Cray XD1 nodes in October 2004, where each chassis has 12 AMD Opteron proces-sors. This paper describes our initial experiences with the system, including micro-, kernel, and application benchmarks results
We describe our experiences in repeated cycles of performance optimization, benchmarking, and perfor...
The newest workhorse of the National Energy Research Scientific Computing Center is a Cray XT4 with ...
This document describes an ongoing evaluation study on the Intel Paragon that is being done by the P...
Cray XD1 nodes in October 2004, where each chassis has 12 AMD Opteron proces-sors. This paper descri...
Oak Ridge National Laboratory recently installed a 32 processor Cray X1. In this paper, we describe ...
Oak Ridge National Laboratory recently received delivery of a 5,294 processor Cray XT3. The XT3 is C...
The HPC Challenge (HPCC) benchmark suite and the Intel MPI Benchmark (IMB) are used to compare and e...
Cray’s third-generation massively parallel processing system. The system uses a single-processor nod...
ABSTRACT: We recently started to explore the potential of FPGAs for some application kernels that ar...
Catamount (XT3/Red Storm’s Light Weight Kernel) to support multiple CPUs per node on XT systems whil...
upgraded its Cray XT3 system from single-core to dual-core AMD Opteron processors and has procured a...
On August 15, 2002 the Department of Energy (DOE) selected the Center for Computational Sciences (C...
Over the past 15 years, microprocessor performance has doubled approximately every 18 months throug...
Argonne National Laboratory (ANL) is engaged in a project to determine the impact of advanced scient...
ABSTRACT: Reconfigurable Computing (RC) refers to the use of reconfigurable hardware devices to acce...
We describe our experiences in repeated cycles of performance optimization, benchmarking, and perfor...
The newest workhorse of the National Energy Research Scientific Computing Center is a Cray XT4 with ...
This document describes an ongoing evaluation study on the Intel Paragon that is being done by the P...
Cray XD1 nodes in October 2004, where each chassis has 12 AMD Opteron proces-sors. This paper descri...
Oak Ridge National Laboratory recently installed a 32 processor Cray X1. In this paper, we describe ...
Oak Ridge National Laboratory recently received delivery of a 5,294 processor Cray XT3. The XT3 is C...
The HPC Challenge (HPCC) benchmark suite and the Intel MPI Benchmark (IMB) are used to compare and e...
Cray’s third-generation massively parallel processing system. The system uses a single-processor nod...
ABSTRACT: We recently started to explore the potential of FPGAs for some application kernels that ar...
Catamount (XT3/Red Storm’s Light Weight Kernel) to support multiple CPUs per node on XT systems whil...
upgraded its Cray XT3 system from single-core to dual-core AMD Opteron processors and has procured a...
On August 15, 2002 the Department of Energy (DOE) selected the Center for Computational Sciences (C...
Over the past 15 years, microprocessor performance has doubled approximately every 18 months throug...
Argonne National Laboratory (ANL) is engaged in a project to determine the impact of advanced scient...
ABSTRACT: Reconfigurable Computing (RC) refers to the use of reconfigurable hardware devices to acce...
We describe our experiences in repeated cycles of performance optimization, benchmarking, and perfor...
The newest workhorse of the National Energy Research Scientific Computing Center is a Cray XT4 with ...
This document describes an ongoing evaluation study on the Intel Paragon that is being done by the P...