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Theory & Models of Computation

Our study of the theoretical foundations of computing spans algorithm design and analysis, complexity, optimization, cryptography, quantum and more.

We seek to answer fundamental and long-standing questions about the capabilities and limitations of our field, which has practical implications in economics, logistics, social welfare, transportation and many other real-world domains.

Research Groups & Labs

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Quantum Group



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The Quantum Group does research on a variety of topics in quantum information and computation (primarily on the theory side), including
quantum complexity theory, error-correction, cryptography, algorithms, and learning.

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Cryptography Research Group



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The Cryptography Group advances the foundations and applications of cryptography, including public-key and symmetric cryptography, obfuscation, attribute-based and functional encryption, secure multi-party computation, quantum cryptography and more.



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Faculty Members


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Zachary Tatlock

Faculty


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Thomas Rothvoss

Faculty


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Lalit Jain

Adjunct Faculty


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Anna R. Karlin

Faculty



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Centers & Initiatives

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Molecular Engineering Materials Center (UW-MEMC)

MEM-C is a NSF Materials Research Science and Engineering Center that integrates materials innovations with theory and computation to advance spin-photonic nanostructures and elastic layered quantum materials, aided by an “AI Core” that integrates artificial intelligence-driven materials discovery.



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IFDS logo in multi-colored block letters with graphic of neuron connections and wording underneath Institute for Foundations of Data Science

Institute for Foundations of Data Science (IFDS)

IFDS organizes its research around four core themes: complexity, robustness, closed-loop data science, and ethics and algorithms. By making concerted progress on these fundamental fronts, IFDS aims to lower several of the barriers to better understanding of data science methodology and to its improved effectiveness and wider relevance to application areas.



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Highlights