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Modeling NoC traffic locality and energy consumption with rent's communication probability distribution

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Payman Zarkesh-HaAuthors Info & Claims

SLIP '10: Proceedings of the 12th ACM/IEEE international workshop on System level interconnect prediction

Pages 3 - 8

https://doi.org/10.1145/1811100.1811103

Published: 13 June 2010 Publication History

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Abstract

In systems on chip, the energy consumed by the Network on Chip (NoC) depends heavily on the network traffic pattern. The higher the communication locality, the lower the energy consumption will be. In this paper, we use the Communication Probability Distribution (CPD) to model communication locality and energy consumption in NoC. Firstly, based on recent results showing that communication patterns of many parallel applications follow Rent's rule, we propose a Rent's rule [6] traffic generator. In this method, the probability of communication between cores is derived directly from Rent's rule, which results in CPDs displaying high locality. Next, we provide a model for predicting NoC energy consumption based on the CPD. The model was tested on two NoC systems and several workloads, including Rent's rule traffic, and obtained accurate results when compared to simulations. The results also show that Rent's rule traffic has lower energy consumption than commonly used synthetic workloads, due to its higher communication locality. Finally, we exploit the tunability of our traffic generator to study applications with different locality, analyzing the impact of the Rent's exponent on energy consumption.

References

[1]

B. Chen, K. Jamieson, H. Balakrishnan, and R. Morris. Span: An energy-efficient coordination algorithm for topology maintenance in ad hoc wireless networks. Wireless Networks, 8(5):481--494, 2002.

Digital Library

Google Scholar

[2]

P. Christie and D. Stroobandt. The interpretation and application of rent's rule. IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 8(6):639--648, 2000.

Digital Library

Google Scholar

[3]

W. J. Dally and B. Towles. Principles and Practices of Interconnection Netwoks. Morgam Kauffman Publishers, San Francisco, 2004.

Digital Library

Google Scholar

[4]

J. A. Davis, V. K. De, and J. D. Meindl. A stochastic wire-length distribution for gigascale integration (GSI) - Part I: Derivation and validation. IEEE Transactions on Electron Devices, VOL 45(3):580--589, 1998.

Crossref

Google Scholar

[5]

D. Greenfield, A. Banerjee, J.-G. Lee, and S. Moore. Implications of Rent's rule for NoC design and its fault-tolerance. In Proceedings of the First International Symposium on Networks-on-Chip (NOCS'07), 2007.

Digital Library

Google Scholar

[6]

W. Heirman, J. Dambre, D. Stroobandt, and J. Campenhout. Rent's rule and parallel programs: Characterizing network traffic behavior. In Proceedings of the 2008 International Workshop on System Level Interconnect Prediction, SLIP'08, 2008.

Digital Library

Google Scholar

[7]

Y. Hoskote, S. Vangal, A. Singh, N. Borkar, and S. Borkar. A 5-GHz mesh interconnect for a teraflops processor. IEEE MICRO, 27(5):51--61, 2007.

Digital Library

Google Scholar

[8]

J. Hu and R. Marculescu. Energy-aware mapping for tile-based NOC architectures under performance constraints. In Proceedings of ASP-Design Automation Conference, pages 233--239, 2003.

Digital Library

Google Scholar

[9]

A. Kahng, B. Li, L. Peh, and K. Samadi. Orion 2.0: A fast and accurate NOC power and area model for early-stage design space exploration. In Design, Automation, and Test in Europe, pages 423--428, 2009.

Digital Library

Google Scholar

[10]

J. Palma, C. Marcon, F. Moraes, N. Calazans, R. Reis, and A. Susin. Mapping embedded systems onto NoCs: the traffic effect on dynamic energy estimation. In Proceedings of the 18th annual symposium on Integrated circuits and system design, page 201, 2005.

Digital Library

Google Scholar

[11]

P. Pande, C. Grecu, M. Jones, A. Ivanov, and R. Saleh. Effect of traffic localization on energy dissipation in NoC-based interconnect. In ISCA 2005, pages 1774--1777, 2005.

Crossref

Google Scholar

[12]

V. Soteriou, H. Wang, and L. Peh. A statistical traffic model for on-chip interconnection networks. In Proceedings of the 14th IEEE International Symposium on Modeling, Analysis, and Simulation of Computer and Telecommunication Systems (MASCOTS'06), pages 104--116, 2006.

Digital Library

Google Scholar

[13]

D. Stroobandt. A Priory Wire Length Estimates for Digital Design. Kluwer Academic Pulishers, Boston, 2001.

Google Scholar

[14]

M. B. Taylor, J. Kim, J. Miller, D. Wentzlaff, F. Ghodrat, B. Greenwald, H. Hoffman, P. Johnson, J.-W. Lee, and W. Lee. The Raw microprocessor: A computational fabric for software circuits and general purpose programs. IEEE MICRO, 22(PART 2):25--35, 2002.

