Cray’s third-generation massively parallel processing system. The system uses a single-processor node built around the AMD Opteron and uses a custom chip—called SeaStar—to provide interprocessor communication. In addition, the system uses a lightweight operating system on its compute nodes. This paper provides a status update since last year, including updated performance measurements for micro-benchmark, kernel, and application benchmarks. In particular, we provide performance results for strategic Department of Energy applications areas including climate, biology, astrophysics, combustion, and fusion. Our results, on up to 4096 processors, demonstrate that the Cray XT3 provides competitive processor performance, high interconnect bandwidt...
The last decade has witnessed a rapid proliferation of superscalar cache-based microprocessors to b...
Catamount (XT3/Red Storm’s Light Weight Kernel) to support multiple CPUs per node on XT systems whil...
Abstract—The Cray X1 supercomputer is a distributed shared memory vector multiprocessor, scalable to...
Oak Ridge National Laboratory recently received delivery of a 5,294 processor Cray XT3. The XT3 is C...
On August 15, 2002 the Department of Energy (DOE) selected the Center for Computational Sciences (C...
upgraded its Cray XT3 system from single-core to dual-core AMD Opteron processors and has procured a...
Cray XD1 nodes in October 2004, where each chassis has 12 AMD Opteron proces-sors. This paper descri...
We carry out a performance study using the Cray T3D parallel supercomputer to illustrate some import...
The standardized-maximalist approach to supercom-puter benchmarking consists in optimizing a standar...
Over the past 15 years, microprocessor performance has doubled approximately every 18 months throug...
The historical trend of increasing single CPU performance has given way to roadmap of increasing co...
ABSTRACT: The historical trend of increasing single CPU performance has given way to roadmap of incr...
We describe our experiences in repeated cycles of performance optimization, benchmarking, and perfor...
Over the past 15 years, microprocessor performance hasdoubled approximately every 18 months through ...
The HPC Challenge (HPCC) benchmark suite and the Intel MPI Benchmark (IMB) are used to compare and e...
The last decade has witnessed a rapid proliferation of superscalar cache-based microprocessors to b...
Catamount (XT3/Red Storm’s Light Weight Kernel) to support multiple CPUs per node on XT systems whil...
Abstract—The Cray X1 supercomputer is a distributed shared memory vector multiprocessor, scalable to...
Oak Ridge National Laboratory recently received delivery of a 5,294 processor Cray XT3. The XT3 is C...
On August 15, 2002 the Department of Energy (DOE) selected the Center for Computational Sciences (C...
upgraded its Cray XT3 system from single-core to dual-core AMD Opteron processors and has procured a...
Cray XD1 nodes in October 2004, where each chassis has 12 AMD Opteron proces-sors. This paper descri...
We carry out a performance study using the Cray T3D parallel supercomputer to illustrate some import...
The standardized-maximalist approach to supercom-puter benchmarking consists in optimizing a standar...
Over the past 15 years, microprocessor performance has doubled approximately every 18 months throug...
The historical trend of increasing single CPU performance has given way to roadmap of increasing co...
ABSTRACT: The historical trend of increasing single CPU performance has given way to roadmap of incr...
We describe our experiences in repeated cycles of performance optimization, benchmarking, and perfor...
Over the past 15 years, microprocessor performance hasdoubled approximately every 18 months through ...
The HPC Challenge (HPCC) benchmark suite and the Intel MPI Benchmark (IMB) are used to compare and e...
The last decade has witnessed a rapid proliferation of superscalar cache-based microprocessors to b...
Catamount (XT3/Red Storm’s Light Weight Kernel) to support multiple CPUs per node on XT systems whil...
Abstract—The Cray X1 supercomputer is a distributed shared memory vector multiprocessor, scalable to...