The end of Dennard scaling has led to a large amount of inactive or significantly underclocked transistors on modern chip multiprocessors in order to comply with the power budget and prevent the processors from overheating. This so-called dark silicon is one of the most critical constraints that will hinder the scaling with Moore\u27s Law in future. While advanced cooling techniques, such as liquid cooling, can effectively decrease the chip temperature and alleviate the power constraints, the peak performance, determined by the maximum number of transistors, which are allowed to switch simultaneously, is still confined by the amount of power pins on the chip package. In this paper, we propose a novel mechanism to power up the dark silicon b...
Semiconductor industry is hitting the utilization wall and puts focus on parallel and heterogeneous ...
......Conventional voltage scaling has slowed in recent years, limiting processor fre-quency to meet...
Server chips will not scale beyond a few tens to low hundreds of cores, and an increasing fraction o...
Power consumption in Complementary Metal Oxide Semiconductor (CMOS) technology has escalated to a po...
Besides stringent power and thermal constraints, a dark silicon chip is also subjected to various re...
This book presents the state-of-the art of one of the main concerns with microprocessors today, a ph...
The advent of Dark Silicon as result of the limit on Dennard scaling forced modern processor designs...
Dark silicon denotes the phenomenon that, due to thermal and power constraints, the fraction of tran...
Contemporary thermally-constrained techniques for optimizing dark silicon many-core system performan...
tion lets us pack more cores on the same die, thermal and power delivery constraints have precluded ...
The emergence of dark silicon - a fundamental design constraint absent in the past generations - bri...
Management of a problem recently known as “dark silicon” is a new challenge in multicore designs. Pr...
Limitation on power budget in many-core systems leaves a fraction of on-chip resources inactive, ref...
The inactive part of a chip, termed as Dark Silicon, is extending rapidly by introducing new technol...
have led to a disruptive new regime for dig-ital chip designers, where Moore’s law con-tinues but CM...
Semiconductor industry is hitting the utilization wall and puts focus on parallel and heterogeneous ...
......Conventional voltage scaling has slowed in recent years, limiting processor fre-quency to meet...
Server chips will not scale beyond a few tens to low hundreds of cores, and an increasing fraction o...
Power consumption in Complementary Metal Oxide Semiconductor (CMOS) technology has escalated to a po...
Besides stringent power and thermal constraints, a dark silicon chip is also subjected to various re...
This book presents the state-of-the art of one of the main concerns with microprocessors today, a ph...
The advent of Dark Silicon as result of the limit on Dennard scaling forced modern processor designs...
Dark silicon denotes the phenomenon that, due to thermal and power constraints, the fraction of tran...
Contemporary thermally-constrained techniques for optimizing dark silicon many-core system performan...
tion lets us pack more cores on the same die, thermal and power delivery constraints have precluded ...
The emergence of dark silicon - a fundamental design constraint absent in the past generations - bri...
Management of a problem recently known as “dark silicon” is a new challenge in multicore designs. Pr...
Limitation on power budget in many-core systems leaves a fraction of on-chip resources inactive, ref...
The inactive part of a chip, termed as Dark Silicon, is extending rapidly by introducing new technol...
have led to a disruptive new regime for dig-ital chip designers, where Moore’s law con-tinues but CM...
Semiconductor industry is hitting the utilization wall and puts focus on parallel and heterogeneous ...
......Conventional voltage scaling has slowed in recent years, limiting processor fre-quency to meet...
Server chips will not scale beyond a few tens to low hundreds of cores, and an increasing fraction o...