A Fully Analog Deep Neural Network Inference Accelerator with Pipeline Registers Based on Master-Slave Switched Capacitors

A Fully Analog Deep Neural Network Inference Accelerator with Pipeline Registers Based on Master-Slave Switched Capacitors

A fully analog pipelined deep neural network (DNN) accelerator is proposed, which is constructed by using pipeline registers based on master-slave switched capacitors. The idea of the master-slave switched capacitors is an analog equivalent of the delayed flip-flop (D-FF) which has been used as a di...

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Veröffentlicht in:IEICE Transactions on Electronics 2023/09/01, Vol.E106.C(9), pp.477-485
Hauptverfasser: MEI, Yaxin, OHSAWA, Takashi
Format: Artikel
Sprache:eng
Schlagworte:
Artificial neural networks
Capacitors
Classification
Cycle time
deep neural network (DNN)
Energy consumption
in-memory computing
master-slave switched capacitors
pipeline register
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Zusammenfassung:A fully analog pipelined deep neural network (DNN) accelerator is proposed, which is constructed by using pipeline registers based on master-slave switched capacitors. The idea of the master-slave switched capacitors is an analog equivalent of the delayed flip-flop (D-FF) which has been used as a digital pipeline register. To estimate the performance of the pipeline register, it is applied to a conventional DNN which performs non-pipeline operation. Compared with the conventional DNN, the cycle time is reduced by 61.5% and data rate is increased by 160%. The accuracy reaches 99.6% in MNIST classification test. The energy consumption per classification is reduced by 88.2% to 0.128µJ, achieving an energy efficiency of 1.05TOPS/W and a throughput of 0.538TOPS in 180nm technology node.
ISSN:0916-8524
1745-1353
DOI:10.1587/transele.2022ECP5049