Seungjong Lee scite author profile

Seungjong Lee

5Publications

15Citation Statements Received

14Citation Statements Given

How they've been cited

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Affiliations

Qualcomm (United States), University of Michigan–Ann Arbor

Publications

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A Fully Integrated Reprogrammable CMOS-RRAM Compute-in-Memory Coprocessor for Neuromorphic Applications

Correll

Bothra

Cai

et al. 2020

IEEE J. Explor. Solid-State Comput. Devices Circuits

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Analog compute-in-memory with resistive random access memory (RRAM) devices promises to overcome the data movement bottleneck in data-intensive artificial intelligence (AI) and machine learning. RRAM crossbar arrays improve the efficiency of vector-matrix multiplications (VMMs), which is a vital operation in these applications. The prototype IC is the first complete, fully integrated analog-RRAM CMOS coprocessor. This article focuses on the digital and analog circuitry that supports efficient and flexible RRAM-based computation. A passive 54 × 108 RRAM crossbar array performs VMM in the analog domain. Specialized mixed-signal circuits stimulate and read the outputs of the RRAM crossbar. The single-chip CMOS prototype includes a reduced instruction set computer (RISC) processor interfaced to a memory-mapped mixed-signal core. In the mixed-signal core, ADCs and DACs interface with the passive RRAM crossbar. The RISC processor controls the mixed-signal circuits and the algorithm data path. The system is fully programmable and supports forward and backward propagation. As proof of concept, a fully integrated 0.18-µm CMOS prototype with a postprocessed RRAM array demonstrates several key functions of machine learning, including online learning. The mixed-signal core consumes 64 mW at an operating frequency of 148 MHz. The total system power consumption considering the mixed-signal circuitry, the digital processor, and the passive RRAM array is 307 mW. The maximum theoretical throughput is 2.6 GOPS at an efficiency of 8.5 GOPS/W.

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An 8-bit 20.7 TOPS/W Multi-Level Cell ReRAM-based Compute Engine

Correll

Song

et al. 2022

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6GS/s 8-channel CIC SAR TI-ADC with Neural Network Calibration

Ware

Correll

Lee

et al. 2022

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A 650-μW 4-Channel 83-dBA-SNDR Speech Recognition Front-End With Adaptive Beamforming and Feature Extraction

Kang

Lee

Haghighat

et al. 2021

IEEE Solid-State Circuits Lett.

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An 81.6 dB SNDR 15.625 MHz BW Third-Order CT SDM With a True Time-Interleaving Noise-Shaping Quantizer

Lee

Kang

Song

et al. 2023

IEEE J. Solid-State Circuits

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Seungjong Lee

A Fully Integrated Reprogrammable CMOS-RRAM Compute-in-Memory Coprocessor for Neuromorphic Applications

An 8-bit 20.7 TOPS/W Multi-Level Cell ReRAM-based Compute Engine

6GS/s 8-channel CIC SAR TI-ADC with Neural Network Calibration

A 650-μW 4-Channel 83-dBA-SNDR Speech Recognition Front-End With Adaptive Beamforming and Feature Extraction

An 81.6 dB SNDR 15.625 MHz BW Third-Order CT SDM With a True Time-Interleaving Noise-Shaping Quantizer

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