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Disambiguation of "Lo, Chieh-Pu"

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A 22nm 4Mb STT-MRAM Data-Encrypted Near-Memory Computation Macro with a 192GB/s Read-and-Decryption Bandwidth and 25.1-55.1TOPS/W 8b MAC for AI Operations.

, , , , , , , , , , , , , , , , , , , , and . ISSCC, page 178-180. IEEE, (2022)

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Pu Chen

Jianfeng Pu

Jielin Pu

Jianjun Pu

Lingling Pu

 

Other publications of authors with the same name

An 89TOPS/W and 16.3TOPS/mm2 All-Digital SRAM-Based Full-Precision Compute-In Memory Macro in 22nm for Machine-Learning Edge Applications., , , , , , , , , and 10 other author(s). ISSCC, page 252-254. IEEE, (2021)13.3 A 22nm 32Mb Embedded STT-MRAM with 10ns Read Speed, 1M Cycle Write Endurance, 10 Years Retention at 150°C and High Immunity to Magnetic Field Interference., , , , , , , , , and 2 other author(s). ISSCC, page 222-224. IEEE, (2020)CILP: An Arbitrary-bit Precision All-digital Compute-in-memory Solver for Integer Linear Programming Problems., , , , , , , and . CICC, page 1-2. IEEE, (2024)30.6 Vecim: A 289.13GOPS/W RISC-V Vector Co-Processor with Compute-in-Memory Vector Register File for Efficient High-Performance Computing., , , and . ISSCC, page 492-494. IEEE, (2024)7.4 A 256b-wordlength ReRAM-based TCAM with 1ns search-time and 14× improvement in wordlength-energyefficiency-density product using 2.5T1R cell., , , , , , , , , and 1 other author(s). ISSCC, page 136-137. IEEE, (2016)4.7 A 65nm ReRAM-enabled nonvolatile processor with 6× reduction in restore time and 4× higher clock frequency using adaptive data retention and self-write-termination nonvolatile logic., , , , , , , , , and 5 other author(s). ISSCC, page 84-86. IEEE, (2016)A 22nm 4Mb STT-MRAM Data-Encrypted Near-Memory Computation Macro with a 192GB/s Read-and-Decryption Bandwidth and 25.1-55.1TOPS/W 8b MAC for AI Operations., , , , , , , , , and 11 other author(s). ISSCC, page 178-180. IEEE, (2022)A 16nm 32Mb Embedded STT-MRAM with a 6ns Read-Access Time, a 1M-Cycle Write Endurance, 20-Year Retention at 150°C and MTJ-OTP Solutions for Magnetic Immunity., , , , , , , , , and 8 other author(s). ISSCC, page 494-495. IEEE, (2023)A 65-nm ReRAM-Enabled Nonvolatile Processor With Time-Space Domain Adaption and Self-Write-Termination Achieving > 4× Faster Clock Frequency and > 6× Higher Restore Speed., , , , , , , , , and 7 other author(s). IEEE J. Solid State Circuits, 52 (10): 2769-2785 (2017)A ReRAM-Based Nonvolatile Flip-Flop With Self-Write-Termination Scheme for Frequent-OFF Fast-Wake-Up Nonvolatile Processors., , , , , , , , , and 8 other author(s). IEEE J. Solid State Circuits, 52 (8): 2194-2207 (2017)