- Brook for GPUs Ian Buck, Tim Foley, Daniel Horn, Jeremy Sugerman, Kayvon
- Stream Register Files with Indexed Access Nuwan Jayasena, Mattan Erez, Jung Ho Ahn, and William J. Dally
- Merrimac Supercomputing with Stream Extended Abstract for GP2
- Fault Tolerance Techniques for the Merrimac Streaming Supercomputer
- Supercomputing with Streams Mattan Erez
- Integration: Computer Science/Applications
- Gromacs on GPU Performance analysis and tuning
- Merrimac: 1 April 20, 2004
- New ApplicationsNew Applications Stanford University
- NASA Ames Research Center Moffett Field, California 94035-1000 USA
- Merrimac Reliability Thoughts and Plan of Record
- 07/29/2003 GROMACS-SSS 1 of 17 Imagine Programming System
- Brook: A Parallel Streaming Language Computer Systems Laboratory
- Massimiliano Fatica, Alan Wray Merrimac meeting
- StreamFlo3D Massimiliano Fatica
- Stanford Streaming Supercomputer
- October 19th 2002 GROMACS -SSS Page 1 of 19 Folding@home
- 7 January 2004 SSS Memory System
- Francois Labonte Modifications of the meeting in Blue
- Metacompilation: from Brook to SVM
- Semi-Lagrangian Method Review method
- Brook to Hardware Brook Code
- Meta-Level Compilation Benjamin Chelf, Junfeng Yang, and
- Center for Integrated Turbulence Simulations
- Center for Integrated Turbulence Simulations
- Center for Integrated Turbulence Simulations
- Center for Integrated Turbulence Simulations
- Center for Integrated Turbulence Simulations
- Ankit Garg, Yanan Zhao (ME), Mattan Erez (CS), Abhishek Das (CS), Prof. Eric Darve (ME) Our work with molecular dynamics simulation is
- Extending the Particle Level Set Method to Octree Data Structures: with implications to SSS
- Inter-cluster network Stream Register File (SRF)
- A Streaming Programming Environment Ian Buck, Mattan Erez, Ben Chelf, Pat Hanrahan
- Achieves a 100x improvement in performance / cost over cluster-and vector-
- Stanford Streaming Supercomputer Massimiliano Fatica
- The approach we have decided to take is Molecular Dynamics (MD). Newton's equations of motion
- Brook QuickSpec October 18, 2002
- SSS Strawman Architecture Bill Dally Ujval Kapasi Mattan Erez Ben Serebrin Timothy Knight
- Stream Programming on General-Purpose Jayanth Gummaraju and Mendel Rosenblum
- The StreamFEM Application NASA Ames Research Center
- Brook for GPUs Ian Buck, Tim Foley, Daniel Horn, Jeremy Sugerman,
- Inter-cluster network Stream Register File (SRF)
- Molecular Dynamics MD of water molecules
- Multigrid on Merrimac Vidya Rangasayee
- What is the SVM? Mattan Erez
- StreamSPAS on Merrimac Jung Ho Ahn
- Partitioning on the SSS November 2002
- Gromacs on GPU Vidya Rangasayee
- Merrimac Architecture Comparison Methodology (Discussion)
- Brook Spec v0.2 October 31, 2003
- Streaming Supercomputer The goal of the streaming supercomputer project is to develop a high-performance computer sys-
- Brook: Summer Progress Report Mattan Erez, Peter Mattson, Eric Schwietz, Kenneth Mackenzie
- Streaming Languages Stream data type to C
- Molecular Dynamics Stanford Streaming Computing
- Streaming Virtual Machine to Stanford Streaming Architecture (part 1)
- Stanford Imagine Project Dual-Imagine Board Status
- SC03: 1 Nov 19, 2003 Trends in High-Performance Computer
- AIAA 20041090 StreamFLO: an Euler solver for streaming
- Brook for GPUs Ian Buck, Tim Foley, Daniel Horn, Jeremy Sugerman, Kayvon
- Real-Time Procedural Shading Programmable Graphics Hardware
- February 24, 2004 1 GromacsGromacs
- Merrimac Applications Kayvon Fatahalian
- Merrimac: 1 Nov 20, 2003 Scientific Computing with Streams
- SSS: 1 Dec 11, 2001 Stanford Streaming Supercomputer (SSS)
- Streaming supercomputing for Molecular Modeling
- How to Compile StreamMD Ian Buck, Mattan Erez,
- Numerical Methods for PDEs SSC Workgroup Meetings
- A Streaming Supercomputer Bill Dally, Pat Hanrahan, and Ron Fedkiw
- A Streaming Language Implementation of the Discontinuous Galerkin Finite Element Method
- Gromacs simulates molecular dynamics as an N-body problem Newton's equations of motion
- Streaming Languages Compilation
- Analysis and Performance Results of a Molecular Modeling Application on Merrimac
- Sustained Bandwidth 167.3 186.5 163.2 151.9
- A Streaming Language Implementation of the Discontinuous Galerkin Finite Element Method
- Folding@HomeFolding@Home Vijay Pande
- Francois Labonte Reservoir HLC
- GCAFE: 1 Jan 30, 2003 Compilation Targets
- Stanford Streaming Supercomputer Software System
- Merrimac Compilation System Applications written in Brook/Brooktran are
- Mendel RosenblumPat HanrahanWilliam J. Dally Francois LabonteAbhishek DasTimothy J. Knight
- Center for Integrated Turbulence Simulations
- SIERRA --A Computational Framework for Engineering Mechanics Applications
- Merrimac: The Streaming Supercomputer
- Step 1 Partitioning Separate dataset
- Merrimac System Architecture
- 17 February 2004 Handling Variable-Output
- Merrimac Compiler Effort Jayanth Gummaraju
- SSS Software Update Mattan Erez
- OS and I/O for Merrimac Mendel Rosenblum
- Merrimac System Architecture
- Streaming Virtual Machine API Reservoir Labs
- Merrimac Simulation Tools Timothy KnightAbhishek DasNuwan Jayasena
- Scatter Add Merrimac accumulates streams efficiently by using
- Brook Applications Stanford University
- PDE Solvers for Fluid Flow issues and algorithms for the Streaming Supercomputer
- Vectoral: only by trying new things will we ever get
- Parallel Computation On A Cluster of GPUs Mike Houston, Kayvon Fatahalian, Jeremy Sugerman, Ian Buck, and Pat Hanrahan
- Streaming Supercomputer Bill Dally, Jung-Ho Ahn, Mattan Erez,
- June 1, 2004 1 GromacsGromacs
- Streaming Virtual Machine to Stanford Streaming Architecture
- Scatter-Add in Data Parallel Architectures Jung Ho Ahn, Mattan Erez and William J. Dally
- Arithmetic Performance 34.1 32.5 31.6
- Stanford Streaming Supercomputer Streaming Languages
- Merrimac System Architecture
