SENeCA: Scalable Energy-efficient Neuromorphic Computer Architecture

Amirreza Yousefzadeh; Gert Jan Van Schaik; Mohammad Tahghighi; Paul Detterer; Stefano Traferro; Martijn Hijdra; Jan Stuijt; Federico Corradi; Manolis Sifalakis; Mario Konijnenburg

doi:10.1109/AICAS54282.2022.9870025

SENeCA: Scalable Energy-efficient Neuromorphic Computer Architecture

Amirreza Yousefzadeh, Gert Jan Van Schaik, Mohammad Tahghighi, Paul Detterer, Stefano Traferro, Martijn Hijdra, Jan Stuijt, Federico Corradi, Manolis Sifalakis, Mario Konijnenburg

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

15 Citaten (Scopus)

Samenvatting

SENeCA is our first RISC-V-based digital neuromorphic processor to accelerate bio-inspired Spiking Neural Networks for extreme edge applications inside or near sensors where ultra-low power and adaptivity features are required. SENeCA is optimized to exploit unstructured spatio-temporal sparsity in computations and data transfer. It is a digital IP, contains interconnected Neuron Cluster Cores, with RISC-V-based instruction set, an optimized Neuromorphic Co-Processor, and event-based communication infrastructure. SENeCA improves state of the art by: Addressing the flexibility issue in neuromorphic processors by allowing a fully programmable neuron model and learning/adaptivity algorithms; Improving the area efficiency by employing a 3-level memory hierarchy which allows using novel embedded memory technologies; Efficient deployment of advanced learning mechanisms and optimization algorithms by accelerating neural operations in three data types: int4, int8 and BrainFloat16; Efficient event communication by using a new Network-on-Chip with multicasting, a compression mechanism, and source-based routing. The implemented digital IP can be tuned for different applications to have a flexible number of cores and Neural Processing Elements (NPEs) per core and optional use of off-chip memory. Next to the hardware, the SENeCA platform includes an SDK and a hardware-aware simulator for close-loop synthesis/mapping optimization11The SENeCA platform is freely accessible for the academic purposes..

Originele taal-2	Engels
Titel	2022 IEEE 4th International Conference on Artificial Intelligence Circuits and Systems (AICAS)
Uitgeverij	Institute of Electrical and Electronics Engineers
Pagina's	371-374
Aantal pagina's	4
ISBN van elektronische versie	978-1-6654-0996-4
DOI's	https://doi.org/10.1109/AICAS54282.2022.9870025
Status	Gepubliceerd - 5 sep. 2022
Extern gepubliceerd	Ja
Evenement	4th IEEE International Conference on Artificial Intelligence Circuits and Systems, AICAS 2022 - Incheon, Zuid-Korea Duur: 13 jun. 2022 → 15 jun. 2022

Congres

Congres	4th IEEE International Conference on Artificial Intelligence Circuits and Systems, AICAS 2022
Land/Regio	Zuid-Korea
Stad	Incheon
Periode	13/06/22 → 15/06/22

Bibliografische nota

Funding Information:
This work is partially funded by research and innovation projects TEMPO (ECSEL JU under grant agreement No 826655), ANDANTE (ECSEL JU under grant agreement No 876925) and DAIS (KDT JU under grant agreement No 101007273). The JU receives support from the European Union's Horizon 2020 research and innovation programme and Sweden, Spain, Portugal, Belgium, Germany, Slovenia, Czech Republic, Netherlands, Denmark, Norway and Turkey.

Financiering

This work is partially funded by research and innovation projects TEMPO (ECSEL JU under grant agreement No 826655), ANDANTE (ECSEL JU under grant agreement No 876925) and DAIS (KDT JU under grant agreement No 101007273). The JU receives support from the European Union's Horizon 2020 research and innovation programme and Sweden, Spain, Portugal, Belgium, Germany, Slovenia, Czech Republic, Netherlands, Denmark, Norway and Turkey. ACKNOWLEDGMENT This work is partially funded by research and innovation projects TEMPO (ECSEL JU under grant agreement No 826655), ANDANTE (ECSEL JU under grant agreement No 876925) and DAIS (KDT JU under grant agreement No 101007273). The JU receives support from the European Union’s Horizon 2020 research and innovation programme and Sweden, Spain, Portugal, Belgium, Germany, Slovenia, Czech Republic, Netherlands, Denmark, Norway and Turkey.

