Kshitij Doshi scite author profile

Advances in memory technology are promising the availability of byte-addressable persistent memory as an integral component of future computing platforms. This change has significant implications for software that has traditionally made a sharp distinction between durable and volatile storage. In this paper we describe a softwarehardware architecture, WrAP, for persistent memory that provides atomicity and durability while simultaneously ensuring that fast paths through the cache, DRAM, and persistent memory layers are not slowed down by burdensome buffering or double-copying requirements. Trace-driven simulation of transactional data structures indicate the potential for significant performance gains using the WrAP approach.

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MemBrain: Automated Application Guidance for Hybrid Memory Systems

Olson

Zhou

Jantz

et al. 2018

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Kshitij Doshi

SoftWrAP: A lightweight framework for transactional support of storage class memory

Atomic persistence for SCM with a non-intrusive backend controller

Using Model Trees for Computer Architecture Performance Analysis of Software Applications

Bridging the programming gap between persistent and volatile memory using WrAP

MemBrain: Automated Application Guidance for Hybrid Memory Systems

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