A distributed in-memory key-value store system on heterogeneous CPU–GPU cluster

In-memory key-value stores play a critical role in many data-intensive applications to provide high-throughput and low latency data accesses. In-memory key-value stores have several unique properties that include (1) data-intensive operations demanding high memory bandwidth for fast data accesses, (...

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Vydáno v:The VLDB journal Ročník 26; číslo 5; s. 729 - 750
Hlavní autoři: Zhang, Kai, Wang, Kaibo, Yuan, Yuan, Guo, Lei, Li, Rubao, Zhang, Xiaodong, He, Bingsheng, Hu, Jiayu, Hua, Bei
Médium: Journal Article
Jazyk:angličtina
Vydáno: Berlin/Heidelberg Springer Berlin Heidelberg 01.10.2017
Springer Nature B.V
Témata:
Bandwidths
Central processing units
Clusters
Computation
Computer memory
Computer Science
Computer upgrading
CPUs
Data processing
Data storage
Database Management
Distributed memory
Regular Paper
Universal Serial Bus
Heterogeneous systems
Energy efficiency
Distributed systems
GPU
Key-value store
ISSN:1066-8888, 0949-877X
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Shrnutí:In-memory key-value stores play a critical role in many data-intensive applications to provide high-throughput and low latency data accesses. In-memory key-value stores have several unique properties that include (1) data-intensive operations demanding high memory bandwidth for fast data accesses, (2) high data parallelism and simple computing operations demanding many slim parallel computing units, and (3) a large working set. However, our experiments show that homogeneous multicore CPU systems are increasingly mismatched to the special properties of key-value stores because they do not provide massive data parallelism and high memory bandwidth; the powerful but the limited number of computing cores does not satisfy the demand of the unique data processing task; and the cache hierarchy may not well benefit to the large working set. In this paper, we present the design and implementation of Mega-KV, a distributed in-memory key-value store system on a heterogeneous CPU–GPU cluster. Effectively utilizing the high memory bandwidth and latency hiding capability of GPUs, Mega-KV provides fast data accesses and significantly boosts overall performance and energy efficiency over the homogeneous CPU architectures. Mega-KV shows excellent scalability and processes up to 623-million key-value operations per second on a cluster installed with eight CPUs and eight GPUs, while delivering an efficiency of up to 299-thousand operations per Watt (KOPS/W).
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ISSN:1066-8888
0949-877X
DOI:10.1007/s00778-017-0479-0