Semiconductor technology evolution enables the design of resource-constrained battery-powered ultra-low-cost chips required for new market segments such as environment, urban life and body monitoring. Caches have been shown to be the main energy and area consumer in those chips. This paper proposes simple, hybrid-operation (high Vcc, ultra-low Vcc), single-Vcc domain Adaptive Performance- Predictable Low-Energy (APPLE) L1 cache designs based on replacing energy-hungry SRAM cells by more energy-efficient and smaller cells enhanced with extra cache lines set up in an adapted victim cache to still enable strong performance guarantees. APPLE caches are proven to largely outperform existing solutions in terms of energy and area efficiency
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Improving energy efficiency is critical to increasing computing capability, from mobile devices oper...
The need for more functionality and higher performance has increased the number of transistors to bi...
Increasing demand for implementing highly-miniaturized battery-powered ultra-low-cost systems (e.g.,...
© 2014 ACM. Geometry scaling of semiconductor devices enables the design of ultra-low-cost (e.g., be...
Semiconductor technology evolution enables the design of ultra-low-cost chips (e.g., below 1 USD) re...
Semiconductor technology evolution enables the design of sensor-based battery-powered ultra-low-cost...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from e...
textOne of the major limiters to computer systems and systems on chip (SOC) designs is accessing the...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from ...
Caches consume a significant amount of energy in modern microprocessors. To design an energy-efficie...
One of the most effective techniques to reduce a processor\u27s power consumption is to reduce suppl...
With each technology generation we get more transistors per chip. Whilst processor frequencies have ...
Abstract—Power density has become the limiting factor in technology scaling as power budget restrict...
Battery life is an important concern for modern embedded processors. Supply voltage scaling techniqu...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Improving energy efficiency is critical to increasing computing capability, from mobile devices oper...
The need for more functionality and higher performance has increased the number of transistors to bi...
Increasing demand for implementing highly-miniaturized battery-powered ultra-low-cost systems (e.g.,...
© 2014 ACM. Geometry scaling of semiconductor devices enables the design of ultra-low-cost (e.g., be...
Semiconductor technology evolution enables the design of ultra-low-cost chips (e.g., below 1 USD) re...
Semiconductor technology evolution enables the design of sensor-based battery-powered ultra-low-cost...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from e...
textOne of the major limiters to computer systems and systems on chip (SOC) designs is accessing the...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from ...
Caches consume a significant amount of energy in modern microprocessors. To design an energy-efficie...
One of the most effective techniques to reduce a processor\u27s power consumption is to reduce suppl...
With each technology generation we get more transistors per chip. Whilst processor frequencies have ...
Abstract—Power density has become the limiting factor in technology scaling as power budget restrict...
Battery life is an important concern for modern embedded processors. Supply voltage scaling techniqu...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Improving energy efficiency is critical to increasing computing capability, from mobile devices oper...
The need for more functionality and higher performance has increased the number of transistors to bi...