Zobrazeno 1 - 10
of 13
pro vyhledávání: '"John R. Nickolls"'
Autor:
John R. Nickolls, William J. Dally
Publikováno v:
IEEE Micro. 30:56-69
GPU computing is at a tipping point, becoming more widely used in demanding consumer applications and high-performance computing. This article describes the rapid evolution of GPU architectures-from graphics processors to massively parallel many-core
Publikováno v:
IEEE Micro. 28:39-55
To enable flexible, programmable graphics and high-performance computing, NVIDIA has developed the Tesla scalable unified graphics and parallel computing architecture. Its scalable parallel array of processors is massively multithreaded and programma
Publikováno v:
Queue. 6:40-53
The advent of multicore CPUs and manycore GPUs means that mainstream processor chips are now parallel systems. Furthermore, their parallelism continues to scale with Moore’s law. The challenge is to develop mainstream application software that tran
Publikováno v:
Materials Science Forum. :265-272
Publikováno v:
IEEE Micro. 23:29-43
The convergence of voice, data, and multimedia transport with traditional telephony demands reliable and high-quality voice over packet services. Calisto leverages multiprocessor parallelism and low-power integration to enable multichannel communicat
Publikováno v:
SIGGRAPH Classes
The advent of multicore CPUs and manycore GPUs means that mainstream processor chips are now parallel systems. Furthermore, their parallelism continues to scale with Moore's law. The challenge is to develop mainstream application software that transp
Autor:
John R. Nickolls
Publikováno v:
2008 IEEE Hot Chips 20 Symposium (HCS).
Autor:
John R. Nickolls
Publikováno v:
2007 IEEE Hot Chips 19 Symposium (HCS).
This article consists of a collection of slides from the author's conference presentation on NVIDIA's CUDA programming model (parallel computing platform and application programming interface) via graphical processing units (GPU). Some of the specifi
Publikováno v:
Laser Scanning and Recording for Advanced Image and Data Handling.
A real -time digital image simulation facility is described. The facility is memory cen-tered with a large random access memory combined with a pair of 300 megabyte parallel trans-fer disk drives. The recording rate for the facility will be from DC t