SENMap: Multi-objective dataflow mapping &amp; synthesis for hybrid scalable neuromorphic systems

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SENMap: Multi-objective dataflow mapping & synthesis for hybrid scalable neuromorphic systems

Conference Paper (2025)

Author(s)

P. V. Nembhani (University of Manchester-Advanced Processor Technologies, imec-NL, Student TU Delft)

O. Rhodes (University of Manchester-Advanced Processor Technologies)

G. Tang (Mastritch University-DACS)

A. F. Dobrita (imec-NL)

Y. Xu (imec-NL)

K. Vadivel (imec-NL)

K. Shidqi (imec-NL)

P. Detterer (imec-NL)

M. Konijnenburg (imec-NL)

G. -J. van Schaik (imec-NL)

M. Sifalakis (imec-NL)

Z. Al-Ars (TU Delft - Computer Engineering)

A. Yousefzadeh (University of Twente)

Accuracy Scalability Energy efficiency Large scale SENSIM SENECA SNN/ANN mapping SNN/DNN inference mapping Closed-loop synthesis Data-flow

DOI related publication

https://doi.org/10.1109/IJCNN64981.2025.11227766 Final published version

To reference this document use

https://resolver.tudelft.nl/uuid:da49e7f3-6f16-4dbf-afb6-2a259f39b1bd

More Info

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Publication Year

2025

Language

English

Bibliographical Note

Green Open Access added to TU Delft Institutional Repository as part of the Taverne amendment. More information about this copyright law amendment can be found at https://www.openaccess.nl. Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.

Publisher

IEEE

ISBN (print)

979-8-3315-1043-5

ISBN (electronic)

979-8-3315-1042-8

Event

2025 International Joint Conference on Neural Networks (IJCNN) (2025-06-30 - 2025-07-05), Rome, Italy

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Abstract

This paper introduces SENMap, a mapping and synthesis tool for a scalable energy efficient neuromorphic computing architecture frameworks. SENECA a flexible architectural design optimized for executing edge AI SNN/ANN inference applications efficiently. To speed up the silicon tapeout and chip design for SENECA, an accurate emulator SENSIM was designed. While SENSIM supports direct mapping of SNNs on neuromorphic architectures, as the SNN/ANN grow in size, achieving optimal mapping for objectives like energy, throughput, area, and accuracy becomes challenging. This paper introduces SENMap, flexible mapping software for efficiently mapping large SNN/ANN applications onto adaptable architectures. SENMap considers architectural, pretrained SNN/ANN realistic examples, and event rate-based parameters and is open-sourced along with SENSIM to aid flexible neuromorphic chip design before fabrication. Experimental results show SENMap enables 40 percent energy improvements for a baseline SENSIM operating on timestep asynchronous mode of operation. SENMap is designed in such a way that it facilitates mapping large spiking neural networks for future modifications as well.

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