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| publications [2023/07/31 10:24] – [2023] murmann | publications [2023/12/31 10:15] (current) – [2023] murmann |
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| ====== 2023 ====== | ====== 2023 ====== |
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| * L.R. Upton, A. Levy, M.D. Scott, D. Rich, W.-S. Khwa, Y.-D. Chih, M.-F. Chang, S. Mitra, P. Raina, and B. Murmann, "EMBER: a 100 MHz, 0.86mm2, Multiple-Bits-per-Cell RRAM Macro in 40 nm CMOS with Compact Peripherals and 1.0 pJ/Bit Read Circuitry," Proc. ESSCIRC, Lisbon, Portugal, Sep. 2023. | * M. Jang, M. Hays, W.-H. Yu, C. Lee, P. Caragiulo, A. Ramkaj, P. Wang, A.J. Phillips, N. Vitale, P. Tandon, P. Yan, P.-I. Mak, Y. Chae, E.J. Chichilnisky, B. Murmann, D.G. Muratore, "A 1024-Channel 268 nW/pixel 36×36 um2/channel Data-Compressive Neural Recording IC for High-Bandwidth Brain-Computer Interfaces," IEEE J. Solid-State Circuits. [[https://doi.org/10.1109/JSSC.2023.3344798|DOI]] |
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| * M. Jang, W.-H. Yu, C. Lee, M. Hays, P. Wang, N. Vitale, P. Tandon, P. Yan, P.-I. Mak, Y. Chae, E.J. Chichilnisky, B. Murmann, and D.G. Muratore, "A 1024 Channel 268 nW per pixel 36x36 um2/ch Data-Compressive Neural Recording IC for High-Bandwidth Brain-Computer Interfaces," in Symp. VLSI Circuits Dig., Kyoto, Japan, Jun. 2023, pp. 1-2. [[https://doi.org/10.23919/VLSITechnologyandCir57934.2023.10185288|DOI]] | * L.R. Upton, A. Levy, M.D. Scott, D. Rich, W.-S. Khwa, Y.-D. Chih, M.-F. Chang, S. Mitra, P. Raina, and B. Murmann, "EMBER: a 100 MHz, 0.86mm2, Multiple-Bits-per-Cell RRAM Macro in 40 nm CMOS with Compact Peripherals and 1.0 pJ/Bit Read Circuitry," Proc. ESSCIRC, Lisbon, Portugal, Sep. 2023, pp. 469-472. [[https://doi.org/10.1109/ESSCIRC59616.2023.10268807|DOI]] |
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| * P. Yan, A. Akhoundi, N.P. Shah, P. Tandon, D.G. Muratore, E.J. Chichilnisky, and Boris Murmann, "Data Compression versus Signal Fidelity Tradeoff in Wired-OR Analog-to-Digital Compressive Arrays for Neural Recording," IEEE Trans. BioCAS, 2023. [[https://doi.org/10.1109/TBCAS.2023.3292058|DOI]] | * P. Yan, A. Akhoundi, N.P. Shah, P. Tandon, D.G. Muratore, E.J. Chichilnisky, and Boris Murmann, "Data Compression versus Signal Fidelity Tradeoff in Wired-OR Analog-to-Digital Compressive Arrays for Neural Recording," IEEE Trans. BioCAS, vol. 17, no. 4, pp. 754-767, Aug. 2023. [[https://doi.org/10.1109/TBCAS.2023.3292058|DOI]] |
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| | * M. Jang, W.-H. Yu, C. Lee, M. Hays, P. Wang, N. Vitale, P. Tandon, P. Yan, P.-I. Mak, Y. Chae, E.J. Chichilnisky, B. Murmann, and D.G. Muratore, "A 1024 Channel 268 nW per pixel 36x36 um2/ch Data-Compressive Neural Recording IC for High-Bandwidth Brain-Computer Interfaces," in Symp. VLSI Circuits Dig., Kyoto, Japan, Jun. 2023, pp. 1-2. [[https://doi.org/10.23919/VLSITechnologyandCir57934.2023.10185288|DOI]] |
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| * S. Weinreich and B. Murmann, "A 0.6–1.8-mW 3.4-dB NF Mixer-First Receiver With an N-Path Harmonic-Rejection Transformer-Mixer," IEEE J. Solid-State Circuits, vol. 58, no. 6, pp. 1508-1518, Jun. 2023. [[https://doi.org/10.1109/JSSC.2022.3214226|DOI]] | * S. Weinreich and B. Murmann, "A 0.6–1.8-mW 3.4-dB NF Mixer-First Receiver With an N-Path Harmonic-Rejection Transformer-Mixer," IEEE J. Solid-State Circuits, vol. 58, no. 6, pp. 1508-1518, Jun. 2023. [[https://doi.org/10.1109/JSSC.2022.3214226|DOI]] |
| * E. Iroaga and B. Murmann, "Method and system for driver circuits of capacitive loads," US 7369080, May 6, 2008. [[https://patents.google.com/patent/US7369080B1|WWW]] | * E. Iroaga and B. Murmann, "Method and system for driver circuits of capacitive loads," US 7369080, May 6, 2008. [[https://patents.google.com/patent/US7369080B1|WWW]] |
| ====== PhD Theses ====== | ====== PhD Theses ====== |
| | * G. Nyikayaramba, "Enabling low voltage electronics for ultrasonic structural health monitoring," 2023 [[https://searchworks.stanford.edu/view/in00000001244]] |
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| * Q. Lu, "TinyML computer vision using coarsely-quantized log-gradient input images," 2023 [[https://searchworks.stanford.edu/view/14801748]] | * Q. Lu, "TinyML computer vision using coarsely-quantized log-gradient input images," 2023 [[https://searchworks.stanford.edu/view/14801748]] |
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