In this paper, we describe the hardware and software architecture of the Red Storm system developed at Sandia National Laboratories. We discuss the evolution of this architecture and provide reasons for the different choices that have been made. We contrast our approach of leveraging high-volume, mass-market commodity processors to that taken for the Earth Simulator. We present a comparison of benchmarks and application performance that support our approach. We also project the performance of Red Storm and the Earth Simulator. This projection indicates that the Red Storm architecture is a much more cost-effective approach to massively parallel computing
The authors consider the design of a multiprocessor, called STORM, for efficient execution of large ...
A description is given of the hardware and software of a multiprocessor test bed - the second genera...
Many advanced research areas including defense, weather forecasting, signal processing, image and pa...
This report is based on the Statement of Work (SOW) describing the various requirements for deliveri...
Computers based on vector processors have been dominating the super computing scene till the last de...
Red Storm is an Advanced Simulation and Computing (ASC) funded massively parallel supercomputer loca...
Abstract cost or technology upgrades. Specifically, the approach entails: This paper describes a gen...
As supercomputers scale to 1,000 PFlop/s over the next decade, investi-gating the performance of par...
The computer architecture has been explored for higher performance, higher facilitate and/or more re...
174 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1985.As the cost of hardware compo...
AbstractThe article is concerned with the relevant problem of effective mapping of existing applicat...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
The paper deals with some problems arising in the course of development of modern high-performance c...
We present an analysis of the performance aspects of an atmospheric general circulation model at the...
The massively parallel processor (MPP) system is designed to process satellite imagery at high rates...
The authors consider the design of a multiprocessor, called STORM, for efficient execution of large ...
A description is given of the hardware and software of a multiprocessor test bed - the second genera...
Many advanced research areas including defense, weather forecasting, signal processing, image and pa...
This report is based on the Statement of Work (SOW) describing the various requirements for deliveri...
Computers based on vector processors have been dominating the super computing scene till the last de...
Red Storm is an Advanced Simulation and Computing (ASC) funded massively parallel supercomputer loca...
Abstract cost or technology upgrades. Specifically, the approach entails: This paper describes a gen...
As supercomputers scale to 1,000 PFlop/s over the next decade, investi-gating the performance of par...
The computer architecture has been explored for higher performance, higher facilitate and/or more re...
174 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1985.As the cost of hardware compo...
AbstractThe article is concerned with the relevant problem of effective mapping of existing applicat...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
The paper deals with some problems arising in the course of development of modern high-performance c...
We present an analysis of the performance aspects of an atmospheric general circulation model at the...
The massively parallel processor (MPP) system is designed to process satellite imagery at high rates...
The authors consider the design of a multiprocessor, called STORM, for efficient execution of large ...
A description is given of the hardware and software of a multiprocessor test bed - the second genera...
Many advanced research areas including defense, weather forecasting, signal processing, image and pa...