New file systems are critical to obtain good I/O performance on large multiprocessors. Several researchers have suggested the use of collective file-system operations, in which all processes in an application cooperate in each I/O request. Others have suggested that the traditional lowlevel interface (read, write, seek) be augmented with various higher-level requests (e.g., read matrix), allowing the programmer to express a complex transfer in a single (perhaps collective) request. Collective, high-level requests permit techniques like two-phase I/O and disk-directed I/O to significantly improve performance over traditional file systems and interfaces. Neither of these techniques have been tested on anything other than simple benchmarks tha...
The control of I/O by traditional file systems and virtual memory systems can result in substantial ...
The increasing number of cores per node has propelled the performance of leadershipscale systems fro...
The solution of Grand Challenge Problems will require computations that are too large to fit in the ...
New file systems are critical to obtain good I/O performance on large multiprocessors. Several resea...
New file systems are critical to obtain good I/O performance on large multiprocessors. Several resea...
New file systems are critical to obtain good I/O performance on large multiprocessors. Several resea...
Many scientific applications that run on today\u27s multiprocessors are bottlenecked by their file I...
. The solution of Grand Challenge Problems will require computations which are too large to fit in t...
In other papers I propose the idea of disk-directed I/O for multiprocessor file systems. Those paper...
As parallel computers are increasingly used to run scientific applications with large data sets, and...
A number of applications on parallel computers deal with very large data sets that cannot fit in mai...
Many scientific applications are I/O intensive and have tremendous I/O requirements, including check...
As parallel systems move into the production scientific-computing world, the emphasis will be on cos...
257 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1993.There exists an increasing di...
For a large class of scientific computing applications, the continuing growth in physical memory cap...
The control of I/O by traditional file systems and virtual memory systems can result in substantial ...
The increasing number of cores per node has propelled the performance of leadershipscale systems fro...
The solution of Grand Challenge Problems will require computations that are too large to fit in the ...
New file systems are critical to obtain good I/O performance on large multiprocessors. Several resea...
New file systems are critical to obtain good I/O performance on large multiprocessors. Several resea...
New file systems are critical to obtain good I/O performance on large multiprocessors. Several resea...
Many scientific applications that run on today\u27s multiprocessors are bottlenecked by their file I...
. The solution of Grand Challenge Problems will require computations which are too large to fit in t...
In other papers I propose the idea of disk-directed I/O for multiprocessor file systems. Those paper...
As parallel computers are increasingly used to run scientific applications with large data sets, and...
A number of applications on parallel computers deal with very large data sets that cannot fit in mai...
Many scientific applications are I/O intensive and have tremendous I/O requirements, including check...
As parallel systems move into the production scientific-computing world, the emphasis will be on cos...
257 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1993.There exists an increasing di...
For a large class of scientific computing applications, the continuing growth in physical memory cap...
The control of I/O by traditional file systems and virtual memory systems can result in substantial ...
The increasing number of cores per node has propelled the performance of leadershipscale systems fro...
The solution of Grand Challenge Problems will require computations that are too large to fit in the ...