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Jerry Chow

Chronological feed of everything captured from Jerry Chow.

paper / jerrymchow / Mar 11

Reference Architecture for Quantum-Centric Supercomputing (QCSC)

QCSC proposes a transition from isolated quantum and classical systems to a fully integrated heterogeneous architecture combining QPUs, GPUs, and CPUs. This evolution aims to eliminate manual workload orchestration and data transfer bottlenecks, enabling scalable hybrid quantum-classical algorithms for chemistry and materials science.

quantum-computingsupercomputinghpcquantum-classical-hybridreference-architecturedistributed-computing
Current quantum and classical HPC systems operate in isolation, necessitating manual workload orchestration and data transfer.
paper / jerrymchow / Feb 28

Pulse-level Control is Key to Scalable Quantum Computing

Achieving fault-tolerant quantum computing requires moving beyond improvements in qubits, algorithms, and software. Fine-tuned, device-level quantum control at the physical layer is a critical and often overlooked aspect. This report summarizes a workshop that brought together experts from academia, national labs, and industry to address the importance and challenges of pulse-level quantum control, highlighting it as a crucial area for innovation.

quantum-computingquantum-controlquantum-physicsquantum-information-processingquantum-algorithmsquantum-hardware
Quantum computing requires refinement of device-level quantum control to scale to the fault-tolerant regime.
paper / jerrymchow / Feb 2

Dynamic Quantum Circuits Enhance Quantum Algorithm Performance

Traditional quantum circuits are limited to time-ordered unitary operations. This work explores dynamic quantum circuits on a superconducting quantum system, which incorporate mid-circuit measurements and real-time classical processing. This approach significantly improves quantum algorithm performance, particularly for adaptive quantum phase estimation, provided noise and latency are sufficiently low.

quantum-computingsuperconducting-qubitsquantum-circuitsquantum-algorithmsquantum-phase-estimationdynamic-circuitsquantum-measurement
Current quantum circuit execution is largely restricted to time-ordered unitary operations and projective measurements.