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8-Bit Precision 6T SRAM Compute-in-Memory Macro Using Global Bitline-Combining Scheme for Edge AI Chips.

J. Su, P. Lu, P. Wu, Y. Chou, T. Liu, Y. Chung, L. Hung, J. Ren, W. Huang, C. Chien, P. Mei, S. Li, S. Sheu, W. Lo, S. Chang, H. Hong, C. Lo, R. Liu, C. Hsieh, K. Tang, and M. Chang. IEEE Trans. Circuits Syst. II Express Briefs, 71 (4): 2304-2308 (April 2024)

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Jin-Sheng Gao

Tung-sheng Sheng

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8-Bit Precision 6T SRAM Compute-in-Memory Macro Using Global Bitline-Combining Scheme for Edge AI Chips.J. Su, P. Lu, P. Wu, Y. Chou, T. Liu, Y. Chung, L. Hung, J. Ren, W. Huang, C. Chien and 11 other author(s). IEEE Trans. Circuits Syst. II Express Briefs, 71 (4): 2304-2308 (April 2024)A 8-b-Precision 6T SRAM Computing-in-Memory Macro Using Segmented-Bitline Charge-Sharing Scheme for AI Edge Chips.J. Su, Y. Chou, R. Liu, T. Liu, P. Lu, P. Wu, Y. Chung, L. Hong, J. Ren, T. Pan and 15 other author(s). IEEE J. Solid State Circuits, 58 (3): 877-892 (March 2023)A 28nm 1Mb Time-Domain Computing-in-Memory 6T-SRAM Macro with a 6.6ns Latency, 1241GOPS and 37.01TOPS/W for 8b-MAC Operations for Edge-AI Devices.P. Wu, J. Su, Y. Chung, L. Hong, J. Ren, F. Chang, Y. Wu, H. Chen, C. Lin, H. Hsiao and 10 other author(s). ISSCC, page 1-3. IEEE, (2022)16.3 A 28nm 384kb 6T-SRAM Computation-in-Memory Macro with 8b Precision for AI Edge Chips.J. Su, Y. Chou, R. Liu, T. Liu, P. Lu, P. Wu, Y. Chung, L. Hung, J. Ren, T. Pan and 11 other author(s). ISSCC, page 250-252. IEEE, (2021)Two-Way Transpose Multibit 6T SRAM Computing-in-Memory Macro for Inference-Training AI Edge Chips.J. Su, X. Si, Y. Chou, T. Chang, W. Huang, Y. Tu, R. Liu, P. Lu, T. Liu, J. Wang and 15 other author(s). IEEE J. Solid State Circuits, 57 (2): 609-624 (2022)A Floating-Point 6T SRAM In-Memory-Compute Macro Using Hybrid-Domain Structure for Advanced AI Edge Chips.P. Wu, J. Su, L. Hong, J. Ren, C. Chien, H. Chen, C. Ke, H. Hsiao, S. Li, S. Sheu and 7 other author(s). IEEE J. Solid State Circuits, 59 (1): 196-207 (January 2024)A 22nm 832Kb Hybrid-Domain Floating-Point SRAM In-Memory-Compute Macro with 16.2-70.2TFLOPS/W for High-Accuracy AI-Edge Devices.P. Wu, J. Su, L. Hong, J. Ren, C. Chien, H. Chen, C. Ke, H. Hsiao, S. Li, S. Sheu and 7 other author(s). ISSCC, page 126-127. IEEE, (2023)

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Disambiguation of "Ren, Jin-Sheng"

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8-Bit Precision 6T SRAM Compute-in-Memory Macro Using Global Bitline-Combining Scheme for Edge AI Chips.

Please choose a person to relate this publication to

Jin-Sheng Gao

Tung-sheng Sheng

Tung-sheng Sheng

Tung-sheng Sheng

Tung-sheng Sheng

Other publications of authors with the same name

Disambiguation

BibSonomy

Disambiguation of "Ren, Jin-Sheng"

copydeleteadd this publication to your clipboardcommunity posthistory of this postURLDOIBibTeXEndNoteAPAChicagoDIN 1505HarvardMSOffice XML 8-Bit Precision 6T SRAM Compute-in-Memory Macro Using Global Bitline-Combining Scheme for Edge AI Chips.

Please choose a person to relate this publication to

Jin-Sheng Gao

Tung-sheng Sheng

Tung-sheng Sheng

Tung-sheng Sheng

Tung-sheng Sheng

Other publications of authors with the same name

Disambiguation

copy delete add this publication to your clipboard
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URL
DOI
BibTeX
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8-Bit Precision 6T SRAM Compute-in-Memory Macro Using Global Bitline-Combining Scheme for Edge AI Chips.