AQC26
Adaptive Quantum Circuits Conference & Expo
AQC 2025 Recorded Talks
Foundational Physics & Quantum Dynamics
13:40
1
A Conversation with John Martinis and Pedram Roushan
14:15
Prof. John Martinis
Qolab
How to build a quantum supercomputer: Scaling from hundreds to millions of qubits
14:45
Pedram Roushan
Google Quantum AI
Visualizing quantum dynamics with superconducting qubits
Abstract
Advanced Superconducting Systems & Applications
17:00
Andrew Bestwick
Rigetti Computing
Scaling a chiplet-based quantum processor toward fault-tolerance
18:00
Prof. William Oliver
MIT
Emulating the Bose-Hubbard model with arrays of superconducting qubits
Neutral Atoms & Spin Qubits
10:00
Prof. Mark Saffman
UW-Madison
Parsimonious with photons for fast neutral atom quantum computing
10:30
Adi Pick
The Hebrew University
of Jerusalem
Scalable adiabatic quantum algorithms for MIS
12:00
Holly Stemp
MIT
Remote coupling of quantum dot spin qubits via a superconducting qubit coupler
Advanced Control, Calibration & Machine Learning
13:45
Assoc. Prof.
Morten Kjaergaard
Niels Bohr Institute
Parameter estimation, gate calibration and performance benchmarking
on millisecond timescales with superconducting qubits
14:15
Prof. Daniel Lidar
USC
Characterizing and suppressing noise in superconducting qubits and qudits
14:45
Murphy Niu
Google Quantum
AI and UCSB
Quantum signal processing for near-term application: optimal quantum
learning and feedback based algorithms
15:15
Benjamin Lienhard
WMI
Overcoming readout and control bottlenecks in superconducting quantum processors
Nobel Keynote & Industry Highlights
17:30
1
Talk by Nobel Prize Winner Michel Devoret
18:00
Prof. Britton Plourde
UW-Madison and
Qolab
Mitigating effects of ionizing radiation impacts on superconducting qubit arrays
18:20
Peter Komar
AWS
Quantum computing at AWS
18:40
James Brown
QBraid
Decreasing the rate of undetectable errors in the generalized superfast encoding with Clifford noise reduction
Scalable Architectures: From HW to QEC
09:00
Blake Johnson
IBM Quantum
Real-time processing in quantum execution: Dynamic circuits and qLDPC decoding
10:40
Pranev Mundada
Q-CTRL
Achieving computational gains with quantum error correction primitives
12:00
Pooya Ronagh
1QBit
Impacts of decoder latency on utility-scale quantum resource estimates
12:30
Prof. Rob Schoelkopf
Yale and QCI
Error detection and error correction with superconducting dual-rail qubits
Foundational Physics & Quantum Dynamics
1
A Conversation with John Martinis and Pedram Roushan
View talk >
Prof. John Martinis
Qolab
How to build a quantum supercomputer: Scaling from hundreds to millions of qubits
View talk >
Pedram Roushan
Google Quantum AI
Visualizing quantum dynamics with superconducting qubits
View talk >
Abstract
Prof. Ehud Altman
UC Berkeley
Machine learning the effects of many quantum measurements
View talk >
Advanced Superconducting Systems & Applications
Andrew Bestwick
Rigetti Computing
Scaling a chiplet-based quantum processor toward fault-tolerance
View talk >
Jun Fujisaki
Fujitsu
Partially fault-tolerant quantum computing: progress and outlook
View talk >
Prof. William Oliver
MIT
Emulating the Bose-Hubbard model with arrays of superconducting qubits
View talk >
Foundational Physics & Quantum Dynamics
1
A Conversation with John Martinis and Pedram Roushan
View talk >
Prof. John Martinis
Qolab
How to build a quantum supercomputer: Scaling from hundreds to millions of qubits
View talk >
Pedram Roushan
Google Quantum AI
Visualizing quantum dynamics with superconducting qubits
View talk >
Abstract
Prof. Ehud Altman
UC Berkeley
Machine learning the effects of many quantum measurements
View talk >
Advanced Superconducting Systems & Applications
Andrew Bestwick
Rigetti Computing
Scaling a chiplet-based quantum processor toward fault-tolerance
View talk >
Jun Fujisaki
Fujitsu
Partially fault-tolerant quantum computing: progress and outlook
View talk >
Prof. William Oliver
MIT
Emulating the Bose-Hubbard model with arrays of superconducting qubits
View talk >
Neutral Atoms & Spin Qubits
Prof. Mark Saffman
UW-Madison
Parsimonious with photons for fast neutral atom quantum computing
View talk >
Adi Pick
The Hebrew University
of Jerusalem
Scalable adiabatic quantum algorithms for MIS
View talk >
Holly Stemp
MIT
Remote coupling of quantum dot spin qubits via a superconducting qubit coupler
View talk >
Advanced Control, Calibration & Machine Learning
Assoc. Prof.
Morten Kjaergaard
Niels Bohr Institute
Parameter estimation, gate calibration and performance benchmarking
on millisecond timescales with superconducting qubits
View talk >
Prof. Daniel Lidar
USC
Characterizing and suppressing noise in superconducting qubits and qudits
View talk >
Murphy Niu
Google Quantum
AI and UCSB
Quantum signal processing for near-term application: optimal quantum
learning and feedback based algorithms
View talk >
Benjamin Lienhard
WMI
Overcoming readout and control bottlenecks in superconducting quantum processors
View talk >
Nobel Keynote & Industry Highlights
1
Talk by Nobel Prize Winner Michel Devoret
View talk >
Prof. Britton Plourde
UW-Madison and
Qolab
Mitigating effects of ionizing radiation impacts on superconducting qubit arrays
View talk >
James Brown
QBraid
Decreasing the rate of undetectable errors in the generalized superfast encoding with Clifford noise reduction
View talk >
Scalable Architectures: From HW to QEC
Blake Johnson
IBM Quantum
Real-time processing in quantum execution: Dynamic circuits and qLDPC decoding
View talk >
Pranev Mundada
Q-CTRL
Achieving computational gains with quantum error correction primitives
View talk >
Pooya Ronagh
1QBitImpacts of decoder latency on utility-scale quantum resource estimates
View talk >
Prof. Rob Schoelkopf
Yale and QCI
Error detection and error correction with superconducting dual-rail qubits
View talk >