2023-12-06 11:00:00 | America/New_York

Yongshan Ding Yale University

Application Specific Quantum Error Correction: Challenges and Opportunities

Tremendous algorithmic and experimental progress has been made towards realizing the potential of quantum computing. On the one hand, quantum algorithms and their circuit implementations are being developed and put to the test on the current generation of noisy hardware. On the other hand, hardware devices continue to expand in scale and are increasingly capable of suppressing, detecting, and correcting errors. The next challenge is to develop the crucial systems architecture to perform various computational tasks on emerging hardware more robustly and more efficiently. In this talk, I will advocate for achieving a form of early fault tolerance based on application-specific error correction. My talk will focus on a few recent results from our group at Yale about tailoring quantum error correction or detection for a range of critical applications, spanning from state preparation, expectation value estimation, quantum random access memory (QRAM), magic state functional units, and more. I will discuss the several conceptual design stages that underpin the customized error correction schemes, including logical qubit encoding, logical gate synthesis, qubit placement, and routing. More broadly, I will highlight the intricate but rewarding process of designing quantum algorithm, software and architecture in tandem.

Speaker's Bio

Yongshan Ding is an Assistant Professor of Computer Science at Yale University, with a secondary appointment in Applied Physics. He is a member of the Yale Quantum Institute (YQI) and is affiliated with the Computer Systems Lab (CSL). Ding completed his Ph.D. from the University of Chicago, receiving the William Rainey Harper Dissertation Fellowship, one of UChicago's highest honors. He is also a recipient of the Siebel Scholarship. Prior to that, he received his B.Sc. degrees in Computer Science and Physics from Carnegie Mellon University. Ding is also the lead author of a textbook, Quantum Computer Systems, in Springer Nature's Synthesis Lectures in Computer Architecture.