In this paper, we propose a design paradigm for energy efficient and variation-aware operation of next-generation multicore heterogeneous platforms. The main idea behind the proposed approach lies on the observation that not all operations are equally important in shaping the output quality of various applications and of the overall system. Based on such an observation, we suggest that all levels of the software design stack, including the programming model, compiler, operating system (OS) and run-time system should identify the critical tasks and ensure correct operation of such tasks by assigning them to dynamically adjusted reliable cores/units. Specifically, based on error rates and operating conditions identified by a sense-and-adapt (...
Today’s designs are being shaped by the challenges of nano-CMOS technologies: increased power densit...
Energy consumption is a primary concern of current day computing systems -- from handheld battery op...
Current processor designs have a critical operating point that sets a hard limit on voltage scaling....
The continued scaling of silicon fabrication technologies has enabled the integration of dozens of p...
This book describes the state-of-the art of industrial and academic research in the architectural de...
In light of the end of Dennard scaling, significant design changes in the core microarchitecture are...
This book describes the state-of-the art of industrial and academic research in the architectural de...
As computer technology progresses, making smaller, lighter, and faster computing devices possible, w...
An extension of approximate computing, significance-based computing exploits applications' inherent ...
In recent years, circuit reliability in modern high-performance processors has become increasingly i...
Semiconductor technology scaling has long been a source of dramatic gains in our computing capabilit...
As traditional approaches for reducing power in microprocessors are being exhausted, extreme power c...
Many programs exhibit application level error resilience which allows certain subcomputations to exe...
The power-wall raised by the stagnation of supply voltage in deep-submicron technology nodes, is now...
With scaling of semiconductor fabrication technologies and the push towards deep sub-micron technolo...
Today’s designs are being shaped by the challenges of nano-CMOS technologies: increased power densit...
Energy consumption is a primary concern of current day computing systems -- from handheld battery op...
Current processor designs have a critical operating point that sets a hard limit on voltage scaling....
The continued scaling of silicon fabrication technologies has enabled the integration of dozens of p...
This book describes the state-of-the art of industrial and academic research in the architectural de...
In light of the end of Dennard scaling, significant design changes in the core microarchitecture are...
This book describes the state-of-the art of industrial and academic research in the architectural de...
As computer technology progresses, making smaller, lighter, and faster computing devices possible, w...
An extension of approximate computing, significance-based computing exploits applications' inherent ...
In recent years, circuit reliability in modern high-performance processors has become increasingly i...
Semiconductor technology scaling has long been a source of dramatic gains in our computing capabilit...
As traditional approaches for reducing power in microprocessors are being exhausted, extreme power c...
Many programs exhibit application level error resilience which allows certain subcomputations to exe...
The power-wall raised by the stagnation of supply voltage in deep-submicron technology nodes, is now...
With scaling of semiconductor fabrication technologies and the push towards deep sub-micron technolo...
Today’s designs are being shaped by the challenges of nano-CMOS technologies: increased power densit...
Energy consumption is a primary concern of current day computing systems -- from handheld battery op...
Current processor designs have a critical operating point that sets a hard limit on voltage scaling....