© 2014 ACM. Geometry scaling of semiconductor devices enables the design of ultra-low-cost (e.g., below 1 USD) battery-powered resource-constrained ubiquitous devices for environment, urban life, and body monitoring. These sensor-based devices require high performance to react in front of infrequent particular events as well as extreme energy efficiency in order to extend battery lifetime during most of the time when low performance is required. In addition, they require real-time guarantees. The most suitable technological solution for these devices consists of using hybrid processors able to operate at: (i) high voltage to provide high performance and (ii) near-/subthreshold voltage to provide ultra-low energy consumption. However, the mo...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Due to quadratic dependence of switching power on supply power, supply scaling leads to significant ...
option for CMOS ICs. As the supply voltage of low-power ICs decreases, it must remain compatible wit...
Increasing demand for implementing highly-miniaturized battery-powered ultra-low-cost systems (e.g.,...
Semiconductor technology evolution enables the design of sensor-based battery-powered ultra-low-cost...
Semiconductor technology evolution enables the design of resource-constrained battery-powered ultra-...
The need for more functionality and higher performance has increased the number of transistors to bi...
Technology scaling enables today the design of sensor-based ultra-low cost chips well suited for eme...
Energy-efficient computing is critical for a wide range of electronic devices, from personal mobile ...
SRAM based cache becomes a more critical source of power dissipation, particularly for large last le...
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...
Semiconductor technology evolution enables the design of ultra-low-cost chips (e.g., below 1 USD) re...
One of the most effective techniques to reduce a processor\u27s power consumption is to reduce suppl...
textOne of the major limiters to computer systems and systems on chip (SOC) designs is accessing the...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Due to quadratic dependence of switching power on supply power, supply scaling leads to significant ...
option for CMOS ICs. As the supply voltage of low-power ICs decreases, it must remain compatible wit...
Increasing demand for implementing highly-miniaturized battery-powered ultra-low-cost systems (e.g.,...
Semiconductor technology evolution enables the design of sensor-based battery-powered ultra-low-cost...
Semiconductor technology evolution enables the design of resource-constrained battery-powered ultra-...
The need for more functionality and higher performance has increased the number of transistors to bi...
Technology scaling enables today the design of sensor-based ultra-low cost chips well suited for eme...
Energy-efficient computing is critical for a wide range of electronic devices, from personal mobile ...
SRAM based cache becomes a more critical source of power dissipation, particularly for large last le...
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...
Semiconductor technology evolution enables the design of ultra-low-cost chips (e.g., below 1 USD) re...
One of the most effective techniques to reduce a processor\u27s power consumption is to reduce suppl...
textOne of the major limiters to computer systems and systems on chip (SOC) designs is accessing the...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Due to quadratic dependence of switching power on supply power, supply scaling leads to significant ...
option for CMOS ICs. As the supply voltage of low-power ICs decreases, it must remain compatible wit...