Azita Emami
Andrew and Peggy Cherng Professor of Electrical Engineering and Medical Engineering; Director, Center for Sensing to Intelligence
B.S., Sharif University of Technology, 1996; M.S., Stanford University, 1999; Ph.D., 2004. Assistant Professor, Caltech, 2007-13; Professor, 2013-17; Cherng Professor, 2017-; HMRI Investigator, 2015-21; EAS Division Deputy Chair, 2015-18; Executive Officer, 2018-24; Director, 2021-.
Research interests: high-performance integrated circuits and systems
Overview
Professor Emami works to design and develop high-performance, reliable, low-power mixed-mode circuits in highly scalable technologies that can lead to the advancement of theory and creation of new tools. The applications for this work cover everything from mixed-signal integrated circuits for digital data communication, low-power circuit and system solutions, very-large-scale-integrated (VSLI) systems, circuits at the interfaces, optoelectronics, and biomedical implants.
Related News
Read more newsPublications
- Haghi, Benyamin;Aflalo, Tyson et al. (2024) Enhanced control of a brain–computer interface by tetraplegic participants via neural-network-mediated feature extractionNature Biomedical Engineering
- Sharma, Saransh;Melton, Hayward et al. (2024) A 14.8- μ W Power and < 10 μ T ᵣₘₛ Noise 3-D AC Magnetic Sensor in CMOS for Biomedical ApplicationsIEEE Journal of Solid-State Circuits
- Talkhooncheh, Arian Hashemi;Emami, Azita (2024) Holistic Co-Design of Electronics and Photonics for High-Speed Optical Interconnects in SiP and CMOS Platforms
- Haghi, Benyamin;Ma, Lin et al. (2023) EKGNet: A 10.96μW Fully Analog Neural Network for Intra-Patient Arrhythmia Classification
- Sharma, Saransh;Melton, Hayward et al. (2023) A Monolithic 3D Magnetic Sensor in 65nm CMOS with <10μTrms Noise and 14.8μW Power
- Sharma, Saransh;Ramadi, Khalil B. et al. (2023) Location-aware ingestible microdevices for wireless monitoring of gastrointestinal dynamicsNature Electronics
- Hashemi Talkhooncheh, Arian;Zhang, Weiwei et al. (2023) A 100-Gb/s PAM4 Optical Transmitter in a 3-D-Integrated SiPh-CMOS Platform Using Segmented MOSCAP ModulatorsIEEE Journal of Solid-State Circuits
- Uran, Arda;Ture, Kerim et al. (2022) A 16-Channel Neural Recording System-on-Chip With CHT Feature Extraction Processor in 65-nm CMOSIEEE Journal of Solid-State Circuits
- Hashemi Talkhooncheh, Arian;Zhang, Weiwei et al. (2022) A 2.4pJ/b 100Gb/s 3D-integrated PAM-4 Optical Transmitter with Segmented SiP MOSCAP Modulators and a 2-Channel 28nm CMOS Driver
- Chen, Kuan-Chang;Emami, Azita (2021) Nonlinear Equalization for Optical Interconnects
Related Courses
2023-24
EE 105 ab – Electrical Engineering Seminar
EE 2/102 – Electrical Engineering Entrepreneurial and Research Seminar
EE 45 – Electronics Systems and Laboratory
2022-23
EE 105 abc – Electrical Engineering Seminar
EE/MedE 124 – Mixed-mode Integrated Circuits
EE 2/102 – Electrical Engineering Entrepreneurial and Research Seminar
EE 45 – Electronics Systems and Laboratory
2021-22
EE 105 abc – Electrical Engineering Seminar
EE/MedE 124 – Mixed-mode Integrated Circuits
EE 2 – Electrical Engineering Entrepreneurial and Research Seminar