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EOR as sequestration: Geoscience perspective
CO2 Enhanced Oil Recovery (EOR) has a development and operational history several decades longer than geologic sequestration of CO2 designed to benefit the atmosphere and provides much of the experience on which confidence in the newer technology is based. With modest increases in surveillance and accounting, future CO2 EOR using anthropogenic CO2 (CO2-A) captured to decrease atmospheric emissions can be used as part of a sequestration program.Bureau of Economic Geolog
Strategies to enhance the 3T1D-DRAM cell variability robustness beyond 22 nm
3T1D cell has been stated as a valid alternative to be implemented on L1 memory cache to substitute 6T, highly affected by device variability as technology dimensions are reduced. In this work, we have shown that 22 nm 3T1D memory cells present significant tolerance to high levels of device parameter fluctuation. Moreover, we have observed that when variability is considered the write access transistor becomes a significant detrimental element on the 3T1D cell performance. Furthermore, resizing and temperature control have been presented as some valid strategies in order to mitigate the 3T1D cell variability.Peer ReviewedPostprint (author's final draft
HALLS: An Energy-Efficient Highly Adaptable Last Level STT-RAM Cache for Multicore Systems
Spin-Transfer Torque RAM (STT-RAM) is widely considered a promising
alternative to SRAM in the memory hierarchy due to STT-RAM's non-volatility,
low leakage power, high density, and fast read speed. The STT-RAM's small
feature size is particularly desirable for the last-level cache (LLC), which
typically consumes a large area of silicon die. However, long write latency and
high write energy still remain challenges of implementing STT-RAMs in the CPU
cache. An increasingly popular method for addressing this challenge involves
trading off the non-volatility for reduced write speed and write energy by
relaxing the STT-RAM's data retention time. However, in order to maximize
energy saving potential, the cache configurations, including STT-RAM's
retention time, must be dynamically adapted to executing applications' variable
memory needs. In this paper, we propose a highly adaptable last level STT-RAM
cache (HALLS) that allows the LLC configurations and retention time to be
adapted to applications' runtime execution requirements. We also propose
low-overhead runtime tuning algorithms to dynamically determine the best
(lowest energy) cache configurations and retention times for executing
applications. Compared to prior work, HALLS reduced the average energy
consumption by 60.57% in a quad-core system, while introducing marginal latency
overhead.Comment: To Appear on IEEE Transactions on Computers (TC
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