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Improving the Robustness and Efficiency of PIM-Based Architecture by SW/HW Co-Design

  • Published:2023-01-16 Issue: Volume: Page:
  • ISSN:
  • Container-title:Proceedings of the 28th Asia and South Pacific Design Automation Conference
  • language:
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Author:

Yang Xiaoxuan1,Li Shiyu1,Zheng Qilin1,Chen Yiran1

Affiliation:

1. Duke University

Funder

National Science Foundation

Army Research Office

Publisher

ACM

Reference42 articles.

1. Fan Chen Linghao Song and Yiran Chen. 2018. ReGAN: A Pipelined ReRAM-Based Accelerator for Generative Adversarial Networks. In ASP-DAC. 178--183. Fan Chen Linghao Song and Yiran Chen. 2018. ReGAN: A Pipelined ReRAM-Based Accelerator for Generative Adversarial Networks. In ASP-DAC. 178--183.

2. Fan Chen , Linghao Song , Hai Helen Li, and Yiran Chen . 2019 . Zara : A Novel Zero-Free Dataflow Accelerator for Generative Adversarial Networks in 3D ReRAM. In DAC. 1--6. Fan Chen, Linghao Song, Hai Helen Li, and Yiran Chen. 2019. Zara: A Novel Zero-Free Dataflow Accelerator for Generative Adversarial Networks in 3D ReRAM. In DAC. 1--6.

3. Ping Chi et al. 2016 . PRIME: A Novel Processing-in-Memory Architecture for Neural Network Computation in ReRAM-Based Main Memory. In ISCA. 27--39. Ping Chi et al. 2016. PRIME: A Novel Processing-in-Memory Architecture for Neural Network Computation in ReRAM-Based Main Memory. In ISCA. 27--39.

4. Ben Feinberg , Shibo Wang , and Engin Ipek . 2018. Making Memristive Neural Network Accelerators Reliable . In HPCA. IEEE , 52--65. Ben Feinberg, Shibo Wang, and Engin Ipek. 2018. Making Memristive Neural Network Accelerators Reliable. In HPCA. IEEE, 52--65.

5. Pierre Foret , Ariel Kleiner , Hossein Mobahi , and Behnam Neyshabur . 2020. Sharpness-Aware Minimization for Efficiently Improving Generalization. arXiv preprint arXiv:2010.01412 ( 2020 ). Pierre Foret, Ariel Kleiner, Hossein Mobahi, and Behnam Neyshabur. 2020. Sharpness-Aware Minimization for Efficiently Improving Generalization. arXiv preprint arXiv:2010.01412 (2020).

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1. MERRC: A Memristor-Enabled Reconfigurable Low-Power Reservoir Computing Architecture at the Edge;IEEE Transactions on Circuits and Systems I: Regular Papers;2024-01
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