Run-time Phase Prediction for a Reconfigurable VLIW Processor

Qi Guo; Anderson Sartor; Anthony Brandon; Antonio C.S. Beck; Xuehai Zhou; Stephan Wong

Run-time Phase Prediction for a Reconfigurable VLIW Processor

Qi Guo, Anderson Sartor, Anthony Brandon, Antonio C.S. Beck, Xuehai Zhou, Stephan Wong

Computer Engineering

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

6 Citations (Scopus)

Abstract

It is well-known that different applications exhibit varying amounts of ILP. Execution of these applications on the same fixed-width VLIW processor will result (1) in wasted energy due to underutilized resources if the issue-width of the processor is larger than the inherent ILP; or alternatively, (2) in lower performance if the issue-width is smaller than the inherent ILP. Moreover, even within a single application distinct phases can be observed with varying ILP and therefore changing resource requirements.With this in mind, we designed the ρ-VEX processor, which is a VLIW processor that can change its issuewidth
at run-time. In this paper, we propose a novel scheme to dynamically (i.e., at run-time) optimize the resource utilization by predicting and matching the number of active data-paths for each application phase. The purpose is to achieve low energy consumption for applications with low ILP, and high performance for applications with high ILP, on a single VLIW processor design. We prototyped the ρ-VEX processor on an FPGA and obtained the dynamic traces of applications running on top of a Linux port. Our results show that it is possible in some cases to achieve the performance of an 8-issue core with 10% lower energy consumption, while in others we achieve the energy consumption
of a 2-issue core with close to 20% lower execution time.

Original language	English
Title of host publication	Proceedings of the 2016 Design, Automation and Test in Europe Conference and Exhibition, DATE 2016
Editors	Jürgen Teich
Place of Publication	Piscataway, NJ
Publisher	IEEE
Pages	1634-1639
Number of pages	6
ISBN (Electronic)	978-3-9815370-7-9
ISBN (Print)	978-3-9815370-6-2
Publication status	Published - 2016
Event	2016 Design, Automation and Test in Europe Conference and Exhibition, DATE 2016 - Dresden, Germany Duration: 14 Mar 2016 → 18 Mar 2016

Conference

Conference	2016 Design, Automation and Test in Europe Conference and Exhibition, DATE 2016
Abbreviated title	DATE 2016
Country/Territory	Germany
City	Dresden
Period	14/03/16 → 18/03/16

Keywords

Delays
VLIW
Switches
Detectors
Energy consumption
Resource management
Hardware

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

@inproceedings{376d492b26844e38baa339e1d26420e2,

title = "Run-time Phase Prediction for a Reconfigurable VLIW Processor",

abstract = "It is well-known that different applications exhibit varying amounts of ILP. Execution of these applications on the same fixed-width VLIW processor will result (1) in wasted energy due to underutilized resources if the issue-width of the processor is larger than the inherent ILP; or alternatively, (2) in lower performance if the issue-width is smaller than the inherent ILP. Moreover, even within a single application distinct phases can be observed with varying ILP and therefore changing resource requirements.With this in mind, we designed the ρ-VEX processor, which is a VLIW processor that can change its issuewidthat run-time. In this paper, we propose a novel scheme to dynamically (i.e., at run-time) optimize the resource utilization by predicting and matching the number of active data-paths for each application phase. The purpose is to achieve low energy consumption for applications with low ILP, and high performance for applications with high ILP, on a single VLIW processor design. We prototyped the ρ-VEX processor on an FPGA and obtained the dynamic traces of applications running on top of a Linux port. Our results show that it is possible in some cases to achieve the performance of an 8-issue core with 10% lower energy consumption, while in others we achieve the energy consumptionof a 2-issue core with close to 20% lower execution time.",

keywords = "Delays, VLIW, Switches, Detectors, Energy consumption, Resource management, Hardware",

author = "Qi Guo and Anderson Sartor and Anthony Brandon and Beck, {Antonio C.S.} and Xuehai Zhou and Stephan Wong",

year = "2016",

language = "English",

isbn = "978-3-9815370-6-2",

pages = "1634--1639",

editor = "J{\"u}rgen Teich",

booktitle = "Proceedings of the 2016 Design, Automation and Test in Europe Conference and Exhibition, DATE 2016",

publisher = "IEEE",

address = "United States",

note = "2016 Design, Automation and Test in Europe Conference and Exhibition, DATE 2016, DATE 2016 ; Conference date: 14-03-2016 Through 18-03-2016",

