Scalable schedulers for high-performance switches

Chuanjun Li; S. Q. Zheng; Mei Yang

Scalable schedulers for high-performance switches

Chuanjun Li^*, S. Q. Zheng, Mei Yang

^*此作品的通讯作者

科研成果: 书/报告/会议事项章节 › 会议稿件 › 同行评审

11 引用（Scopus）

摘要

Scheduler and switching fabric are two major hardware components of a cell switch. For a switch using a non-blocking switching fabric, the performance of the switch depends on the performance of its cell scheduler. We introduce the concepts of relative and universal scheduler scalabilities. Informally, a scheduler is relatively scalable with respect to a switching fabric if its structure is not more complex than the structure of its associated non-blocking switching fabric. A scheduler is universally scalable if its structural complexity is not larger than the structural complexity of any non-blocking switching fabric. Based on algorithm-hardware co-design, we present a universally scalable scheduler with O(N log N) interconnection complexity. We show by simulation that the performance of the proposed scheduler is almost the same as non-scalable schedulers.

源语言	英语
主期刊名	2004 Workshop on High Performance Switching and Routing, HPSR 2004
页	198-202
页数	5
出版状态	已出版 - 2004
已对外发布	是
活动	2004 Workshop on High Perfomance Switching and Routing, HPSR 2004 - Phoenix, AZ, 美国期限: 19 4月 2004 → 20 4月 2004

出版系列

姓名	IEEE Workshop on High Performance Switching and Routing, HPSR

会议

会议	2004 Workshop on High Perfomance Switching and Routing, HPSR 2004
国家/地区	美国
市	Phoenix, AZ
时期	19/04/04 → 20/04/04

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链接到 Scopus 的出版物

引用此

@inproceedings{e37154716cc9423ca9f907e62fb7c17d,

title = "Scalable schedulers for high-performance switches",

abstract = "Scheduler and switching fabric are two major hardware components of a cell switch. For a switch using a non-blocking switching fabric, the performance of the switch depends on the performance of its cell scheduler. We introduce the concepts of relative and universal scheduler scalabilities. Informally, a scheduler is relatively scalable with respect to a switching fabric if its structure is not more complex than the structure of its associated non-blocking switching fabric. A scheduler is universally scalable if its structural complexity is not larger than the structural complexity of any non-blocking switching fabric. Based on algorithm-hardware co-design, we present a universally scalable scheduler with O(N log N) interconnection complexity. We show by simulation that the performance of the proposed scheduler is almost the same as non-scalable schedulers.",

author = "Chuanjun Li and Zheng, {S. Q.} and Mei Yang",

year = "2004",

language = "English",

isbn = "0780383753",

series = "IEEE Workshop on High Performance Switching and Routing, HPSR",

pages = "198--202",

booktitle = "2004 Workshop on High Performance Switching and Routing, HPSR 2004",

note = "2004 Workshop on High Perfomance Switching and Routing, HPSR 2004 ; Conference date: 19-04-2004 Through 20-04-2004",

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TY - GEN

T1 - Scalable schedulers for high-performance switches

AU - Li, Chuanjun

AU - Zheng, S. Q.

AU - Yang, Mei

PY - 2004

Y1 - 2004

N2 - Scheduler and switching fabric are two major hardware components of a cell switch. For a switch using a non-blocking switching fabric, the performance of the switch depends on the performance of its cell scheduler. We introduce the concepts of relative and universal scheduler scalabilities. Informally, a scheduler is relatively scalable with respect to a switching fabric if its structure is not more complex than the structure of its associated non-blocking switching fabric. A scheduler is universally scalable if its structural complexity is not larger than the structural complexity of any non-blocking switching fabric. Based on algorithm-hardware co-design, we present a universally scalable scheduler with O(N log N) interconnection complexity. We show by simulation that the performance of the proposed scheduler is almost the same as non-scalable schedulers.

AB - Scheduler and switching fabric are two major hardware components of a cell switch. For a switch using a non-blocking switching fabric, the performance of the switch depends on the performance of its cell scheduler. We introduce the concepts of relative and universal scheduler scalabilities. Informally, a scheduler is relatively scalable with respect to a switching fabric if its structure is not more complex than the structure of its associated non-blocking switching fabric. A scheduler is universally scalable if its structural complexity is not larger than the structural complexity of any non-blocking switching fabric. Based on algorithm-hardware co-design, we present a universally scalable scheduler with O(N log N) interconnection complexity. We show by simulation that the performance of the proposed scheduler is almost the same as non-scalable schedulers.

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M3 - Conference contribution

AN - SCOPUS:2942562348

SN - 0780383753

SN - 9780780383753

T3 - IEEE Workshop on High Performance Switching and Routing, HPSR

SP - 198

EP - 202

BT - 2004 Workshop on High Performance Switching and Routing, HPSR 2004

T2 - 2004 Workshop on High Perfomance Switching and Routing, HPSR 2004

Y2 - 19 April 2004 through 20 April 2004

ER -

Scalable schedulers for high-performance switches

摘要

出版系列

会议

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