Baskin School of Engineering

The Baskin School of Engineering at UC Santa Cruz is unique among public engineering schools. By offering future-looking programs of study and opportunities to engage in collaborative research across campus and with industry partners in Santa Cruz and nearby Silicon Valley, Baskin Engineering is a school of engineering for the 21st century. Founded in 1997, in the age of the internet, the Baskin Engineering community is deeply committed to addressing the most important engineering challenges posed by our modern world. Faculty and students pursue novel, visionary research guided by a mission to create positive societal impact.

Events from this organizer

Today

  • AM Seminar: Denoising: A Powerful Building Block for Imaging, Inverse Problems and Machine Learning

    Virtual Event

    Presenter: Peyman Milanfar, Distinguished Scientist, Google Description: Denoising, the process of reducing random fluctuations in a signal to emphasize essential patterns, has been a fundamental problem of interest since the dawn of modern scientific inquiry. Recent denoising techniques, particularly in imaging, have achieved remarkable success, nearing theoretical limits by some measures. Yet, despite tens of […]

  • NLP MS Virtual Information Session

    Virtual Event

    Interested in a career in generative AI? Join us Dec. 2 from 7 – 8 PM for our Virtual Information Session. Learn more about our program, based at the UCSC Silicon Valley Campus, where you can earn your NLP MS in as little as 15 months. We offer: Application fee waivers for UCSC students and […]

  • When Less is More: Applications of Type-Based Underapproximate Reasoning

    Engineering 2 Engineering 2 1156 High Street, Santa Cruz, CA

    Presenter: Suresh Jagganathan, Purdue University Abstract: Unlike program verifiers, symbolic execution and property-based testing tools underapproximate program behavior: they aim to report only real bugs (no false positives), at the cost of potentially missing some (false negatives). Recent work has sought to place such tools on a more formal footing, primarily through the development of incorrectness […]

    Free

  • BME 280B Seminar: Gali Bai & David Haussler

    Physical Sciences Building Physical Sciences Building, Santa Cruz, CA

    Presenter 1: Gali Bai, BME/PBSE Doctoral Candidate, Brooks Lab, UC Santa Cruz Title 1: Dissecting the contribution of chromatin accessibility to RNA transcription and processing with long-read sequencing Description: Although all cells in an organism share the same genomic sequence, transcriptional programs vary dramatically across cell types. This diversity is governed by epigenetic regulation involving […]

  • GradWiC Womxn’s Lunch

    GradWiC Womxn’s Lunch

    Join Graduate Womxn in Computing (GradWiC) for our final Womxn’s Luncheon of the quarter. We will be on the E2 Lanai patio weather allowing, or E2-599 in the case of inclement weather.

  • Three figurs standing atop of three question marks holding telescopes.

    Future careers: What will work look like in 2030?

    Silicon Valley Campus 3175 Bowers Avenue, Santa Clara, CA, United States

    Join Dean PK Agarwal for this free online session. He’ll lead a forward-looking conversation on emerging job roles in tech, sustainability, health, and creative industries. Learn how industry convergence and global trends are shaping new career paths and the skills you’ll need to stay relevant. Discover which industries are driving job creation and how roles […]

  • Blue tablet screen with web of white work icons.

    Embedded Systems Program Info Session

    Silicon Valley Campus 3175 Bowers Avenue, Santa Clara, CA, United States

    Build Your Career in Embedded Systems While hiring has slowed in some tech sectors, the demand for skilled Embedded Systems professionals continues to grow across industries. At this free winter info session, you’ll learn about emerging roles in embedded technology and the essential skills that make your resume stand out. Discover how AI is being […]

  • Littschwager, N. (CSE) – A Proposal for Characterizing Replicated Systems and Emulators

    Hybrid Event

    Simulation is a coinductive proof technique to assert the behavioral equivalence of computing systems that has seen fruitful application in distributed systems, concurrent process calculi, and programming languages, since the 1970’s. We have also utilized simulation in our prior work, where we formalized and proved a folklore claim that the state-based and operation-based approaches to […]

  • DeGrendele, C. (AM) – Learning-Augmented and Structure-Preserving Methods for Conservation Law Solvers

    Engineering 2 Engineering 2 1156 High Street, Santa Cruz, CA
    Hybrid Event

    In this work, we develop numerical methods for conservation laws that explore statistical, structure-preserving, and machine-learning-based approaches, each built on top of traditional numerical solvers. First, we develop a general Gaussian-process-based “recipe’’ for constructing high-order linear operators such as interpolation, reconstruction, and derivative approximations. Building on this recipe, we derive a kernel-agnostic convergence theory for […]

