Although the challenges to achieving petascale computing within the next decade are daunting, several software and hardware technologies are emerging that could help us reach this goal. The authors review these technologies and consider new algorithms capable of exploiting a petascale computer's architecture. One petaflop per second is a rate of computation corresponding to 10[superscript 15] floating-point operations per second. To be of use in scientific computing, a computer capable of this prodigious speed needs a main memory of tens or hundreds of terabytes and enormous amounts of mass storage. Sophisticated compilers and high memory and I/O bandwidth are also essential to exploit the architecture efficiently. To mask the hardware and ...
We present the outline of a research project aimed at designing and constructing a hybrid computing ...
This special issue of Future Generation Computer Systems contains four extended papers selected from...
In this article we review the evolution of supercomputers from vector supercomputers to massively pa...
Although the challenges to achieving petascale computing within the next decade are daunting, severa...
Scientific applications in nanoscience, combustion modeling, fusion energy simulations, climate mode...
Petascale computing is currently a common topic of discussion in the high performance computing comm...
This report covers a study of the potential for petaflops (1O(exp 15) floating point operations per ...
This talk considers the problem of defining success criteria for petaflop computers. Current expecta...
After a decade where HEC (high-end computing) capability was dominated by the rapid pace of improvem...
Over the past decade, an increasing number of scientific and engineering breakthroughs have been ach...
The race to build ever-faster supercomputers is on, with more contenders than ever before. However, ...
Scientific computation has come into its own as a mature technology in all fields of science. Never ...
Teraflops-scale computing systems are becoming available to an increasingly broad range of users as ...
© Springer International Publishing AG 2018. When measuring large data volumes and computations, wor...
The Petascale Computing Enabling Technologies (PCET) project addressed challenges arising from curre...
We present the outline of a research project aimed at designing and constructing a hybrid computing ...
This special issue of Future Generation Computer Systems contains four extended papers selected from...
In this article we review the evolution of supercomputers from vector supercomputers to massively pa...
Although the challenges to achieving petascale computing within the next decade are daunting, severa...
Scientific applications in nanoscience, combustion modeling, fusion energy simulations, climate mode...
Petascale computing is currently a common topic of discussion in the high performance computing comm...
This report covers a study of the potential for petaflops (1O(exp 15) floating point operations per ...
This talk considers the problem of defining success criteria for petaflop computers. Current expecta...
After a decade where HEC (high-end computing) capability was dominated by the rapid pace of improvem...
Over the past decade, an increasing number of scientific and engineering breakthroughs have been ach...
The race to build ever-faster supercomputers is on, with more contenders than ever before. However, ...
Scientific computation has come into its own as a mature technology in all fields of science. Never ...
Teraflops-scale computing systems are becoming available to an increasingly broad range of users as ...
© Springer International Publishing AG 2018. When measuring large data volumes and computations, wor...
The Petascale Computing Enabling Technologies (PCET) project addressed challenges arising from curre...
We present the outline of a research project aimed at designing and constructing a hybrid computing ...
This special issue of Future Generation Computer Systems contains four extended papers selected from...
In this article we review the evolution of supercomputers from vector supercomputers to massively pa...