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10.1109/AICAS54282.2022.9870025

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Yousefzadeh, A., Van Schaik, G. J., Tahghighi, M., Detterer, P., Traferro, S., Hijdra, M., Stuijt, J., Corradi, F., Sifalakis, M., & Konijnenburg, M. (2022). SENeCA: Scalable Energy-efficient Neuromorphic Computer Architecture. In 2022 IEEE 4th International Conference on Artificial Intelligence Circuits and Systems (AICAS) (blz. 371-374). Artikel 9870025 Institute of Electrical and Electronics Engineers. https://doi.org/10.1109/AICAS54282.2022.9870025

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abstract = "SENeCA is our first RISC-V-based digital neuromorphic processor to accelerate bio-inspired Spiking Neural Networks for extreme edge applications inside or near sensors where ultra-low power and adaptivity features are required. SENeCA is optimized to exploit unstructured spatio-temporal sparsity in computations and data transfer. It is a digital IP, contains interconnected Neuron Cluster Cores, with RISC-V-based instruction set, an optimized Neuromorphic Co-Processor, and event-based communication infrastructure. SENeCA improves state of the art by: Addressing the flexibility issue in neuromorphic processors by allowing a fully programmable neuron model and learning/adaptivity algorithms; Improving the area efficiency by employing a 3-level memory hierarchy which allows using novel embedded memory technologies; Efficient deployment of advanced learning mechanisms and optimization algorithms by accelerating neural operations in three data types: int4, int8 and BrainFloat16; Efficient event communication by using a new Network-on-Chip with multicasting, a compression mechanism, and source-based routing. The implemented digital IP can be tuned for different applications to have a flexible number of cores and Neural Processing Elements (NPEs) per core and optional use of off-chip memory. Next to the hardware, the SENeCA platform includes an SDK and a hardware-aware simulator for close-loop synthesis/mapping optimization11The SENeCA platform is freely accessible for the academic purposes..",

author = "Amirreza Yousefzadeh and {Van Schaik}, {Gert Jan} and Mohammad Tahghighi and Paul Detterer and Stefano Traferro and Martijn Hijdra and Jan Stuijt and Federico Corradi and Manolis Sifalakis and Mario Konijnenburg",

note = "Funding Information: This work is partially funded by research and innovation projects TEMPO (ECSEL JU under grant agreement No 826655), ANDANTE (ECSEL JU under grant agreement No 876925) and DAIS (KDT JU under grant agreement No 101007273). The JU receives support from the European Union's Horizon 2020 research and innovation programme and Sweden, Spain, Portugal, Belgium, Germany, Slovenia, Czech Republic, Netherlands, Denmark, Norway and Turkey. ; 4th IEEE International Conference on Artificial Intelligence Circuits and Systems, AICAS 2022 ; Conference date: 13-06-2022 Through 15-06-2022",

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Yousefzadeh, A, Van Schaik, GJ, Tahghighi, M, Detterer, P, Traferro, S, Hijdra, M, Stuijt, J, Corradi, F, Sifalakis, M & Konijnenburg, M 2022, SENeCA: Scalable Energy-efficient Neuromorphic Computer Architecture. in 2022 IEEE 4th International Conference on Artificial Intelligence Circuits and Systems (AICAS)., 9870025, Institute of Electrical and Electronics Engineers, blz. 371-374, 4th IEEE International Conference on Artificial Intelligence Circuits and Systems, AICAS 2022, Incheon, Zuid-Korea, 13/06/22. https://doi.org/10.1109/AICAS54282.2022.9870025

SENeCA: Scalable Energy-efficient Neuromorphic Computer Architecture. / Yousefzadeh, Amirreza; Van Schaik, Gert Jan; Tahghighi, Mohammad et al.
2022 IEEE 4th International Conference on Artificial Intelligence Circuits and Systems (AICAS). Institute of Electrical and Electronics Engineers, 2022. blz. 371-374 9870025.

