A case for specialized processors for scale-out workloads

Michael Ferdman; Almutaz Adileh; Onur Kocberber; Stavros Volos; Mohammad Alisafaee; Djordje Jevdjic; Cansu Kaynak; Adrian Daniel Popescu; Anastasia Ailamaki; Babak Falsafi

doi:10.1109/MM.2014.41

A case for specialized processors for scale-out workloads

Michael Ferdman
, Almutaz Adileh
, Onur Kocberber
, Stavros Volos
, Mohammad Alisafaee
, Djordje Jevdjic
, Cansu Kaynak
, Adrian Daniel Popescu
, Anastasia Ailamaki
, Babak Falsafi

Computer Science

Ghent University
Swiss Federal Institute of Technology Lausanne

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Emerging scale-out workloads need extensive amounts of computational resources. However, datacenters using modern server hardware face physical constraints in space and power, limiting further expansion and requiring improvements in the computational density per server and in the per-operation energy. Continuing to improve the computational resources of the cloud while staying within physical constraints mandates optimizing server efficiency. In this work, we demonstrate that modern server processors are highly inefficient for running cloud workloads. To address this problem, we investigate the microarchitectural behavior of scale-out workloads and present opportunities to enable specialized processor designs that closely match the needs of the cloud.

Original language	English
Article number	6828575
Pages (from-to)	31-42
Number of pages	12
Journal	IEEE Micro
Volume	34
Issue number	3
DOIs	https://doi.org/10.1109/MM.2014.41
State	Published - 2014

Keywords

cloud
cloud computing
computational density
datacenter
hardware
networking
optimization
scale-out workloads
server processor

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10.1109/MM.2014.41

Cite this

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AU - Volos, Stavros

AU - Alisafaee, Mohammad

AU - Jevdjic, Djordje

AU - Kaynak, Cansu

AU - Popescu, Adrian Daniel

AU - Ailamaki, Anastasia

AU - Falsafi, Babak

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A case for specialized processors for scale-out workloads

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