About

Antoine Chaillon is an Associate Adjunct Professor in the Department of Medicine at UC San Diego. His research activities focus on HIV-related damage, viral persistence, and the immune response in people living with HIV. His work includes investigating the sources of HIV-associated damage, the role of the prostate as a reservoir for residual viral replication, and the dynamics of HIV reservoirs and immune responses during antiretroviral therapy. Chaillon's contributions extend to understanding the molecular and cellular mechanisms underlying HIV persistence, neurocognitive impairment, and the impact of various factors such as opioid use and environmental exposures on HIV progression and treatment outcomes. His research is supported by multiple NIH grants, and he has contributed to the scientific understanding of HIV pathogenesis, viral integration, and immune response, with numerous publications in peer-reviewed journals.

Research topics

• Computer Science
• Engineering
• Political Science
• Engineering ethics
• Data science
• Management science
• Library science

Selected publications

• The 46th Annual IEEE Custom Integrated Circuits Conference (CICC 2025) [Conference Reports]

  IEEE Solid-State Circuits Magazine · 2025-01-01

  articleSenior author
  PublisherDOI

• The 45th Annual IEEE Custom Integrated Circuits Conference (CICC 2024) Was Held on 21 to 24 April 2024 at the DoubleTree by Hilton in Denver, CO, USA [Conference Reports]

  IEEE Solid-State Circuits Magazine · 2024-01-01

  article
  PublisherDOI

• The 44th Annual IEEE Custom Integrated Circuits Conference (CICC 2023) [Conference Reports]

  IEEE Solid-State Circuits Magazine · 2023-01-01

  articleOpen accessSenior author

  Provides society information that may include news, reviews or technical notes that should be of interest to practitioners and researchers.

  PublisherOA PDFDOI

• Highlights From CICC 2022 [Conference Reports]

  IEEE Solid-State Circuits Magazine · 2023

  • Computer Science
  • Political Science
  • Engineering ethics

  Provides society information that may include news, reviews or technical notes that should be of interest to practitioners and researchers.

  PublisherOA PDFDOI

• Committee List

  2022 IEEE Custom Integrated Circuits Conference (CICC) · 2022

  1st authorCorresponding
  • Computer Science
  • Computer Science
  PublisherOA PDFDOI

• Highlights of CICC 2020: The First SSCS Virtual Conference [Conference Reports]

  IEEE Solid-State Circuits Magazine · 2020

  1st authorCorresponding
  • Computer Science
  • Engineering
  • Library science

  Presents highlights of the CICC 2020 virtual conference.

  PublisherOA PDFDOI

• Processes at nanoelectrodes: general discussion

  Faraday Discussions · 2018-01-01 · 3 citations

  article

  Yitao Long opened the discussion of the paper by Lei Jiang:This paper was not presented; questions on this paper were communicated after the meeting. This work is a very good example of your recently proposed ‘quantum-confined superfluid’ concept – it is really imperative to fabricate ion chann

  PublisherDOI

• Processes at nanopores and bio-nanointerfaces: general discussion

  Faraday Discussions · 2018-01-01 · 4 citations

  article

  Paul W. Bohn opened a discussion of the introductory lecture by Henry S. White: The problem of limits to the measurement of fast dynamics is determined by (1) the geometry and size of the structure, and (2) the nature of the electrolyte. Could you sensibly reduce the RC time constant by elimina

  PublisherDOI

• Session 27 — Technology directions

  2017-04-01

  article1st authorCorresponding

  This session gathers three emerging multidisciplinary applications of electronic circuits: flexible substrates, energy harvesting sensors on power lines and optically-assisted high-bandwidth electronics.

  PublisherDOI

• Session 7 — Advances in biomedial sensor systems

  2015-09-01

  article1st authorCorresponding

  For Biomedical sensor systems, there are always a lot of challenges in four major areas, namely the design of the bio-sensors itself, the power management of the implantable devices, the communication with these devices and the signal processing within these devices. In this session, the first paper describes a large (512×576) CMOS ISFET sensor realized in 65nm CMOS technology targeted towards DNA sequencing. It achieves high readout gain (201 mV/ph) and fast readout speed (375 fps). To address the challenges in the power management of implants, a voltage doubling rectifier and regulator combined circuit is described in the second paper. Power conversion efficiency and voltage conversion efficiency are improved by utilizing the voltage regulation transistor also as a passive rectifier. To efficiently utilize the communication bandwidth as well as power available in the implants, compressed-sensing is a hot topic in the biomedical area. The third paper describes a signal processing technique that compresses and also extracts key statistics of the input signal at sampling time. With these statistics, the reconstruction of the signal can be significantly improved (9-18dB) at the receiver. The fourth paper describes a fully-integrated, full-duplex wireless transceiver to address the challenges for high rate data communication (100 Mbps downlink and 500 Mbps uplink) required in some implantable devices. Physical size requirement is reduced by avoiding the use of circulators/diplexers with the antenna for RX and TX being shared.

  PublisherDOI

Frequent coauthors

• Samuel Palermo

  Analog Devices (United States)

  2920 shared

• Fa Foster Dai

  Auburn University

  2919 shared

• Arijit Raychowdhury

  Georgia Institute of Technology

  2919 shared

• Eric Soenen

  Denver School of Nursing

  2919 shared

• Alessandro Piovaccari

  2918 shared

• Carlos Tokunaga

  Intel (United States)

  2917 shared

• Rudell

  Keio University

  2916 shared

• Kaushik Sengupta

  Princeton University

  2916 shared