Information technology is now an indispensable pillar of a modern-day society, thanks to the proliferation of digital platforms in the past several decades. The demand on robust and economical data processing and storage, however, is growing faster than technology can sustain. Moreover, while forecasts indicate that chip density scaling will continue for another decade, the diminishing returns in supply voltage scaling preclude activating all on-chip transistors simultaneously, leading designs towards energy-centric solutions on "dark silicon". In this talk, I will describe this paradigm shift towards energy-centric server designs and its implications on fault tolerance and reliability
......Although workloads with limited parallelism pose performance challenges with chip multiprocess...
To meet an insatiable consumer demand for greater performance at less power, silicon technology has ...
Managing energy consumption has become a critical issue for computer system designers. End-users are...
Dark silicon denotes the phenomenon that, due to thermal and power constraints, the fraction of tran...
This book presents the state-of-the art of one of the main concerns with microprocessors today, a ph...
Besides stringent power and thermal constraints, a dark silicon chip is also subjected to various re...
In the last decades, the computing technology experienced tremendous developments. For instance, tra...
As transistor miniaturization continues, providing robustness and computational correctness comes wi...
Server chips will not scale beyond a few tens to low hundreds of cores, and an increasing fraction o...
International audienceEmerging Internet of Everything (IoE) applications and Artificial Intelligence...
Technology scaling has led to further processor integration, and future manycore chips will have mor...
Application datasets grow faster than Moore’s Law [7,8], both in personal and desktop computing, as ...
Chip power consumption is one of the most challenging and transforming issues that the semiconductor...
Semiconductor industry is hitting the utilization wall and puts focus on parallel and heterogeneous ...
Technology forecasts indicate that device scaling will continue well into the next decade. Unf...
......Although workloads with limited parallelism pose performance challenges with chip multiprocess...
To meet an insatiable consumer demand for greater performance at less power, silicon technology has ...
Managing energy consumption has become a critical issue for computer system designers. End-users are...
Dark silicon denotes the phenomenon that, due to thermal and power constraints, the fraction of tran...
This book presents the state-of-the art of one of the main concerns with microprocessors today, a ph...
Besides stringent power and thermal constraints, a dark silicon chip is also subjected to various re...
In the last decades, the computing technology experienced tremendous developments. For instance, tra...
As transistor miniaturization continues, providing robustness and computational correctness comes wi...
Server chips will not scale beyond a few tens to low hundreds of cores, and an increasing fraction o...
International audienceEmerging Internet of Everything (IoE) applications and Artificial Intelligence...
Technology scaling has led to further processor integration, and future manycore chips will have mor...
Application datasets grow faster than Moore’s Law [7,8], both in personal and desktop computing, as ...
Chip power consumption is one of the most challenging and transforming issues that the semiconductor...
Semiconductor industry is hitting the utilization wall and puts focus on parallel and heterogeneous ...
Technology forecasts indicate that device scaling will continue well into the next decade. Unf...
......Although workloads with limited parallelism pose performance challenges with chip multiprocess...
To meet an insatiable consumer demand for greater performance at less power, silicon technology has ...
Managing energy consumption has become a critical issue for computer system designers. End-users are...