}

Guo, Q, Sartor, A, Brandon, A, Beck, ACS, Zhou, X & Wong, S 2016, Run-time Phase Prediction for a Reconfigurable VLIW Processor. in J Teich (ed.), Proceedings of the 2016 Design, Automation and Test in Europe Conference and Exhibition, DATE 2016. IEEE, Piscataway, NJ, pp. 1634-1639, 2016 Design, Automation and Test in Europe Conference and Exhibition, DATE 2016, Dresden, Germany, 14/03/16.

Run-time Phase Prediction for a Reconfigurable VLIW Processor. / Guo, Qi; Sartor, Anderson; Brandon, Anthony et al.
Proceedings of the 2016 Design, Automation and Test in Europe Conference and Exhibition, DATE 2016. ed. / Jürgen Teich. Piscataway, NJ: IEEE, 2016. p. 1634-1639.

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

TY - GEN

T1 - Run-time Phase Prediction for a Reconfigurable VLIW Processor

AU - Guo, Qi

AU - Sartor, Anderson

AU - Brandon, Anthony

AU - Beck, Antonio C.S.

AU - Zhou, Xuehai

AU - Wong, Stephan

PY - 2016

Y1 - 2016

N2 - It is well-known that different applications exhibit varying amounts of ILP. Execution of these applications on the same fixed-width VLIW processor will result (1) in wasted energy due to underutilized resources if the issue-width of the processor is larger than the inherent ILP; or alternatively, (2) in lower performance if the issue-width is smaller than the inherent ILP. Moreover, even within a single application distinct phases can be observed with varying ILP and therefore changing resource requirements.With this in mind, we designed the ρ-VEX processor, which is a VLIW processor that can change its issuewidthat run-time. In this paper, we propose a novel scheme to dynamically (i.e., at run-time) optimize the resource utilization by predicting and matching the number of active data-paths for each application phase. The purpose is to achieve low energy consumption for applications with low ILP, and high performance for applications with high ILP, on a single VLIW processor design. We prototyped the ρ-VEX processor on an FPGA and obtained the dynamic traces of applications running on top of a Linux port. Our results show that it is possible in some cases to achieve the performance of an 8-issue core with 10% lower energy consumption, while in others we achieve the energy consumptionof a 2-issue core with close to 20% lower execution time.

AB - It is well-known that different applications exhibit varying amounts of ILP. Execution of these applications on the same fixed-width VLIW processor will result (1) in wasted energy due to underutilized resources if the issue-width of the processor is larger than the inherent ILP; or alternatively, (2) in lower performance if the issue-width is smaller than the inherent ILP. Moreover, even within a single application distinct phases can be observed with varying ILP and therefore changing resource requirements.With this in mind, we designed the ρ-VEX processor, which is a VLIW processor that can change its issuewidthat run-time. In this paper, we propose a novel scheme to dynamically (i.e., at run-time) optimize the resource utilization by predicting and matching the number of active data-paths for each application phase. The purpose is to achieve low energy consumption for applications with low ILP, and high performance for applications with high ILP, on a single VLIW processor design. We prototyped the ρ-VEX processor on an FPGA and obtained the dynamic traces of applications running on top of a Linux port. Our results show that it is possible in some cases to achieve the performance of an 8-issue core with 10% lower energy consumption, while in others we achieve the energy consumptionof a 2-issue core with close to 20% lower execution time.

KW - Delays

KW - VLIW

KW - Switches

KW - Detectors

KW - Energy consumption

KW - Resource management

KW - Hardware

M3 - Conference contribution

SN - 978-3-9815370-6-2

SP - 1634

EP - 1639

BT - Proceedings of the 2016 Design, Automation and Test in Europe Conference and Exhibition, DATE 2016

A2 - Teich, Jürgen

PB - IEEE

CY - Piscataway, NJ

T2 - 2016 Design, Automation and Test in Europe Conference and Exhibition, DATE 2016

Y2 - 14 March 2016 through 18 March 2016

ER -

Run-time Phase Prediction for a Reconfigurable VLIW Processor

Abstract

Conference

Keywords

UN SDGs

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