Professor Rahul Sarpeshkar
Analog Circuits and Biological Systems Group

We create (1) novel molecular and cellular circuits for systems and synthetic biology; (2) implantable medical devices such as cochlear implants and brain-machine interfaces; (3) ultra-energy-efficient and ultra-low-power systems; and, (4) biological and bio-inspired supercomputers. The common theme in all of our work is analog circuit design.

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Our Research
Prosthetic arm system
Medical Devices, Low-Power, and Energy-Efficient Systems
We research electronics for implantable bionic systems, intended as cures for the deaf, blind, and paralyzed, and for other medical applications involving sensing from the molecular scale to body scale. more
News


Professor Sarpeshkar releases new book entitled ______­____ Ultra Low Power Bioelectronics
Transistors Mimick Cells
Professor Sarpeshkar talks about the group's research

RLE Investigator Profile Video Series: Rahul Sarpeshkar

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Analog VLSI Vision Systems
Biological and Bio-inspired Supercomputers
We take inspiration from biology and model biology to create revolutionary VLSI chips for supercomputing, medical, RF, sensory, or robotic systems. more
Time-Based Hybrid Computing
Analog Synthetic and Systems Biology
We are applying analog circuit design to the design and analysis of advanced molecular and cellular systems. more
The How and Why of what we are doing
Synergy between biology and engineering How Ultra Energy Efficient Operation is Achieved
Postdoc and Graduate Student Positions Available
 
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