Add to ORKGOne of the most effective techniques to reduce a processor\u27s power consumption is to reduce supply voltage. However, reducing voltage in the context of manufacturing-induced parameter variations can cause many types of memory circuits to fail. As a result, voltage scaling is limited by a minimum voltage, often called Vccmin, beyond which circuits may not operate reliably. Large memory structures (e,g., caches) typically set Vccmin for the whole processor. In this paper, we propose two architectural techniques that enable microprocessor caches (L1 and L2), to operate at low voltages despite very high memory cell failure rates. The Word-disable scheme combines two consecutive cache lines, to form a single cache line where only non-failing ...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Abstract—In this paper we present the “Variation Trained Drowsy Cache ” (VTD-Cache) architecture. VT...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from ...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Abstract—Power density has become the limiting factor in technology scaling as power budget restrict...
Abstract—Power density has become the limiting factor in technology scaling as power budget limits t...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Abstract—We reduce cache supply voltage below the normally acceptable VDDMIN, in order to improve ov...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from e...
Thesis (Ph. D.)--University of Rochester. Dept. of Electrical and Computer Engineering, 2016.Energy ...
Continuous circuit miniaturization and increased process variability point to a future with diminish...
Continuous circuit miniaturization and increased process variability point to a future with diminish...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Abstract—In this paper we present the “Variation Trained Drowsy Cache ” (VTD-Cache) architecture. VT...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from ...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Abstract—Power density has become the limiting factor in technology scaling as power budget restrict...
Abstract—Power density has become the limiting factor in technology scaling as power budget limits t...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Abstract—We reduce cache supply voltage below the normally acceptable VDDMIN, in order to improve ov...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from e...
Thesis (Ph. D.)--University of Rochester. Dept. of Electrical and Computer Engineering, 2016.Energy ...
Continuous circuit miniaturization and increased process variability point to a future with diminish...
Continuous circuit miniaturization and increased process variability point to a future with diminish...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Abstract—In this paper we present the “Variation Trained Drowsy Cache ” (VTD-Cache) architecture. VT...
Minimizing power consumption continues to grow as a critical design issue for many platforms, from ...