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DTSTAMP:20221117T051253Z
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DTSTART;TZID=America/Los_Angeles:20221116T100000
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DESCRIPTION:Biological processes such as neuronal signaling and cell growth
  are among the most complex micro- and nano-scale processes in nature. His
 torically such processes have been studied at system level because there w
 ere no tools available to study individual components of the process. Howe
 ver\, cellular-level interfacing is needed to provide better understanding
  of the brain and to develop more advanced prosthetic devices and brain-ma
 chine interfaces. With semiconductor technology innovations\, much recent 
 work has been focused on unraveling biological complexity\, but also on dr
 iving new diagnoses\, treatments and therapies that are tailored to the in
 dividual. One of the drivers behind those innovations is novel CMOS circui
 ts enabling multi-modal\, high-precision data collection and analysis at u
 ltra-low power consumption. In this talk\, I will present recent biomedica
 l developments based on silicon technology\, and I will discuss the requir
 ements\, materials\, circuit techniques and design challenges of their ASI
 C and SoC platforms.\n\nSpeaker(s): Dr. Carolina Mora Lopez\, \n\nRoom: Au
 ditorium\, Bldg: Q\, 6455 Lusk Blvd\, San Diego\, California\, United Stat
 es\, 92121
LOCATION:Room: Auditorium\, Bldg: Q\, 6455 Lusk Blvd\, San Diego\, Californ
 ia\, United States\, 92121
ORGANIZER:jfshi@ieee.org
SEQUENCE:1
SUMMARY:Circuits and technologies for implantable biomedical devices
URL;VALUE=URI:https://events.vtools.ieee.org/m/330956
X-ALT-DESC:Description: <br /><p>Biological processes such as neuronal sign
 aling and cell growth are among the most complex micro- and nano-scale pro
 cesses in nature. Historically such processes have been studied at system 
 level because there were no tools available to study individual components
  of the process. However\, cellular-level interfacing is needed to provide
  better understanding of the brain and to develop more advanced prosthetic
  devices and brain-machine interfaces. With semiconductor technology innov
 ations\, much recent work has been focused on unraveling biological comple
 xity\, but also on driving new diagnoses\, treatments and therapies that a
 re tailored to the individual. One of the drivers behind those innovations
  is novel CMOS circuits enabling multi-modal\, high-precision data collect
 ion and analysis at ultra-low power consumption. In this talk\, I will pre
 sent recent biomedical developments based on silicon technology\, and I wi
 ll discuss the requirements\, materials\, circuit techniques and design ch
 allenges of their ASIC and SoC platforms.</p>
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