Audience: Faculty
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Singh, A. (ECE) – Quantum Key Distribution Using Entangled Pairs with Random Grouping
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…
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Garg, S. (CSE) – MAPPING ANNOTATIONS FROM NETLIST TO SOURCE CODE
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…
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Ferdous, N. (CSE) – SPECSIM : A Simulation Infrastructure Mitigating Transient Timing Attacks
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…
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Laffan, N. (CM) – Digital Memory Tools and Their Impact On Collective Remembering
Today, both individual and collective memories are increasingly mediated by digital platforms. Both are fundamentally enmeshed in platform ecosystems that orient around commercial imperatives very much at odds with community cohesion. The digital archive where our mediated memories are stored does not merely store information but actively inscribes it, often privileging narratives aligned with commercial…
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Zhu, R. (ECE) – From Neuromorphic Principles to Efficient Neural Language Architectures
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…
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de Priester, J. (ECE) – Hybrid Reinforcement Learning
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…
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Tran, L. (BMEB) – Polysome Shadowing: A Long-Read Sequencing Approach to Study Translation
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…
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Friends of Juristac UCSC Chapter Meeting
Join the UCSC chapter of Friends of Juristac at our next meeting on Wednesday, December 3, 5:30–6:30 p.m. at the College Nine/John R. Lewis Community Room. Stand with the Amah Mutsun Tribal Band in saying NO to sand and gravel mining at Juristac. At this meeting we’ll be learning how to table to gather support for…
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Silicon Chip Design & Semiconductor Engineering Info Session
Build the semiconductors powering the future. With the global demand for advanced chips on the rise, engineers who can design, simulate, and optimize integrated circuits are highly sought after. Learn how professionals in Silicon Valley develop digital and analog systems, apply verification methodologies, and leverage modern EDA tools to bring innovative designs from concept to…