Simultaneous Measurement of 53 Superconducting Transmons on the Sycamore Processor

Zijun Chen; Ofer Naaman; Daniel T Sank; Paul Klimov; Chris Quintana; Julian Kelly; Anthony E Megrant; Hartmut Neven; John M Martinis

Simultaneous Measurement of 53 Superconducting Transmons on the Sycamore Processor

ORAL

Abstract

Progress in low-noise amplifiers, device design, and device calibration has enabled high fidelity readout in transmon qubits. However, challenges arise when scaling up to large numbers of qubits, where deleterious effects such as crosstalk and unwanted interactions can degrade readout fidelity. In this talk, I will discuss how we overcame some of these challenges to achieve simultaneous readout of 53 qubits on Google’s Sycamore processor, enabling the demonstration of quantum supremacy. [1].

[1] Quantum supremacy using a programmable superconducting processor, Google AI Quantum and collaborators. Nature 574, 505-510 (2019).

March 5, 2020, 8:00 AM – March 5, 2020, 8:12 AM

Presenters

Zijun Chen
- Google LLC
- Google AI Quantum
- Google Inc - Santa Barbara
- Google

Authors

Zijun Chen
- Google LLC
- Google AI Quantum
- Google Inc - Santa Barbara
- Google
Ofer Naaman
- Northrop Grumman - Mission Systems
- Google Inc - Santa Barbara
Daniel T Sank
- Google Inc - Santa Barbara
Paul Klimov
- Google AI Quantum
- Google Inc - Santa Barbara
Chris Quintana
- Google Inc - Santa Barbara
- Google LLC
Julian Kelly
- Google AI Quantum
- Google Inc - Santa Barbara
- Google
Anthony E Megrant
- Google Inc - Santa Barbara
Hartmut Neven
- Google Inc.
- Google AI Quantum
- Google Inc
- Google
John M Martinis
- University of California, Santa Barbara; Google Inc
- Google AI Quantum
- AI Quantum, Google
- Google Inc - Santa Barbara
- Google