS-9(1978) to PACS-CS(2006)
  • 03 :HA-PACS: High Bandwidth GPU Cluster for Computational Sciences
  • 04 :T2K-Tsukuba 95TFLOPS Cluster System at CCS
  • 05 :Research in Particle Physics (1)
  • 06 :Research in Particle Physics (2)
  • 07 :HPC in Astrophysics
  • 08 :FIRST Project
  • 09 :Materials Sciences on PACS-CS and T2K-Tsukuba
  • 10 :Biological Sciences on PACS-CS/T2K
  • 11 :HPC for Phylogenetic Tree Inference
  • 12 :Non-hydrostatic Numerical Weather Predication Models:NICAM and WRF
  • 13 :XcalableMP: Directive-Based Language eXtention for Scalable and Performance-Aware Parallel Programming
  • 14 :Towards Exascale Heterogeneous Computing
  • 15 :System Software for Post Petascale Data Intensive Science
  • 16 :High Performance Computing Research
  • 17 :JLDG: Japan Lattice Data Grid
  • 18 :Division of Computational Informatics Database/Computational Media

SC10 Neworleans

  • 01 :Center for Computational Sciences, University of Tsukuba
  • 02 :Development of Parallel Computers at Tsukuba from PACS-9(1978) to PACS-CS(2006)
  • 03 :T2K Open Supercomputer & PACS-CS
  • 04 :T2K-Tsukuba 95TFLOPS Cluster System at CCS
  • 05 :Research in Particle Physics(1)
  • 06 :Research in Particle Physics(2)
  • 07 :Computational Astrophysics
  • 08 :Deciphering the History of the Universe
  • 09 :Materials Sciences on PACS-CS and T2K-Tsukuba
  • 10 :Biological Sciences on PACS-CS/T2K
  • 11 :Division of Biological Sciences
  • 12 :Non-hydrostatic Numerical Weather Predication Models:NICAM and WRF
  • 13 :Power-aware, Dependable, and High-Performance Communication Link Using PCIExpress; PEARL
  • 14 :XcalableMP: Directive-Based Language eXtention for Scalable and Performance-Aware Parallel Programming
  • 15 :Wide-area Distributed File System
  • 16 :High Performance Computing Research
  • 17 :JLDG: Janpan Lattice Data Grid
  • 18 :Division of Computational Informatics Database/Computational Media

SC09 Portland

  • 01 :Center for Computational Sciences, University of Tsukuba
  • 02 :Development of Parallel Computers at Tsukuba from PACS-9(1978) to PACS-CS(2006)
  • 03 :T2K Open Supercomputer & PACS-CS
  • 04 :T2K-Tsukuba 95TFLOPS Cluster System at CCS
  • 05 :Research in Particle Physics(1)
  • 06 :Research in Particle Physics(2)
  • 07 :Computational Astrophysics
  • 08 :Deciphering the History of the Universe
  • 09 :Materials Sciences on PACS-CS
  • 10 :Biological Sciences on PACS-CS/T2K
  • 11 :Non-hydrostatic Numerical Weather Predication Models:NICAM and WRF
  • 12 :Division of Biological Sciences
  • 13 :JLDG:Japan Lattice Data Grid
  • 14 :High Performance Computing Research(1)
  • 15 :High Performance Computing Research(2)
  • 16 :XcalableMP: Directive-Based Language eXtention for Scalable and Performance-Aware Parallel Programming
  • 17 :e-Science powered by Wide-area Distributed File System
  • 18 :Division of Computational Informatics, Computational Intelligence/Computational Media

SC08 Austin

  • 01 :Center for Computational Sciences overview
  • 02 :History of PACS computers
  • 03 :PACS-CS Project
  • 04 :PACS-CS System Hardware and Software
  • 05 :T2K – Tsukuba (95 TFLOPS Cluster System at CCS)
  • 06 :T2K Open Supercomputer System: T2K Grid
  • 07 :Research in Particle Physics (1)
  • 08 :Research in Particle Physics (2)
  • 09 :Computational Astrophysics
  • 10 :Astrophysical Simulations (1)
  • 11 :Astrophysical Simulations (2)
  • 12 :Materials Sciences on PACS-CS
  • 13 :Computational Quantum Many-Body Systems
  • 14 :Non-hydrostatic Numerical Weather Prediction Models: NICAM and WRF
  • 15 :Division of Biological Sciences
  • 16 :JLDG: Japan Lattice Data Grid
  • 17 :High Performance Computing Research(1)
  • 18 :High Performance Computing Research(2)
  • 19 :XcalableMP: directive-based language eXtention for Scalable and performance-tunable Parallel Programming
  • 20 :e-Science Innovation Japan
  • 21 :Division of Computational Informatics Computational Intelligence/Computational Media
  • 22 :T2K Open Supercomputer Alliance

