2023 The 28th IEEE International Symposium on Asynchronous Circuits and Systems (IEEE ASYNC 2023)
Electronics and Electrical EngineeringEnergy and Resources
Jul 16-19, 2023
Mar 14, 2023
♦Full Name：2023 The 28th IEEE International Symposium on Asynchronous Circuits and Systems (IEEE ASYNC 2023)
♦Abbreviation: IEEE ASYNC 2023
♦Conference Date: July 16-19, 2023
♦Conference Destination: Beijing, China
-IEEE Computer Society
-The IEEE Computer Society Techinica Committee on VLSI
Tsinghua University, China
The International Symposium on Asynchronous Circuits and Systems (ASYNC) is the premier forum for researchers and Industry to present their latest insights and results in asynchronous VLSI computing.
Asynchronous computations are at the heart of recent deep learning and neuromorphic designs and well-suited for distributed tasks in high-performance low-energy processing and communication.
Hong Chen, Tsinghua University, Beijing, China;
Giacomo Indiveri, ETH / University of Zürich, Switzerland.
Shaojun Wei, Tsinghua University, China.
Laurent Fesquet, Grenoble Institute of Technology, France;
Jia Di, University of Arkansas, USA.
Special Session Chair:
Davide Bertozzi, University of Ferrara, Italy.
Industrial Liaison Chairs:
Prasad Joshi, Intel, USA;
Ning Qiao, SynSense, China.
Delong Shang, Institute of Microelectronics, Chinese Academy of Sciences, China
Kshitij Bhardwaj, Lawrence Livermore National Laboratory, USA.
Anping He, Lanzhou University, China.
Ziqiang Wang, Tsinghua University, China.
Yu Zhou, Hainan Normal University, China;
Masashi Imai, Hirosaki University, Japan.
Local Arrangement Chair:
Wei Song, Institute of Information Engineering, Chinese Academy of Sciences, China.
♦Call for Papers:
Topics of interest include:
Asynchronous pipelines, architectures, CPUs, and memories;
Asynchronous ultra-low power systems, energy harvesting, and mixed-signal/analogue;
Asynchrony in emerging technologies, including bio, neural, nano, and quantum computing;
CAD tools for asynchronous design, synthesis, analysis, and optimization;
Formal methods for verification and performance/power analysis;
Test, security, fault tolerance, and radiation hard design;
Asynchronous variability-tolerant design, resilient design, and design for manufacturing;
Asynchronous design for neural networks and machine learning applications;
Circuit designs, case studies, comparisons, and applications;
Mixed-timed circuits, clock domain crossing, GALS systems, Network-on-Chip, and multi-chip interconnects;
Hardware implementations of asynchronous models and algorithms, asynchronous techniques in clocked designs, and elastic and latency-tolerant synchronous design;
Circuit designs, case studies, comparisons, and applications.
♦Submission System: https://easychair.org/conferences/?conf=ieeeasync2023
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