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SUMMARY:Community Day: Free Admission at the Arboretum
DESCRIPTION:The first Tuesday of each month\, the Arboretum is open without charge to visitors. See dates and times UC Santa Cruz Arboretum & Botanic Garden is open. NOTE: Due to limited parking at the Arboretum and the popularity of Community Day\, we greatly encourage visitors to carpool\, bike\, walk or use public transportation as much as possible.
URL:https://events.ucsc.edu/event/community-day-free-admission-at-the-arboretum/2026-06-02/
LOCATION:Arboretum\, 122 Arboretum Road\, Santa Cruz\, CA\, 95064
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DTSTART;TZID=America/Los_Angeles:20260602T120000
DTEND;TZID=America/Los_Angeles:20260602T130000
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CREATED:20260520T175017Z
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SUMMARY:Discover Bioinformatics: Data\, Biology & Innovation
DESCRIPTION:Lead the next wave of innovation in life sciences and data\nAs biotechnology and data analytics converge\, the demand for professionals who can interpret complex biological data and drive discovery continues to grow. Learn how experts in bioinformatics use computational tools\, programming\, and molecular biology to transform raw data into scientific and medical insights. \nYour speaker\nJoin Darryl A. León\, Ph.D.\, chair of the UCSC Silicon Valley Extension Bioinformatics program\, for an inside look at how our courses can help you strengthen your skills in data analysis\, genomics\, and software tools—preparing you to contribute to advances in biotech\, pharmaceuticals\, and healthcare. \nClaim your seat today.\n\nKeep learning\nExplore our course catalog to see the full course lineup.
URL:https://events.ucsc.edu/event/discover-bioinformatics-data-biology-innovation/
LOCATION:Silicon Valley Campus\, 3175 Bowers Avenue\, Santa Clara\, CA\, 95054\, United States
CATEGORIES:Lectures & Presentations,Meetings & Conferences,Training
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DTSTART;TZID=America/Los_Angeles:20260602T120000
DTEND;TZID=America/Los_Angeles:20260602T170000
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SUMMARY:Rules Are Not Neutral: Play As Sense-Making\, Acts Of Resistance\, And Imagining Otherwise
DESCRIPTION:This exhibition brings together a range of analog games – including board\, card\, role-playing\, and other participatory works – that engage social and political realities in different ways. The works span widely circulated commercial games to independently produced projects\, one-of-a-kind artworks by artists\, faculty\, alumni\, and students\, and materials drawn from UC Santa Cruz Special Collections and Archives. \nIn part\, the exhibition challenges the persistent assumption that games and play are detached from social and political life. On the contrary\, game designers and artists across diverse perspectives and positions have long used play to engage questions of social systems\, lived experience\, and how power operates. This exhibition does not attempt to represent that full spectrum. Instead\, it brings together a particular set of works that foreground how games can make systems visible\, intervene in them\, and imagine alternatives. \nAll games embody values\, whether intentional or not.  \n– Mary Flanagan\, game designer and scholar \nAcross all of these works\, games are not only forms of entertainment\, though they may be that as well. They are encountered in multiple ways: as objects\, as systems\, as artworks\, and as experiences that unfold unpredictably through interaction. In each case\, rules and constraints shape what participants can do. In these different forms\, the works stage systems – such as housing and land ownership\, capitalism\, race and identity\, civil rights and protest\, fascism\, and colonialism – in ways that are simplified and easy to see\, opening space to recognize similar structures beyond the game. In this sense\, the works suggest that rules are not neutral – they organize experience\, distribute power\, and produce meaning. \nGames are the art of agency. \n– C. Thi Nguyen\, philosopher \nThe exhibition is intentionally dense. This abundance reflects the breadth of ways games operate across contexts\, from activism and education to art and everyday life. While it celebrates creativity and difference\, it also asks how these works engage critically with the structures that shape our lives.  \nSome works use rules to model systems\, helping players understand how those systems operate. Others use play to rehearse action\, asking players to practice navigating or challenging those systems. Still others turn toward speculation\, inviting players to imagine alternative futures\, worlds\, and the systems that might shape them.  \nThe imagination is an instrument of change. \n– Ursula K. Le Guin\, author \nThe focus on analog games reflects how they foreground materiality and shared physical presence. Played face-to-face\, handled\, read aloud\, and experienced together\, these works show how rules operate not in abstraction\, but through lived\, embodied experience. \nUltimately\, the exhibition asks us to consider not only how games represent the world\, but how they shape our engagement with it – and how through play\, the social and political systems they model might be understood\, challenged\, and reimagined. \nGames are not apolitical. \n– Kishonna L. Gray\, media scholar \n  \nGallery Reception\nMay 15 from 1 to 4pm at the Eloise Pickard Smith Gallery \n  \nArt Friday\nHands-on art activities drawing from the current exhibition.\nALL ARE WELCOME regardless of skill level. Art supplies and free snacks are provided!
