Piotr Czarnik — QuantumDB

2

talks

0

committee roles

0

leadership roles

2021–2022

years active

Contributions

QIP QCrypt TQC presenter award · △program ◇steering ○organising □local · filled = chair

Talks

Title	Conference	Type	Co-authors
Analyzing the Loss Landscape of Quantum Neural Networks: Barren Plateaus and Overparametrization	QIP 2022	regular	Martin Larocca, Marco Vinicio Sebastian de la Roca, Patrick Coles, Kunal Sharma, Gopikrishnan Muraleedharan, Diego Garcia-Martin, Nathan Ju
Error mitigation with Clifford quantum-circuit data abstract video ↗	QIP 2021	regular	Andrew Arrasmith, Patrick Coles, Lukasz Cincio
Abstract Achieving near-term quantum advantage will require accurate estimation of quantum observables despite significant hardware noise. For this purpose, we propose a novel, scalable error-mitigation method that applies to gate-based quantum computers. The method generates training data $\{X_i^{noisy},X_i^{exact}\}$ via quantum circuits composed largely of Clifford gates, which can be efficiently simulated classically, where $X_i^{noisy}$ and $X_i^{exact}$ are noisy and noiseless observables respectively. Fitting a linear ansatz to this data then allows for the prediction of noise-free observables for arbitrary circuits. We analyze the performance of our method versus the number of qubits, circuit depth, and number of non-Clifford gates. We obtain an order-of-magnitude error reduction for a ground-state energy problem on 16 qubits in an IBMQ quantum computer and on a 64-qubit noisy simulator.

Collaborators

Co-author	Joint talks
Patrick Coles	2
Andrew Arrasmith	1
Diego Garcia-Martin	1
Gopikrishnan Muraleedharan	1
Kunal Sharma	1
Lukasz Cincio	1
Marco Vinicio Sebastian de la Roca	1
Martin Larocca	1
Nathan Ju	1