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

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AU - Yousefzadeh, Amirreza

AU - Van Schaik, Gert Jan

AU - Tahghighi, Mohammad

AU - Detterer, Paul

AU - Traferro, Stefano

AU - Hijdra, Martijn

AU - Stuijt, Jan

AU - Corradi, Federico

AU - Sifalakis, Manolis

AU - Konijnenburg, Mario

N1 - Funding Information: This work is partially funded by research and innovation projects TEMPO (ECSEL JU under grant agreement No 826655), ANDANTE (ECSEL JU under grant agreement No 876925) and DAIS (KDT JU under grant agreement No 101007273). The JU receives support from the European Union's Horizon 2020 research and innovation programme and Sweden, Spain, Portugal, Belgium, Germany, Slovenia, Czech Republic, Netherlands, Denmark, Norway and Turkey.

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N2 - SENeCA is our first RISC-V-based digital neuromorphic processor to accelerate bio-inspired Spiking Neural Networks for extreme edge applications inside or near sensors where ultra-low power and adaptivity features are required. SENeCA is optimized to exploit unstructured spatio-temporal sparsity in computations and data transfer. It is a digital IP, contains interconnected Neuron Cluster Cores, with RISC-V-based instruction set, an optimized Neuromorphic Co-Processor, and event-based communication infrastructure. SENeCA improves state of the art by: Addressing the flexibility issue in neuromorphic processors by allowing a fully programmable neuron model and learning/adaptivity algorithms; Improving the area efficiency by employing a 3-level memory hierarchy which allows using novel embedded memory technologies; Efficient deployment of advanced learning mechanisms and optimization algorithms by accelerating neural operations in three data types: int4, int8 and BrainFloat16; Efficient event communication by using a new Network-on-Chip with multicasting, a compression mechanism, and source-based routing. The implemented digital IP can be tuned for different applications to have a flexible number of cores and Neural Processing Elements (NPEs) per core and optional use of off-chip memory. Next to the hardware, the SENeCA platform includes an SDK and a hardware-aware simulator for close-loop synthesis/mapping optimization11The SENeCA platform is freely accessible for the academic purposes..

AB - SENeCA is our first RISC-V-based digital neuromorphic processor to accelerate bio-inspired Spiking Neural Networks for extreme edge applications inside or near sensors where ultra-low power and adaptivity features are required. SENeCA is optimized to exploit unstructured spatio-temporal sparsity in computations and data transfer. It is a digital IP, contains interconnected Neuron Cluster Cores, with RISC-V-based instruction set, an optimized Neuromorphic Co-Processor, and event-based communication infrastructure. SENeCA improves state of the art by: Addressing the flexibility issue in neuromorphic processors by allowing a fully programmable neuron model and learning/adaptivity algorithms; Improving the area efficiency by employing a 3-level memory hierarchy which allows using novel embedded memory technologies; Efficient deployment of advanced learning mechanisms and optimization algorithms by accelerating neural operations in three data types: int4, int8 and BrainFloat16; Efficient event communication by using a new Network-on-Chip with multicasting, a compression mechanism, and source-based routing. The implemented digital IP can be tuned for different applications to have a flexible number of cores and Neural Processing Elements (NPEs) per core and optional use of off-chip memory. Next to the hardware, the SENeCA platform includes an SDK and a hardware-aware simulator for close-loop synthesis/mapping optimization11The SENeCA platform is freely accessible for the academic purposes..

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BT - 2022 IEEE 4th International Conference on Artificial Intelligence Circuits and Systems (AICAS)

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ER -

SENeCA: Scalable Energy-efficient Neuromorphic Computer Architecture

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Congres

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