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DTSTART;TZID=America/Los_Angeles:20260601T104000
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DTSTAMP:20260528T185942Z
CREATED:20260528T185942Z
LAST-MODIFIED:20260528T185942Z
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SUMMARY:ECE 290 Seminar: Memristors for a brain-scale neuromorphic chip
DESCRIPTION:Presenter: Sung-Mo “Steve” Kang\, Distinguished Professor Emeritus and Research Professor\, UC Santa Cruz \n  \nDescription: Recently\, applications of artificial intelligence (AI) have far outpaced Moore’s law in chip development\, thus creating an increasingly large gap between user demand and the supply that the semiconductor industry can deliver. In this talk\, we will discuss the unique roles of memristor technologies that can be leveraged to develop scaled-up AI neural networks\, particularly spiking neural networks (SNNs) for brain-like neuromorphic computing and unsupervised learning with high energy efficiency. Open-source memristor circuit designs\, along with open-source software\, may facilitate the development of micro- and nano-electronic systems that emulate brain functions. In this venue\, we will discuss how to harness memristor- based circuits and systems to build memristor neurons\, synapses\, and their interconnects for ultra-high packing density\, low power consumption\, and the fabrication services needed to enable innovation. \n  \nBio: Sung-Mo “Steve” Kang is a Distinguished Professor Emeritus and Research Professor at the Baskin School of Engineering\, UC Santa Cruz; Chancellor Emeritus of UC Merced; and President Emeritus of KAIST. He has published more than 500 journal and conference papers\, authored 10 books\, and holds 17 patents. Before returning to academia in 1985\, he led the development of the world’s premier fully CMOS 32-bit VLSI microprocessor chipsets for telecommunications and computing applications as a technical supervisor at AT&amp;T Bell Laboratories in Murray Hill\, New Jersey. This work was recognized as an IEEE Milestone in February 2025. He has received honors\, including best paper awards\, induction into the Silicon Valley Engineering Hall of Fame\, the Alexander von Humboldt Senior US Scientists Award\, the IEEE Millennium Medal\, the IEEE Mac Van Valkenburg Circuits and Systems (CAS) Society Award\, the IEEE CAS Society Technical Excellence Award\, the US Semiconductor Research Corporation (SRC) Technical Excellence Award\, the IEEE Leon K. Kirchmayer Graduate Teaching Technical Field Award\, and the IEEE CAS Society John Choma Education Award\, as well as the Chang-Lin Tien Education Leadership Award. Dr. Kang is a Life Fellow of the IEEE and a Fellow of the Association for Computing Machinery (ACM)\, the American Association for the Advancement of Science (AAAS)\, and the Asia-Pacific AI Association. He is a life member of the European Academy of Sciences and Arts and the Korean Academy of Science and Technology\, and a foreign member of the National Academy of Engineering\, Korea. He received his B.S. from Fairleigh Dickinson University\, Teaneck\, New Jersey\, in 1970; an honorary B.S. from Yonsei University; an M.S. from the State University of New York at Buffalo in 1972; and a Ph.D. from the University of California at Berkeley in 1975\, all in electrical engineering. \n  \nHosted by: Professor Soumya Bose\, ECE Department \nZoom Link: https://ucsc.zoom.us/j/97975378707?pwd=ljcgaCfhMmhZ88Vt5dqQUBVQRjehOx.1
URL:https://live-events-ucsc.pantheonsite.io/event/ece-290-seminar-memristors-for-a-brain-scale-neuromorphic-chip/
LOCATION:Engineering 2\, Engineering 2 1156 High Street\, Santa Cruz\, CA\, 95064
CATEGORIES:Lectures & Presentations,Seminars
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END:VEVENT
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DTSTART;TZID=America/Los_Angeles:20260601T123000
DTEND;TZID=America/Los_Angeles:20260601T133000
DTSTAMP:20260526T191332Z
CREATED:20260526T191332Z
LAST-MODIFIED:20260526T191332Z
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SUMMARY:CM Seminar - Alex Olwal\, "Human-Centered Augmentation: Interacting with Matter\, Humans\, and Machines"
DESCRIPTION:Presented by: Alex Olwal \nDescription: “In this talk\, I will share my perspectives on the evolution and future of human-centered augmentation\, through the lens of two decades of research and development. Drawing from experiences across academia and industry\, I will discuss insights from having led projects in augmented reality\, accessibility\, electronic textiles\, novel sensing and displays\, and their implications for emerging AI-augmented interfaces.” \nBio: Alex Olwal is a research scientist and engineering leader focused on interaction technology and human augmentation. During his tenure at Google\, he founded the Interaction Lab and Biointerfaces team \, and tech transferred accessibility-focused language glasses to the Augmented Reality product organization\, where he established the Augmented Language Team. As an engineering manager in the product organization\, he evolved his team’s scope to deliver Human-AI language capabilities\, including speech perception\, natural language understanding\, real-time translation and captions\, and generative AI. The team’s conversational AI experiences for AR glasses were a key feature in the Google I/O 2022 keynote. Alex’s research has spanned augmented reality\, ubiquitous computing\, wearables\, and accessibility\, often leveraging novel opportunities in display technology\, sensing\, soft electronics\, and machine intelligence. He is passionate about impactful problems that can be addressed through Human-AI interfaces\, real-time interaction techniques and transformative applications. \nPreviously\, Alex conducted research at MIT Media Lab as a postdoctoral fellow after receiving his Ph.D. from KTH Royal Institute of Technology\, with research conducted at Columbia University\, UC Santa Barbara\, and Microsoft Research (research internship). He has held faculty positions at Stanford University\, Rhode Island School of Design\, and KTH. \nWebsite: www.olwal.com \nHosted by: Professor Katherine Isbister \nWhen: Monday\, June 1\, 2026 from 12:30PM to 1:30PM \nLocation:  \nIN-PERSON @ UCSC Main Campus\, E2-280. \nViewing room @ SVC 3212. \nLUNCH WILL BE PROVIDED AT BOTH LOCATIONS! Faculty and students are highly encouraged to attend. \nZoom info: \nhttps://ucsc.zoom.us/j/97081260699?pwd=eyt5f4CAEHHLQWBhdaLA693T3gecaj.1\nMeeting ID: 970 8126 0699\nPasscode: 047011
