EagleTree: Exploring the Design Space of SSD-Based Algorithms

Niv Dayan, Martin Kjær Svendsen, Matias Bjørling, Philippe Bonnet, Luc Bouganim

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Abstract

Solid State Drives (SSDs) are a moving target for system designers: they are black boxes, their internals are undocumented, and their performance characteristics vary across models. There is no appropriate analytical model and experimenting with commercial SSDs is cumbersome, as it requires a careful experimental methodology to ensure repeatability. Worse, performance results obtained on a given SSD cannot be generalized. Overall, it is impossible to explore how a given algorithm, say a hash join or LSM-tree insertions, leverages the intrinsic parallelism of a modern SSD, or how a slight change in the internals of an SSD would impact its overall performance. In this paper, we propose a new SSD simulation framework, named EagleTree, which addresses these problems, and enables a principled study of SSD-Based algorithms. The demonstration scenario illustrates the design space for algorithms based on an SSD-based IO stack, and shows how researchers and practitioners can use EagleTree to perform tractable explorations of this complex design space.
OriginalsprogEngelsk
TidsskriftProceedings of the VLDB Endowment
Vol/bind6
Udgave nummer12
Sider (fra-til)1290-1293
ISSN2150-8097
StatusUdgivet - 2013

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