Dark silicon denotes the phenomenon that, due to thermal and power constraints, the fraction of transistors that can operate at full frequency is decreasing in each technology generation. Moore’s law and Dennard scaling had been backed and coupled appropriately for five decades to bring commensurate exponential performance via single core and later muti-core design. However, recalculating Dennard scaling for recent small technology sizes shows that current ongoing multi-core growth is demanding exponential thermal design power to achieve linear performance increase. This process hits a power wall where raises the amount of dark or dim silicon on future multi/many-core chips more and more. Furthermore, from another perspective, by increasing...
Application datasets grow faster than Moore’s Law [7,8], both in personal and desktop computing, as ...
This thesis presents a novel approach to alleviating Dark Silicon problem by reducing power density...
Power and reliability issues are expected to increase in future multicore systems with a higher degr...
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 emergence of dark silicon - a fundamental design constraint absent in past generations - brings ...
As transistor miniaturization continues, providing robustness and computational correctness comes wi...
Management of a problem recently known as “dark silicon” is a new challenge in multicore designs. Pr...
The advent of Dark Silicon as result of the limit on Dennard scaling forced modern processor designs...
Information technology is now an indispensable pillar of a modern-day society, thanks to the prolife...
The end of Dennard scaling has led to a large amount of inactive or significantly underclocked trans...
Power consumption in Complementary Metal Oxide Semiconductor (CMOS) technology has escalated to a po...
Technology scaling has led to further processor integration, and future manycore chips will have mor...
The emergence of dark silicon - a fundamental design constraint absent in the past generations - bri...
As transistor scaling continues to push us into new design spaces, where power density is increasing...
Application datasets grow faster than Moore’s Law [7,8], both in personal and desktop computing, as ...
This thesis presents a novel approach to alleviating Dark Silicon problem by reducing power density...
Power and reliability issues are expected to increase in future multicore systems with a higher degr...
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 emergence of dark silicon - a fundamental design constraint absent in past generations - brings ...
As transistor miniaturization continues, providing robustness and computational correctness comes wi...
Management of a problem recently known as “dark silicon” is a new challenge in multicore designs. Pr...
The advent of Dark Silicon as result of the limit on Dennard scaling forced modern processor designs...
Information technology is now an indispensable pillar of a modern-day society, thanks to the prolife...
The end of Dennard scaling has led to a large amount of inactive or significantly underclocked trans...
Power consumption in Complementary Metal Oxide Semiconductor (CMOS) technology has escalated to a po...
Technology scaling has led to further processor integration, and future manycore chips will have mor...
The emergence of dark silicon - a fundamental design constraint absent in the past generations - bri...
As transistor scaling continues to push us into new design spaces, where power density is increasing...
Application datasets grow faster than Moore’s Law [7,8], both in personal and desktop computing, as ...
This thesis presents a novel approach to alleviating Dark Silicon problem by reducing power density...
Power and reliability issues are expected to increase in future multicore systems with a higher degr...