URL:https://live-events-ucsc.pantheonsite.io/event/cm-seminar-alex-olwal-human-centered-augmentation-interacting-with-matter-humans-and-machines/
LOCATION:Engineering 2\, Engineering 2 1156 High Street\, Santa Cruz\, CA\, 95064
CATEGORIES:Lectures & Presentations,Seminars
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DTSTART;TZID=America/Los_Angeles:20260601T132500
DTEND;TZID=America/Los_Angeles:20260601T143000
DTSTAMP:20260512T144657Z
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SUMMARY:Seminar Series | What you may not know about groundwater management in California with Ruth Langridge
DESCRIPTION:Host: ENVS Personnel Committee \nGroundwater is a critical source of California’s water supply. Many basins in critical overdraft are now being managed under the 2015 Sustainable Groundwater Management Act (SGMA) to support state goals of sustainable and equitable management. However\, court adjudicated basins that encompass over 8\,000 square miles and are home to nearly 11 million people\, over 4 million of whom live in disadvantaged and economically vulnerable communities\, are not managed under SGMA but under court judgments. The groundwater basins in the entire San Gabriel River Watershed and large areas of the Santa Ana Watershed in Southern California are adjudicated. Our research evaluated how management of these important groundwater basins under a court appointed Watermaster is aligned with state sustainability and equity goals as expressed in SGMA. \nIn person and on Zoom \nMeeting ID:  949 5253 7079 \nPasscode: 552886
URL:https://live-events-ucsc.pantheonsite.io/event/groundwater-management-in-california/
LOCATION:Interdisciplinary Sciences Building\, 7487 Red Hill Road\, Santa Cruz\, CA\, 95064
CATEGORIES:Seminars
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BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20260601T160000
DTEND;TZID=America/Los_Angeles:20260601T170000
DTSTAMP:20260430T211522Z
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SUMMARY:AM Seminar: Using Math and Experiments to Study the Control of Cell Metabolism
DESCRIPTION:Presenter: Denis Titov\, Assistant Professor\, University of California\, Berkeley \nDescription: Cells run thousands of chemical reactions simultaneously\, and these reactions must be precisely controlled—like a thermostat that prevents overheating. When this control fails\, diseases including diabetes\, cardiovascular disease\, and fatty liver disease result. One key control mechanism is allosteric regulation\, where a small molecule binds to an enzyme and changes its activity. Allosteric regulation is among the most conserved features of cellular life\, yet the functions it serves remain one of the oldest unsolved problems in biology. Several roles have been proposed\, but since the discovery of allostery in the 1950s\, no one has systematically disabled it in metabolic enzymes and measured the consequences. Four technological advances now converge to make this possible. CRISPR enables precise genome editing of allosteric sites. Structural biology has mapped which residues to target. LC-MS metabolomics makes metabolic phenotyping routine. The speed of modern computers enables detailed modeling of allosteric regulator function. In this talk\, I will describe our work developing and testing the first-in-class biophysical model of a metabolic pathway that accurately predicts responses to the addition or removal of allosteric regulators. Our work provides a framework for developing predictive models of cell metabolism that can be used for drug development or for engineering cells for energy production and chemical synthesis. Within a decade\, we plan to develop a model that accurately predicts metabolic activity in any human cell type under any condition. \nAbout the speaker: Denis Titov is an Assistant Professor at the University of California Berkeley with joint appointments in the Department of Metabolic Biology and Nutrition\, Department of Molecular and Cell Biology\, and Center for Computational Biology. Dr. Titov’s long-term research dream is to improve the understanding of human metabolic pathway regulation to a point where we can accurately predict metabolic pathway activity in any cell type\, under any condition\, and in response to any perturbation. Dr. Titov is interested in the following broad questions: How does metabolic homeostasis emerge from the activities of individual enzymes? What trade-offs drove the evolution of specific metabolic pathways and their control mechanisms? How to effectively combine data and biophysical models to simulate metabolic pathways? To tackle these questions\, Titov lab is using a combination of biochemistry\, mathematical modeling\, physiology\, custom instrumentation\, and genetically encoded tool development to study metabolism in mammalian cells and reconstituted biochemical systems. \nThis seminar is hosted by Professor Nilah Ioannidis.
URL:https://live-events-ucsc.pantheonsite.io/event/am-seminar-using-math-and-experiments-to-study-the-control-of-cell-metabolism/
LOCATION:Jack Baskin Engineering\, Baskin Engineering 1156 High Street\, Santa Cruz\, CA\, 95064
CATEGORIES:Lectures & Presentations,Seminars
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