CERI: Cost-Effective Routing Implementation Technique for Network-on-Chip
CERI: Cost-Effective Routing Implementation Technique for Network-on-Chip
To deal with the communication challenges of current and future many-core architectures, Network-on-Chip (NoC) has been proposed as a promising alternative. Regular 2D mesh topology is the most preferred design choice for NoCs. Hardware failures owing to manufacturing, wear-out, aging etc., however, may disrupt the regularity of 2D mesh. Sustaining routing under these circumstances becomes a challenge. Though traditional table based routing method is flexible enough to handle any irregularity, it is neither scalable nor cost-effective solution. Scalable distributed logic based solutions like uLBDR have limited flexibility and work only in restricted architectural space despite complex switch design. To overcome these limitations, this paper presents CERI (Cost-Effective Routing Implementation), an efficient logic based routing capable of handling failure-induced irregularities in 2D mesh. Implementation of proposed approach does not require tables or a complex switch design. Performance analysis of CERI demonstrates its cost effectiveness as area and power requirements are reduced respectively by (14%) and (16%) than previously proposed logic based solution uLBDR.
coverage, irregular mesh, NoC, routing
59-64
Bishnoi, Rimpy
eb225b32-9ddb-4360-9b0b-d2e26a5e843e
Laxmi, Vijay
e79a9a3a-cd6b-45d6-8a03-9a5891453a95
Gaur, Manoj Singh
589ebe4b-7e06-4565-b109-8e268f8e12db
Ramlee, Radi Husin Bin
52be7394-5407-41df-9045-baa68e722418
Zwolinski, Mark
adfcb8e7-877f-4bd7-9b55-7553b6cb3ea0
4 February 2015
Bishnoi, Rimpy
eb225b32-9ddb-4360-9b0b-d2e26a5e843e
Laxmi, Vijay
e79a9a3a-cd6b-45d6-8a03-9a5891453a95
Gaur, Manoj Singh
589ebe4b-7e06-4565-b109-8e268f8e12db
Ramlee, Radi Husin Bin
52be7394-5407-41df-9045-baa68e722418
Zwolinski, Mark
adfcb8e7-877f-4bd7-9b55-7553b6cb3ea0
Bishnoi, Rimpy, Laxmi, Vijay, Gaur, Manoj Singh, Ramlee, Radi Husin Bin and Zwolinski, Mark
(2015)
CERI: Cost-Effective Routing Implementation Technique for Network-on-Chip.
In Proceedings of the 28th International Conference on VLSI Design, VLSID 2015 - held concurrently with the 14th International Conference on Embedded Systems.
vol. 2015-February,
IEEE.
.
(doi:10.1109/VLSID.2015.15).
Record type:
Conference or Workshop Item
(Paper)
Abstract
To deal with the communication challenges of current and future many-core architectures, Network-on-Chip (NoC) has been proposed as a promising alternative. Regular 2D mesh topology is the most preferred design choice for NoCs. Hardware failures owing to manufacturing, wear-out, aging etc., however, may disrupt the regularity of 2D mesh. Sustaining routing under these circumstances becomes a challenge. Though traditional table based routing method is flexible enough to handle any irregularity, it is neither scalable nor cost-effective solution. Scalable distributed logic based solutions like uLBDR have limited flexibility and work only in restricted architectural space despite complex switch design. To overcome these limitations, this paper presents CERI (Cost-Effective Routing Implementation), an efficient logic based routing capable of handling failure-induced irregularities in 2D mesh. Implementation of proposed approach does not require tables or a complex switch design. Performance analysis of CERI demonstrates its cost effectiveness as area and power requirements are reduced respectively by (14%) and (16%) than previously proposed logic based solution uLBDR.
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Published date: 4 February 2015
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Publisher Copyright:
© 2015 IEEE.
Venue - Dates:
28th International Conference on VLSI Design, VLSID 2015 - held concurrently with the 14th International Conference on Embedded Systems, , Bangalore, India, 2015-01-03 - 2015-01-07
Keywords:
coverage, irregular mesh, NoC, routing
Identifiers
Local EPrints ID: 477974
URI: http://eprints.soton.ac.uk/id/eprint/477974
ISSN: 1063-9667
PURE UUID: bc77a16a-916c-4dba-9c31-c057d6af2bd6
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Date deposited: 19 Jun 2023 16:35
Last modified: 17 Mar 2024 02:35
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Contributors
Author:
Rimpy Bishnoi
Author:
Vijay Laxmi
Author:
Manoj Singh Gaur
Author:
Radi Husin Bin Ramlee
Author:
Mark Zwolinski
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