Add to ORKGNear-Threshold Computing embodies an intriguing choice for mobile processors due to the promise of superior energy efficiency, extending the battery life of these devices while reducing the peak power draw. However, process, voltage, and temperature variations cause a significantly high failure rate of Level One cache cells in the near-threshold regime a stark contrast to designs in the super-threshold regime, where fault sites are rare. This thesis work shows that faulty cells in the near-threshold regime are highly clustered in certain regions of the cache. In addition, popular mobile benchmarks are studied to investigate the impact of run-time workloads on timing faults manifestation. A technique to mitigate the run-time faults is propos...
To continue reducing voltage in scaled technologies, both circuit and architecture-level resiliency ...
The growing market of portable devices and smart wearables has contributed to innovation and develop...
As device density grows, each transistor gets smaller and more fragile leading to an overall higher ...
Historically, the increase of transistor devices per area of chip has been one of the key drivers of...
Near-threshold computing embodies an intriguing choice for extending mobile processor battery life d...
Improving energy efficiency is critical to increasing computing capability, from mobile devices oper...
Since array structures represent well over half the area and transistors on-chip, maintaining their ...
Decreasing power consumption in small devices such as handhelds, cell phones and high-performance pr...
This paper focuses on a review of state-of-the-art memory designs and new design methods for near-th...
Battery life is an important concern for modern embedded processors. Supply voltage scaling techniqu...
Energy-efficient computing is critical for a wide range of electronic devices, from personal mobile ...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Energy-efficient computing is critical for a wide range of electronic devices, from personal mobile ...
Power density is currently the primary design constraint across most computing segments and the main...
The growing market of portable devices and smart wearables has contributed to innovation and develop...
To continue reducing voltage in scaled technologies, both circuit and architecture-level resiliency ...
The growing market of portable devices and smart wearables has contributed to innovation and develop...
As device density grows, each transistor gets smaller and more fragile leading to an overall higher ...
Historically, the increase of transistor devices per area of chip has been one of the key drivers of...
Near-threshold computing embodies an intriguing choice for extending mobile processor battery life d...
Improving energy efficiency is critical to increasing computing capability, from mobile devices oper...
Since array structures represent well over half the area and transistors on-chip, maintaining their ...
Decreasing power consumption in small devices such as handhelds, cell phones and high-performance pr...
This paper focuses on a review of state-of-the-art memory designs and new design methods for near-th...
Battery life is an important concern for modern embedded processors. Supply voltage scaling techniqu...
Energy-efficient computing is critical for a wide range of electronic devices, from personal mobile ...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Energy-efficient computing is critical for a wide range of electronic devices, from personal mobile ...
Power density is currently the primary design constraint across most computing segments and the main...
The growing market of portable devices and smart wearables has contributed to innovation and develop...
To continue reducing voltage in scaled technologies, both circuit and architecture-level resiliency ...
The growing market of portable devices and smart wearables has contributed to innovation and develop...
As device density grows, each transistor gets smaller and more fragile leading to an overall higher ...