Low-power modes in modern microprocessors rely on low frequencies and low voltages to reduce the energy budget. Nevertheless, manufacturing induced parameter variations can make SRAM cells unreliable producing hard errors at supply voltages below Vccmin. Recent proposals provide a rather low fault-coverage due to the fault coverage/overhead trade-off. We propose a new fault- tolerant L1 cache, which combines SRAM and eDRAM cells in L1 data caches to provide 100% SRAM hard-error fault coverage. Results show that, compared to a conventional cache and assuming 50% failure probability at low-power mode, leakage and dynamic energy savings are by 85% and 62%, respectively, with a minimal impact on performance.Peer Reviewe
Large SRAMs are the practical bottleneck to achieve a low supply voltage, because they suffer from p...
On-chip L1 and L2 caches dissipate a sizeable fraction of the total power of processors. As feature ...
To continue reducing voltage in scaled technologies, both circuit and architecture-level resiliency ...
Low-power modes in modern microprocessors rely on low frequencies and low voltages to reduce the ene...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Caches are known to consume a large part of total microprocessor power. Traditionally, voltage scali...
DoctorReliability of a memory subsystem is one of the most important feature to computer system stab...
Abstract—Power density has become the limiting factor in technology scaling as power budget limits t...
textOne of the major limiters to computer systems and systems on chip (SOC) designs is accessing the...
Abstract—We reduce cache supply voltage below the normally acceptable VDDMIN, in order to improve ov...
Complex approaches to fault-tolerant voltage-scalable (FTVS) SRAM cache architectures can suffer fro...
SRAM based cache becomes a more critical source of power dissipation, particularly for large last le...
One of the most effective techniques to reduce a processor\u27s power consumption is to reduce suppl...
Improving energy efficiency is critical to increasing computing capability, from mobile devices oper...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Large SRAMs are the practical bottleneck to achieve a low supply voltage, because they suffer from p...
On-chip L1 and L2 caches dissipate a sizeable fraction of the total power of processors. As feature ...
To continue reducing voltage in scaled technologies, both circuit and architecture-level resiliency ...
Low-power modes in modern microprocessors rely on low frequencies and low voltages to reduce the ene...
Power density has become the limiting factor in technology scaling as power budget restricts the amo...
Caches are known to consume a large part of total microprocessor power. Traditionally, voltage scali...
DoctorReliability of a memory subsystem is one of the most important feature to computer system stab...
Abstract—Power density has become the limiting factor in technology scaling as power budget limits t...
textOne of the major limiters to computer systems and systems on chip (SOC) designs is accessing the...
Abstract—We reduce cache supply voltage below the normally acceptable VDDMIN, in order to improve ov...
Complex approaches to fault-tolerant voltage-scalable (FTVS) SRAM cache architectures can suffer fro...
SRAM based cache becomes a more critical source of power dissipation, particularly for large last le...
One of the most effective techniques to reduce a processor\u27s power consumption is to reduce suppl...
Improving energy efficiency is critical to increasing computing capability, from mobile devices oper...
Voltage scaling to values near the threshold voltage is a promising technique to hold off the many-c...
Large SRAMs are the practical bottleneck to achieve a low supply voltage, because they suffer from p...
On-chip L1 and L2 caches dissipate a sizeable fraction of the total power of processors. As feature ...
To continue reducing voltage in scaled technologies, both circuit and architecture-level resiliency ...