Server chips will not scale beyond a few tens to low hundreds of cores, and an increasing fraction of the chip in future technologies will be dark silicon that we cannot afford to power. Specialized multicore processors, however, can leverage the underutilized die area to overcome the initial power barrier, delivering significantly higher performance for the same bandwidth and power envelopes
Ideal CMOS device scaling relies on scaling voltages down with lithographic dimensions at every tec...
tion lets us pack more cores on the same die, thermal and power delivery constraints have precluded ...
Information technology is now an indispensable pillar of a modern-day society, thanks to the prolife...
......Although workloads with limited parallelism pose performance challenges with chip multiprocess...
Application datasets grow faster than Moore’s Law [7,8], both in personal and desktop computing, as ...
Management of a problem recently known as “dark silicon” is a new challenge in multicore designs. Pr...
The emergence of dark silicon - a fundamental design constraint absent in past generations - brings ...
Popular belief holds that the cores on chip will grow at an exponential rate, following Moore’s Law,...
As transistor scaling continues to push us into new design spaces, where power density is increasing...
......Conventional voltage scaling has slowed in recent years, limiting processor fre-quency to meet...
The advent of Dark Silicon as result of the limit on Dennard scaling forced modern processor designs...
Power consumption in Complementary Metal Oxide Semiconductor (CMOS) technology has escalated to a po...
As chip designers face the prospect of increasingly dark silicon, there is increased interest in inc...
The end of Dennard scaling has led to a large amount of inactive or significantly underclocked trans...
Semiconductor industry is hitting the utilization wall and puts focus on parallel and heterogeneous ...
Ideal CMOS device scaling relies on scaling voltages down with lithographic dimensions at every tec...
tion lets us pack more cores on the same die, thermal and power delivery constraints have precluded ...
Information technology is now an indispensable pillar of a modern-day society, thanks to the prolife...
......Although workloads with limited parallelism pose performance challenges with chip multiprocess...
Application datasets grow faster than Moore’s Law [7,8], both in personal and desktop computing, as ...
Management of a problem recently known as “dark silicon” is a new challenge in multicore designs. Pr...
The emergence of dark silicon - a fundamental design constraint absent in past generations - brings ...
Popular belief holds that the cores on chip will grow at an exponential rate, following Moore’s Law,...
As transistor scaling continues to push us into new design spaces, where power density is increasing...
......Conventional voltage scaling has slowed in recent years, limiting processor fre-quency to meet...
The advent of Dark Silicon as result of the limit on Dennard scaling forced modern processor designs...
Power consumption in Complementary Metal Oxide Semiconductor (CMOS) technology has escalated to a po...
As chip designers face the prospect of increasingly dark silicon, there is increased interest in inc...
The end of Dennard scaling has led to a large amount of inactive or significantly underclocked trans...
Semiconductor industry is hitting the utilization wall and puts focus on parallel and heterogeneous ...
Ideal CMOS device scaling relies on scaling voltages down with lithographic dimensions at every tec...
tion lets us pack more cores on the same die, thermal and power delivery constraints have precluded ...
Information technology is now an indispensable pillar of a modern-day society, thanks to the prolife...