URL:https://events.ucsc.edu/event/rules-are-not-neutral-play-as-sense-making-acts-of-resistance-and-imagining-otherwise/2026-06-02/
LOCATION:Eloise Pickard Smith Gallery\, 11 Cowell Service Rd\, Santa Cruz\, CA\, 95064
CATEGORIES:Exhibits
ORGANIZER;CN="Eloise Pickard Smith Gallery":MAILTO:epsgal@ucsc.edu
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DTSTART;TZID=America/Los_Angeles:20260602T130000
DTEND;TZID=America/Los_Angeles:20260602T150000
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SUMMARY:Sheaves\, T. (CSE) - Timing Side-Channels in Commercial ReRAM: Toward ReRAM Pentimenti
DESCRIPTION:Recently\, a class of non-invasive hardware side-channel attacks has been discovered in field-programmable gate arrays (FPGAs). These attacks extract remnants of prior users’ activity that persist as transistor defect states within reconfigurable routing resources. These remnants are known as FPGA Pentimenti. Resistive random-access memory (ReRAM) is a compelling candidate for pentimenti-like attacks beyond FPGAs. However\, unlike FPGAs\, where sophisticated on-chip sensors capable of detecting pentimenti have been well-studied\, non-invasive pentimenti recovery in commercial ReRAM must rely on measurements of observable write latency. These measurements are dominated by data-dependent structural biases that obscure any underlying defect-dynamics signal. In this dissertation\, we demonstrate that the structural and stochastic components of commercial ReRAM write latency can be decoupled and recovered through non-invasive timing analysis alone. Our results provide the reverse engineering and measurement infrastructure for future study of ReRAM pentimenti by isolating the component of programming latency sensitive to defect dynamics. \nEvent Host: Tyler Sheaves\, Ph.D. Candidate\, Computer Science & Engineering  \nAdvisor: Dustin Richmond  \nZoom: https://ucsc.zoom.us/j/92729427179?pwd=BpYLqft18YdOU0mDdQWs8erID2VcHi.1 \nPasscode: 939530
URL:https://events.ucsc.edu/event/sheaves-t-cse-timing-side-channels-in-commercial-reram-toward-reram-pentimenti/
LOCATION:Engineering 2\, Engineering 2 1156 High Street\, Santa Cruz\, CA\, 95064
CATEGORIES:Ph.D. Presentations
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SUMMARY:Figuerres\, S. (ECE) - Ion Transport Mechanisms for Bioelectronics
DESCRIPTION:Ion transfer as the movement of charged species across spaces and interfaces is the basis of signaling in nearly all biological systems. My research is grounded in the idea that precise control over ion transfer enables direct manipulation of biological function. Specifically\, I focus on how ion transport can be engineered to regulate both collective behavior in microbial communities\, as well as cellular sensing through ion channels. In comparison to traditional means such as passive diffusion\, mediated ion transfer via ion pumps and ion channels creates opportunity for high precision control of biological signaling. My work centers on ion transfer as a fundamental mechanism for biological signaling and control across systems. Using bioelectronic ion pumps and mechanosensitive ion channels to precisely manipulate the movement of charged species\, I aim to investigate ion transfer at the interface of biology and electronics. \nEvent Host: Sydnie Figuerres\, Ph.D. Student\, Electrical & Computer Engineering  \nAdvisor: Marco Rolandi
URL:https://events.ucsc.edu/event/figuerres-s-ece-ion-transport-mechanisms-for-bioelectronics/
LOCATION:Jack Baskin Engineering\, Baskin Engineering 1156 High Street\, Santa Cruz\, CA\, 95064
CATEGORIES:Ph.D. Presentations
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DTSTART;TZID=America/Los_Angeles:20260602T140000
DTEND;TZID=America/Los_Angeles:20260602T160000
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SUMMARY:Bose\, S. (ECE) - Learning-Augmented Optimization\, Control\, and Inference in Modern Power Systems
