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TAAS: a timing-aware analytical strategy for AQFP-capable placement automation

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Yanzhi WangAuthors Info & Claims

DAC '22: Proceedings of the 59th ACM/IEEE Design Automation Conference

Pages 1321 - 1326

https://doi.org/10.1145/3489517.3530487

Published: 23 August 2022 Publication History

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Abstract

Adiabatic Quantum-Flux-Parametron (AQFP) is a superconducting logic with extremely high energy efficiency. AQFP circuits adopt the deep pipeline structure, where the four-phase AC-power serves as both the energy supply and the clock signal and transfers the data from one clock phase to the next. However, the deep pipeline structure causes the stage delay of the data propagation is comparable to the delay of the zigzag clocking, which triggers timing violations easily. In this paper, we propose a timing-aware analytical strategy for the AQFP placement, TAAS, that immensely reduces timing violations under specific spacing constraints and wirelength constraints of AQFP. TAAS includes two main characteristics: 1) a timing-aware objective function that incorporates a four-phase timing model for the analytical global placement. 2) a unique detailed placement including the timing-aware dynamic programming technique and the time-space cell regularization. To validate the effectiveness of TAAS, various representative circuits are adopted as benchmarks. As shown in the experimental results, our strategy can increase the maximum operating frequency by up to 30% ~ 40% with a negligible wirelength increase -3.41%~1%.

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Fourie CJackman KDelport JSchindler LHall TFebvre PIwanikow LChen OAyala CYoshikawa NLaw MWeingartner TWang YBeerel PGupta SZha HRazmkhah SKaramuftuoglu MFayyazi ALi MAnnavaram MNazarian SPedram M(2023)Results From the ColdFlux Superconductor Integrated Circuit Design Tool ProjectIEEE Transactions on Applied Superconductivity10.1109/TASC.2023.330638133:8(1-26)Online publication date: Nov-2023
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DAC '22: Proceedings of the 59th ACM/IEEE Design Automation Conference

July 2022

1462 pages

ISBN:9781450391429

DOI:10.1145/3489517

General Chair:
Rob Oshana
NXP

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: 23 August 2022

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https://doi.org/10.23919/DATE58400.2024.10546680
Lee SAyala CDe Micheli G(2023)Impact of Sequential Design on the Cost of Adiabatic Quantum-Flux Parametron CircuitsIEEE Transactions on Applied Superconductivity10.1109/TASC.2023.330840833:8(1-9)Online publication date: Nov-2023
https://doi.org/10.1109/TASC.2023.3308408
Fourie CJackman KDelport JSchindler LHall TFebvre PIwanikow LChen OAyala CYoshikawa NLaw MWeingartner TWang YBeerel PGupta SZha HRazmkhah SKaramuftuoglu MFayyazi ALi MAnnavaram MNazarian SPedram M(2023)Results From the ColdFlux Superconductor Integrated Circuit Design Tool ProjectIEEE Transactions on Applied Superconductivity10.1109/TASC.2023.330638133:8(1-26)Online publication date: Nov-2023
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Schindler LAyala CJackman KFourie CYoshikawa N(2023)Adopting a Standard Track Routing Architecture for Next-Generation Hybrid AC/DC-Biased Logic CircuitsIEEE Transactions on Applied Superconductivity10.1109/TASC.2023.325836633:5(1-5)Online publication date: Aug-2023
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Fu RChen OYu BYoshikawa NHo T(2023)DLPlace: A Delay-Line Clocking-Based Placement Framework for AQFP Circuits2023 IEEE/ACM International Conference on Computer Aided Design (ICCAD)10.1109/ICCAD57390.2023.10323698(1-8)Online publication date: 28-Oct-2023
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MP-trees: a packing-based macro placement algorithm for mixed-size designs

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MP-Trees: A Packing-Based Macro Placement Algorithm for Modern Mixed-Size Designs

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MP-trees: a packing-based macro placement algorithm for mixed-size designs

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