Digital Library

Google Scholar

Cited By

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Thakkar IChittamuru SBhat VVatsavai SPasricha S(2022)Hardware Security in Emerging Photonic Network-on-Chip ArchitecturesEmerging Computing: From Devices to Systems10.1007/978-981-16-7487-7_9(291-313)Online publication date: 9-Jul-2022
https://doi.org/10.1007/978-981-16-7487-7_9
Thakkar IChittamuru SBhat VVatsavai SPasricha S(2021)Securing Silicon Photonic NoCs Against Hardware AttacksNetwork-on-Chip Security and Privacy10.1007/978-3-030-69131-8_15(399-421)Online publication date: 4-May-2021
https://doi.org/10.1007/978-3-030-69131-8_15
D'Hoore JBahrebar PStroobandt DKahng A(2020)3D NoC emulation model on a single FPGAProceedings of the Workshop on System-Level Interconnect: Problems and Pathfinding Workshop10.1145/3414622.3431910(1-8)Online publication date: 5-Nov-2020
https://dl.acm.org/doi/10.1145/3414622.3431910
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Index Terms

Modeling NoC traffic locality and energy consumption with rent's communication probability distribution
1. Computing methodologies
  1. Modeling and simulation
    1. Model development and analysis
      1. Modeling methodologies
2. Hardware
  1. Hardware validation
    1. Functional verification
      1. Simulation and emulation

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Published In

SLIP '10: Proceedings of the 12th ACM/IEEE international workshop on System level interconnect prediction

June 2010

106 pages

ISBN:9781450300377

DOI:10.1145/1811100

General Chair:
Sherief Reda
Brown University, USA
,
Program Chair:
Janet Wang
University of Arizona, USA

Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than ACM must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected]

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Published: 13 June 2010

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SLIP '10: System Level Interconnect Prediction Workshop

June 13, 2010

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Thakkar IChittamuru SBhat VVatsavai SPasricha S(2022)Hardware Security in Emerging Photonic Network-on-Chip ArchitecturesEmerging Computing: From Devices to Systems10.1007/978-981-16-7487-7_9(291-313)Online publication date: 9-Jul-2022
https://doi.org/10.1007/978-981-16-7487-7_9
Thakkar IChittamuru SBhat VVatsavai SPasricha S(2021)Securing Silicon Photonic NoCs Against Hardware AttacksNetwork-on-Chip Security and Privacy10.1007/978-3-030-69131-8_15(399-421)Online publication date: 4-May-2021
https://doi.org/10.1007/978-3-030-69131-8_15
D'Hoore JBahrebar PStroobandt DKahng A(2020)3D NoC emulation model on a single FPGAProceedings of the Workshop on System-Level Interconnect: Problems and Pathfinding Workshop10.1145/3414622.3431910(1-8)Online publication date: 5-Nov-2020
https://dl.acm.org/doi/10.1145/3414622.3431910
Wang XShi FZhang H(2020)A Novel Speedup Evaluation for Multicore Architecture Based Topology of On-Chip MemoryParallel Architectures, Algorithms and Programming10.1007/978-981-15-2767-8_4(35-47)Online publication date: 26-Jan-2020
https://doi.org/10.1007/978-981-15-2767-8_4
Bashir JSarangi S(2019)Predict, Share, and Recycle Your Way to Low-power Nanophotonic NetworksACM Journal on Emerging Technologies in Computing Systems10.1145/335658516:1(1-26)Online publication date: 15-Oct-2019
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Vining WEsponda FMoses MForrest S(2019)How does mobility help distributed systems compute?Philosophical Transactions of the Royal Society B: Biological Sciences10.1098/rstb.2018.0375374:1774(20180375)Online publication date: 22-Apr-2019
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More APano VTaskin B(2018)Vertical Arbitration-Free 3-D NoCsIEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems10.1109/TCAD.2017.276841537:9(1853-1866)Online publication date: 1-Sep-2018
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Wu CLee KSu A(2018)A Hybrid Multicast Routing Approach with Enhanced Methods for Mesh-Based Networks-on-ChipIEEE Transactions on Computers10.1109/TC.2018.281339467:9(1231-1245)Online publication date: 1-Sep-2018
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Sun JZhang Y(2017)An energy-aware mapping algorithm for mesh-based network-on-chip architectures2017 International Conference on Progress in Informatics and Computing (PIC)10.1109/PIC.2017.8359572(357-361)Online publication date: Dec-2017
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Reducing energy consumption of NoC by router bypassing

Analysis of static and dynamic energy consumption in NUCA caches: initial results

Equitable distribution energy consumption of wsns

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