  • Garg, S. (CSE) – MAPPING ANNOTATIONS FROM NETLIST TO SOURCE CODE

    Engineering 2 Engineering 2 1156 High Street, Santa Cruz, CA
    Hybrid Event

    Hardware design flows have become increasingly complex as modern chips integrate billions of transistors and rely on aggressive synthesis optimizations to meet performance, area, and power targets. While these transformations improve circuit efficiency, they also erase the correspondence between gate-level netlists and their originating HDL source lines. The loss of traceability makes post-synthesis debugging, timing […]

  • Jamilan, S. (CSE) – Profile-guided Compiler Optimizations for Data Center Workloads

    Engineering 2 Engineering 2 1156 High Street, Santa Cruz, CA
    Hybrid Event

    Modern applications, such as data center workloads, have become increasingly complex. These applications primarily operate on massive datasets, which involve large memory footprints, irregular access patterns, and complex control and data flows. The processor-memory speed gap, combined with these complexities, can lead to unexpected performance inefficiencies in these applications, preventing them from achieving optimal performance. […]

  • CSE Colloquium: Making Systems Secure with Information Flow

    Engineering 2 Engineering 2 1156 High Street, Santa Cruz, CA

    Presenter: Andrew Myers, Cornell University Abstract: Modern civilization depends on complex, interconnected software systems that must safeguard trustworthy or private data. We have ever-growing mountains of code yet lack principled ways to build large systems that are secure. What is missing is a way to securely build these systems compositionally: module by module and layer […]

    Free

  • de Priester, J. (ECE) – Hybrid Reinforcement Learning

    Jack Baskin Engineering Baskin Engineering 1156 High Street, Santa Cruz, CA
    Hybrid Event

    Reinforcement Learning (RL) is a machine learning paradigm that trains a decision maker, or policy, by learning from interaction with an environment. The power of RL lies in its ability to learn complex strategies without explicit human instruction, which can lead to better solutions that human designers overlook in domains ranging from robotics to scientific […]

  • Ferdous, N. (CSE) – SPECSIM : A Simulation Infrastructure Mitigating Transient Timing Attacks

    Engineering 2 Engineering 2 1156 High Street, Santa Cruz, CA
    Hybrid Event

       Transient execution attacks are serious security threats in modern-day processors. Out-of-order execution compels the processor to access data that should not be otherwise perceived. Leakage of that secret information creates a covert channel for the attacker for various types of transient and speculative attacks. Transient based execution attacks emanate when the secret information is leaked […]

  • Wang, Y. (CSE) – Toward Practical and Effective Large Language Model Unlearning

    Virtual Event

    The growing integration of Large Language Models (LLMs) into real-world applications has heightened concerns about their trustworthiness, as models may reveal private information, reproduce copyrighted content, propagate biases, or generate harmful instructions. These risks, alongside emerging privacy regulations, motivate the need for LLM unlearning, methods that remove the influence of specific data while preserving overall […]

  • Zhu, R. (ECE) – From Neuromorphic Principles to Efficient Neural Language Architectures

    Engineering 2 Engineering 2 1156 High Street, Santa Cruz, CA
    Hybrid Event

    While Large Language Models exhibit remarkable capabilities, their reliance on the standard Transformer architecture imposes prohibitive computational costs and quadratic memory complexity. To bridge the gap between biological efficiency and high-performance AI, we have established foundational work in linearizing attention and maximizing hardware utilization through architectures such as RWKV and MatMul-Free networks. Addressing the remaining […]

  • Singh, A. (ECE) – Quantum Key Distribution Using Entangled Pairs with Random Grouping

    Jack Baskin Engineering Baskin Engineering 1156 High Street, Santa Cruz, CA
    Hybrid Event

    Quantum Key Distribution (QKD) provides information-theoretic security for cryptographic key establishment, but existing protocols exhibit limited noise tolerance, restricting their applicability in practical quantum channels with finite resources. This work introduces a QKD protocol based on entanglement swapping that significantly enhances error tolerance and key generation rates. The protocol encodes six-bit classical symbols into six-qubit […]

  • Tran, L. (BMEB) – Polysome Shadowing: A Long-Read Sequencing Approach to Study Translation

    Biomedical Sciences Building 575 McLaughlin Drive

    Translation is a central and highly regulated step of gene expression, yet there are few quantitative, high-throughput tools to study translation. Existing methods such as sucrose gradients provide only bulk ribosome counts, while Ribo-Seq offers positional information in the genome but destroys long-range structure and transcript expression information. Because of these limitations, many fundamental questions […]