SEU-Aware Low-Power Memories Using a Multiple Supply Voltage Array Architecture

Abstract: Abstract. Electric devices should be resilient because reliability issues are increasingly problematic as technology scales down and the supply voltage is lowered. Specifically, the Soft-Error Rate (SER) increases due to the reduced feature size and the reduced charge. This paper describes an adaptive method to lower memory power using a dual V dd in a column-based V dd memory with Built-In Current Sensors (BICS). Using our method, we reduce the memory power by about 40% and increase the error immunity of the … Show more

“…They are also similar in that they either reduce the effective cache capacity by disabling faulty regions as VDD is reduced (e.g., FFT-Cache [BanaiyanMofrad et al 2011]), or boost VDD in "weak" regions as necessary to maintain capacity (e.g., Sasan et al [2012]). Han et al [2013] and Kim and Guthaus [2013] both utilize multiple memory supply voltages. Ghasemi et al [2011] proposed a lastlevel cache with heterogeneous cell sizes for more graceful voltage/capacity trade-offs.…”

DPCS

“…They are also similar in that they either reduce the effective cache capacity by disabling faulty regions as VDD is reduced (e.g., FFT-Cache [BanaiyanMofrad et al 2011]), or boost VDD in "weak" regions as necessary to maintain capacity (e.g., Sasan et al [2012]). Han et al [2013] and Kim and Guthaus [2013] both utilize multiple memory supply voltages. Ghasemi et al [2011] proposed a lastlevel cache with heterogeneous cell sizes for more graceful voltage/capacity trade-offs.…”

DPCS

Разработка Методики Расчета И Оптимизация Энергопотребления Статических Оперативных Запоминающих Устройств