SC07 Reno

  • 01 :Center for Computational Sciences overview
  • 02 :Development of Parallel Computers at Tsukuba from PACS-9(1978)to PACS-CS(2006)
  • 03 :Research in Particle Physics (1)
  • 04 :Research in Particle Physics (2)
  • 05 :Materials Sciences on PACS-CS
  • 06 :Computational Materials and Life Sciences
  • 07 :Computational Astrophysics
  • 08 :FIRST Project
  • 09 :Simulations with FIRST(1)
  • 10 :Simulations with FIRST(2)
  • 11 :JMA/GPV Database and Local Weather Prediction/Simulation System
  • 12 :Division of Biological Sciences
  • 13 :Division of Computational Informatics Computational Intelligence / Computational Media
  • 14 :JLDG: Japan Lattice Data Grid
  • 15 :PACS-CS Project
  • 16 :PACS-CS System Hardware and Software
  • 17 :PACS-CS Performance Evaluation
  • 18 :High Performance Computing Research
  • 19 :Low Power & High performance On-Chip Memory Processor with Arithmetic Accelerrators
  • 20 :High-Performance & Low-Power Parallel Platform for Dependable Embedded Systems

SC06 Tampa

  • 01:Center for Computational Sciences
  • 02:Development of Parallel Computers at Tsukuba from PACS-9 (1978) to PACS-CS (2006)
  • 03:PACS-CS Project
  • 04:PACS-CS System Hardware and Software
  • 05:PACS-CS Performance Evaluation
  • 06:Research in Particle Physics (1)
  • 07:Research in Particle Physics (2)
  • 08:FIRST Project
  • 09:FIRST Cluster
  • 10:Simulations with FIRST
  • 11:Computational Material and Life Sciences I
  • 12:Computational Material and Life Sciences II
  • 13:JMA/GPV Database and Local Weather Prediction/Simulation System
  • 14:Division of Biological Sciences
  • 15:JLDG: Japan Lattice Data Grid
  • 16:High Performance Computing Research
  • 17:Mega-Scale Computing
  • 18:MegaProto
  • 19:Power-Aware Computing
  • 20:Integrated Fault Tolerant Architecture and High-Performance Network

SC05 Seattle

  • 01: FIRST Project
  • 02: FIRST Cluster
  • 03: PACS-CS Next generation computational resource
  • 04: Development of Parallel Computers at Tsukuba
  • 05: Center for Computational Sciences
  • 06: Research on High Performance Computing Systems
  • 07: GPV/JMA and ILDG Database Demonstrations
  • 08: Division of Computational Informatics
  • 09: Research in Particle Physics (1)
  • 10: Research in Particle Physics (2)
  • 11: Division of Global Environment and Biological Sciences
  • 12: Computational Material and Life Sciences (1)
  • 13: Computational Material and Life Sciences (2)
  • 14: Time-dependent Quantum Dynamics
  • 15: Mega-Scale Computing
  • 16: MegaProto
  • 17: Power-Aware Computing
  • 18: Integrated Fault Tolerant Architecture and High-Performance Network
Contents

SC04 Pittsburgh

  • 01:Center for Computational Sciences
  • 02:Development of Parallel Computers at Tsukuba
  • 03:Network Environment and Collaborative Works
  • 04:History of the universe explored by Radiation Hydrodynamics
  • 05:FIRST Project
  • 06:Research in Particle Physics (1)
  • 07:Research in Particle Physics (2)
  • 08:Grid Activity for Lattice QCD Research
  • 09:Computational Material and Life Sciences
  • 10:Miscellaneous Simulations in Materials Science
  • 11:Density Functional Approach to Finite Many-Body Systems
  • 12:Division of Global Environment and Biological Sciences
  • 13:HMCS-G Grid-enabled Heterogeneous Multi-Computer System
  • 14:OmniRPC and CONFLEX-G
  • 15:FFTE A High-Performance FFT
  • 16:Division of Computational Informatics
  • 17:Mega-Scale Computing
  • 18:MegaProto
  • 19:SCIMA
  • 20:Integrated Fault Tolerance Archtecture for MagaScale Computing
Contents

SC03 Phoenix

  • 01: Center generic explanation
  • 02: Center networking environment
  • 03: Particle Physics (1)
  • 04: Particle Physics (2)
  • 05: Astro Physics (1)
  • 06: Astro Physics (2)
  • 07: Condensed Matter Physics (1)
  • 08: Condensed Matter Physics (2)
  • 09: HMCS-G (1)
  • 10: HMCS-G (2)
  • 11: OmniRPC (1)
  • 12: OmniRPC (2)
  • 13: FFT
  • 14: SCIMA
  • 15: ILDG
  • 16: Omni OpenMP Compiler
Contents

SC02 Baltimore

SC01 Denver

  • 01 : Center for Computational Physics
  • 02 : Research in Particle Physics
  • 03 : Research in Condensed Matter Physics
  • 04 : Research for the Future Program
  • 05 : SCIMA(Software Controlled Integrated Memory Architecture for HPC)
  • 06 : SCIMA Experimental Results
  • 07 : PAVEMENT/PIO Parallel I/O System for Massively Parallel Processors
  • 08 : PAVEMENT/VIZ Parallel Visualization Environment for Large Amount Data
  • 09 : GRAPE Projet
  • 10 : Heterogeneous Multi-Computer System
  • 11 : Radiation Hydrodynamics with HMCS
  • 12 : 3D Radiation-SPH Simulation on Galaxy Formation

SC98 Orlando