open4siThis work is supported by the European FP7 ERC Advanced project MULTITHERMAN (g.a. 291125) and by IcySoC and YINS RTD projects, evaluated by the Swiss NSF and funded by Nano-Tera.ch with Swiss Confederation financing.Ultralow-power embedded systems have recently started the move to multicore designs. Aggressive voltage scaling techniques have the potential to reduce the power consumption within the admitted envelope, but memory operations on standard six-transistor static RAM (6T-SRAM) cells become unreliable at low voltages. While standard cell memory (SCM) overcomes this limitation, it has much lower area density than SRAM, and thus it is too costly. On the other hand, several applications have inherent tolerance to computation err...
option for CMOS ICs. As the supply voltage of low-power ICs decreases, it must remain compatible wit...
Energy consumption is a major constraining factor for embedded multi-core systems. Using aggressive ...
Energy-efficient computing is critical for a wide range of electronic devices, from personal mobile ...
open4siThis work is supported by the European FP7 ERC Advanced project MULTITHERMAN (g.a. 291125) an...
The need for more functionality and higher performance has increased the number of transistors to bi...
Millions of mobile devices are being activated and used every single day. For such devices, energy e...
Abstract—Power density has become the limiting factor in technology scaling as power budget restrict...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Efficient power management is becoming increasingly important with the rapid growth of portable, wir...
© 2014 ACM. Geometry scaling of semiconductor devices enables the design of ultra-low-cost (e.g., be...
Technology scaling enables today the design of sensor-based ultra-low cost chips well suited for eme...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from e...
Image processing and other multimedia applications require large embedded storage. In some of the ea...
Increasing demand for implementing highly-miniaturized battery-powered ultra-low-cost systems (e.g.,...
Power density is currently the primary design constraint across most computing segments and the main...
option for CMOS ICs. As the supply voltage of low-power ICs decreases, it must remain compatible wit...
Energy consumption is a major constraining factor for embedded multi-core systems. Using aggressive ...
Energy-efficient computing is critical for a wide range of electronic devices, from personal mobile ...
open4siThis work is supported by the European FP7 ERC Advanced project MULTITHERMAN (g.a. 291125) an...
The need for more functionality and higher performance has increased the number of transistors to bi...
Millions of mobile devices are being activated and used every single day. For such devices, energy e...
Abstract—Power density has become the limiting factor in technology scaling as power budget restrict...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Efficient power management is becoming increasingly important with the rapid growth of portable, wir...
© 2014 ACM. Geometry scaling of semiconductor devices enables the design of ultra-low-cost (e.g., be...
Technology scaling enables today the design of sensor-based ultra-low cost chips well suited for eme...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from e...
Image processing and other multimedia applications require large embedded storage. In some of the ea...
Increasing demand for implementing highly-miniaturized battery-powered ultra-low-cost systems (e.g.,...
Power density is currently the primary design constraint across most computing segments and the main...
option for CMOS ICs. As the supply voltage of low-power ICs decreases, it must remain compatible wit...
Energy consumption is a major constraining factor for embedded multi-core systems. Using aggressive ...
Energy-efficient computing is critical for a wide range of electronic devices, from personal mobile ...