Concurrent cache-oblivious B-trees

Michael A. Bender; Seth Gilbert; Jeremy T. Fineman; Bradley C. Kuszmaul

doi:10.1145/1073970.1074009

Concurrent cache-oblivious B-trees

Michael A. Bender
, Seth Gilbert
, Jeremy T. Fineman
, Bradley C. Kuszmaul

Computer Science

Massachusetts Institute of Technology

Research output: Contribution to conference › Paper › peer-review

72 Scopus citations

Abstract

This paper presents concurrent cache-oblivious (CO) B-trees. We extend the cache-oblivious model to a parallel or distributed setting and present three concurrent CO B-trees. Our first data structure is a concurrent lock-based exponential CO B-tree. This data structure supports insertions and non-blocking searches/successor queries. The second and third data structures are lock-based and lock-free variations, respectively, on the packed-memory CO B-tree. These data structures support range queries and deletions in addition to the other operations. Each data structure achieves the same serial performance as the original data structure on which it is based. In a concurrent setting, we show that these data structures are linearizable, meaning that completed operations appear to an outside viewer as though they occurred in some serialized order. The lock-based data structures are also deadlock free, and the lock-free data structure guarantees forward progress by at least one process.

Original language	English
Pages	228-237
Number of pages	10
DOIs	https://doi.org/10.1145/1073970.1074009
State	Published - 2005
Event	Seventeenth Annual ACM Symposium on Parallelism in Algorithms and Architectures - Las Vegas, NV, United States Duration: Jul 18 2005 → Jul 20 2005

Conference

Conference	Seventeenth Annual ACM Symposium on Parallelism in Algorithms and Architectures
Country/Territory	United States
City	Las Vegas, NV
Period	07/18/05 → 07/20/05

Keywords

Cache-Oblivious B-tree
Concurrent B-tree
Exponential Tree
Lock Free
Non-Blocking
Packed-Memory Array

Access to Document

10.1145/1073970.1074009

Cite this

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title = "Concurrent cache-oblivious B-trees",

abstract = "This paper presents concurrent cache-oblivious (CO) B-trees. We extend the cache-oblivious model to a parallel or distributed setting and present three concurrent CO B-trees. Our first data structure is a concurrent lock-based exponential CO B-tree. This data structure supports insertions and non-blocking searches/successor queries. The second and third data structures are lock-based and lock-free variations, respectively, on the packed-memory CO B-tree. These data structures support range queries and deletions in addition to the other operations. Each data structure achieves the same serial performance as the original data structure on which it is based. In a concurrent setting, we show that these data structures are linearizable, meaning that completed operations appear to an outside viewer as though they occurred in some serialized order. The lock-based data structures are also deadlock free, and the lock-free data structure guarantees forward progress by at least one process.",

keywords = "Cache-Oblivious B-tree, Concurrent B-tree, Exponential Tree, Lock Free, Non-Blocking, Packed-Memory Array",

author = "Bender, \{Michael A.\} and Seth Gilbert and Fineman, \{Jeremy T.\} and Kuszmaul, \{Bradley C.\}",

year = "2005",

doi = "10.1145/1073970.1074009",

language = "English",

pages = "228--237",

note = "Seventeenth Annual ACM Symposium on Parallelism in Algorithms and Architectures ; Conference date: 18-07-2005 Through 20-07-2005",

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TY - CONF

T1 - Concurrent cache-oblivious B-trees

AU - Bender, Michael A.

AU - Gilbert, Seth

AU - Fineman, Jeremy T.

AU - Kuszmaul, Bradley C.

PY - 2005

Y1 - 2005

N2 - This paper presents concurrent cache-oblivious (CO) B-trees. We extend the cache-oblivious model to a parallel or distributed setting and present three concurrent CO B-trees. Our first data structure is a concurrent lock-based exponential CO B-tree. This data structure supports insertions and non-blocking searches/successor queries. The second and third data structures are lock-based and lock-free variations, respectively, on the packed-memory CO B-tree. These data structures support range queries and deletions in addition to the other operations. Each data structure achieves the same serial performance as the original data structure on which it is based. In a concurrent setting, we show that these data structures are linearizable, meaning that completed operations appear to an outside viewer as though they occurred in some serialized order. The lock-based data structures are also deadlock free, and the lock-free data structure guarantees forward progress by at least one process.

AB - This paper presents concurrent cache-oblivious (CO) B-trees. We extend the cache-oblivious model to a parallel or distributed setting and present three concurrent CO B-trees. Our first data structure is a concurrent lock-based exponential CO B-tree. This data structure supports insertions and non-blocking searches/successor queries. The second and third data structures are lock-based and lock-free variations, respectively, on the packed-memory CO B-tree. These data structures support range queries and deletions in addition to the other operations. Each data structure achieves the same serial performance as the original data structure on which it is based. In a concurrent setting, we show that these data structures are linearizable, meaning that completed operations appear to an outside viewer as though they occurred in some serialized order. The lock-based data structures are also deadlock free, and the lock-free data structure guarantees forward progress by at least one process.

KW - Cache-Oblivious B-tree

KW - Concurrent B-tree

KW - Exponential Tree

KW - Lock Free

KW - Non-Blocking

KW - Packed-Memory Array

UR - https://www.scopus.com/pages/publications/32144449245

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DO - 10.1145/1073970.1074009

M3 - Paper

AN - SCOPUS:32144449245

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T2 - Seventeenth Annual ACM Symposium on Parallelism in Algorithms and Architectures

Y2 - 18 July 2005 through 20 July 2005

ER -

Concurrent cache-oblivious B-trees

Abstract

Conference

Keywords

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