Statistical Performance Analysis Framework for Bundled-Data Asynchronous Circuits With Dynamic Voltage Scaling

Maryem Benyoussef; Claude Thibeault; Yvon Savaria

doi:10.1049/cdt2/1529127

Statistical Performance Analysis Framework for Bundled-Data Asynchronous Circuits With Dynamic Voltage Scaling

Maryem Benyoussef
, Claude Thibeault
, Yvon Savaria

École de technologie supérieure
Polytechnique Montréal

Research output: Contribution to journal › Journal Article › peer-review

Abstract

As the demand for low-power electronic products grows, asynchronous circuits are considered a good alternative for addressing power consumption issues. Applying dynamic voltage scaling (DVS) in asynchronous circuits can further improve their power efficiency. However, asynchronous circuits face challenges, such as performance analysis considering voltage, temperature, and process variations. This paper proposes a new statistical performance analysis model for asynchronous pipelines. This model can be applied to two different styles of asynchronous circuits. The results show that this model has reasonable accuracy on estimated mean delay (2% error on average) compared to detailed analysis carried out with low-level Monte Carlo (MC) circuit simulations.

Original language	English
Article number	1529127
Journal	IET Computers and Digital Techniques
Volume	2026
Issue number	1
DOIs	https://doi.org/10.1049/cdt2/1529127
Publication status	Published - 2026

!!!Keywords

DVS
asynchronous circuit
performance analysis model
statistical constraints
verification

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10.1049/cdt2/1529127

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title = "Statistical Performance Analysis Framework for Bundled-Data Asynchronous Circuits With Dynamic Voltage Scaling",

abstract = "As the demand for low-power electronic products grows, asynchronous circuits are considered a good alternative for addressing power consumption issues. Applying dynamic voltage scaling (DVS) in asynchronous circuits can further improve their power efficiency. However, asynchronous circuits face challenges, such as performance analysis considering voltage, temperature, and process variations. This paper proposes a new statistical performance analysis model for asynchronous pipelines. This model can be applied to two different styles of asynchronous circuits. The results show that this model has reasonable accuracy on estimated mean delay (2\% error on average) compared to detailed analysis carried out with low-level Monte Carlo (MC) circuit simulations.",

keywords = "DVS, asynchronous circuit, performance analysis model, statistical constraints, verification",

author = "Maryem Benyoussef and Claude Thibeault and Yvon Savaria",

note = "Publisher Copyright: Copyright {\textcopyright} 2026 Maryem Benyoussef et al. IET Computers \& Digital Techniques published by John Wiley \& Sons Ltd.",

year = "2026",

doi = "10.1049/cdt2/1529127",

language = "English",

volume = "2026",

journal = "IET Computers and Digital Techniques",

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TY - JOUR

T1 - Statistical Performance Analysis Framework for Bundled-Data Asynchronous Circuits With Dynamic Voltage Scaling

AU - Benyoussef, Maryem

AU - Thibeault, Claude

AU - Savaria, Yvon

PY - 2026

Y1 - 2026

N2 - As the demand for low-power electronic products grows, asynchronous circuits are considered a good alternative for addressing power consumption issues. Applying dynamic voltage scaling (DVS) in asynchronous circuits can further improve their power efficiency. However, asynchronous circuits face challenges, such as performance analysis considering voltage, temperature, and process variations. This paper proposes a new statistical performance analysis model for asynchronous pipelines. This model can be applied to two different styles of asynchronous circuits. The results show that this model has reasonable accuracy on estimated mean delay (2% error on average) compared to detailed analysis carried out with low-level Monte Carlo (MC) circuit simulations.

AB - As the demand for low-power electronic products grows, asynchronous circuits are considered a good alternative for addressing power consumption issues. Applying dynamic voltage scaling (DVS) in asynchronous circuits can further improve their power efficiency. However, asynchronous circuits face challenges, such as performance analysis considering voltage, temperature, and process variations. This paper proposes a new statistical performance analysis model for asynchronous pipelines. This model can be applied to two different styles of asynchronous circuits. The results show that this model has reasonable accuracy on estimated mean delay (2% error on average) compared to detailed analysis carried out with low-level Monte Carlo (MC) circuit simulations.

KW - DVS

KW - asynchronous circuit

KW - performance analysis model

KW - statistical constraints

KW - verification

UR - https://www.scopus.com/pages/publications/105034259946

U2 - 10.1049/cdt2/1529127

DO - 10.1049/cdt2/1529127

M3 - Journal Article

AN - SCOPUS:105034259946

SN - 1751-8601

VL - 2026

JO - IET Computers and Digital Techniques

JF - IET Computers and Digital Techniques

IS - 1

M1 - 1529127

ER -

Statistical Performance Analysis Framework for Bundled-Data Asynchronous Circuits With Dynamic Voltage Scaling

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!!!Keywords

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