Event time:
Friday, May 9, 2025 - 10:00am to 11:00am
Audience:
YQI Researchers
Location:
YQI Seminar Room
Event description:
Extractors: QLDPC Architectures for Efficient Pauli-Based Computation
In pursuit of large-scale fault-tolerant quantum computation, quantum low-density parity-check(LPDC) codes have been established as promising candidates for low-overhead memory when compared to conventional approaches based on surface codes. Performing fault-tolerant logical computation on QLDPC memory, however, has been a longstanding challenge in theory and in practice. In this work, we propose a new primitive, which we call an extractor system, that can augment any QLDPC memory into a computational block well-suited for Pauli-based computation. In particular, any logical Pauli operator supported on the memory can be fault-tolerantly measured in one logical cycle, consisting of O(d) physical syndrome measurement cycles, without rearranging qubit connectivity. We further propose a fixed-connectivity, LDPC architecture built by connecting many extractor-augmented computational (EAC) blocks with bridge systems. When combined with any user-defined source of high fidelity |T〉 states, our architecture can implement universal quantum circuits via parallel logical measurements, such that all single-block Clifford gates are compiled away. The size of an extractor on an n qubit code is \tilde{O}(n), where the precise overhead has immense room for practical optimizations.
Based on joint work with Alexander Cowtan, Dominic Williamson and Theodore Yoder.
Sunny is a graduate student at MIT advised by Peter Shor and Anand Natarajan. He is broadly interested in quantum information science, with a focus in quantum error correction. He has been working on quantum LDPC codes lately.
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