DESCRIPTION:The electric grid is essential to modern society\, and recent developments such as renewable energy sources (RESs)\, battery energy storage systems (ESSs)\, and microgrids (MGs) have necessitated novel computational methods for planning and operations. Machine learning offers a promising lever here\, both as an accelerator for and proxy to traditional optimization-based problems. In this thesis\, we consider learning-based algorithms for three such problems: load restoration in islanded microgrids\, accelerated optimal power flow\, and short-term load forecasting. \nWe first address load restoration of islanded MGs containing RESs\, battery ESSs\, microturbines\, and inverter-based devices. We formulate the problem as a multi-timestep nonconvex optimization and decompose it via model predictive control (MPC). We develop novel convex relaxations of the nonconvex constraints\, including power flow\, ESS charge/discharge complementarity\, and inverter voltage-reactive power relations\, to generate approximately feasible solutions\, and then improve on them via a reinforcement learning method based on constrained policy optimization (CPO) that respects the original nonconvexity. \nWe then turn to accelerating convexified optimal power flow (C-OPF) via constraint screening\, presenting an analysis that reduces screening for certain C-OPF families to a rank-based test. Building on this\, we introduce Mixture of Gradient Experts (MoGE)\, an architecture that learns optimal dual variables from historical C-OPF solutions and combines them with the KKT conditions to eliminate likely non-binding constraints\, with a recovery step that guarantees the reduced problem’s solution matches the original’s. We demonstrate speedups on grids with up to 10\,000 buses. \nFinally\, we consider short-term load forecasting (STLF) from smart-meter data\, motivated by the role of forecasts as inputs to the optimization problems above. To address consumer-data privacy and the heterogeneity of consumption patterns\, we introduce personalization layers for federated learning (PL-FL)\, in which each client trains a model with a local personalized component and a shared aggregated component\, and extend it to a privacy-preserving variant (PPFL) that applies differential privacy to the shared component. Separately\, we present an empirical study of forecasting architectures spanning classical recurrent networks to fine-tuned time-series foundation models\, holding dataset size and parameter count constant to isolate architectural contribution. All methods are evaluated on subsets of the NREL ComStock dataset. \nEvent Host: Shourya Bose\, Ph.D. Candidate\, Electrical & Computer Engineering  \nAdvisor: Yu Zhang \nZoom: https://ucsc.zoom.us/j/93511298189?pwd=eAyDKdMirlVqYGUsbhQCccoBM9gDV6.1 \nPasscode: 462014
URL:https://events.ucsc.edu/event/bose-s-ece-learning-augmented-optimization-control-and-inference-in-modern-power-systems/
LOCATION:Engineering 2\, Engineering 2 1156 High Street\, Santa Cruz\, CA\, 95064
CATEGORIES:Ph.D. Presentations
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DTSTART;TZID=America/Los_Angeles:20260602T190000
DTEND;TZID=America/Los_Angeles:20260602T210000
DTSTAMP:20260602T013030
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SUMMARY:Chamber Music Concert with UCSC Music Ensembles —Percussion\, Celtic\, Classical Guitar\, Horns\, Central Asian\, Experimental
DESCRIPTION:Audiences are invited to a free spring quarter chamber music concert featuring a variety of student ensembles.\n—\nADMISSION\n– Attend in person at the Music Center Recital Hall at UC Santa Cruz\n– UCSC Affiliates only\n– Open seating (no ticket required).\n– Doors are scheduled to open 30 minutes prior to event start time.\n—\nPARKING\n– Arts Lot #126 is the closest parking lot to the event.\n– $5 ParkMobile Arts Special Event flat rate; cash/credit via parking attendant when present in the lot; or by valid UCSC permit.\n– Before arriving to UCSC\, we recommend downloading the ParkMobile App on Google Play or Apple App Store and setting up a profile with license plate and payment information.\n– Visitors with DMV placards or plates may park for free in DMV spaces\, Medical spaces\, or ParkMobile spaces without additional payment\, or in timed zones for longer than the posted time.\n– UCSC affiliates must get their permits in advance; attendants will only sell non-affiliate rates\n– More information provided by UCSC Transportation & Parking Services.\n—\nThis program is open to UCSC affiliates only.
URL:https://events.ucsc.edu/event/chamber-music-spring/
LOCATION:Music Center Recital Hall\, 400 McHenry Road\, Santa Cruz\, CA\, 95064
CATEGORIES:Concerts,Performances
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