• Corpus ID: 243848237

Optimized fermionic SWAP networks with equivalent circuit averaging for QAOA

@inproceedings{Hashim2021OptimizedFS,
  title={Optimized fermionic SWAP networks with equivalent circuit averaging for QAOA},
  author={Akel Hashim and R. Rines and Victory Omole and Ravi K. Naik and John Mark Kreikebaum and David I. Santiago and Frederic T. Chong and Irfan Siddiqi and Pranav Gokhale},
  year={2021}
}
Akel Hashim, 2, 3, ∗ Rich Rines, ∗ Victory Omole, Ravi K. Naik, 3 John Mark Kreikebaum, 5, † David I. Santiago, Frederic T. Chong, 6 Irfan Siddiqi, 3, 5 and Pranav Gokhale ‡ Quantum Nanoelectronics Laboratory, Department of Physics, University of California at Berkeley, Berkeley, CA 94720, USA Graduate Group in Applied Science and Technology, University of California at Berkeley, Berkeley, CA 94720, USA Computational Research Division, Lawrence Berkeley National Lab, Berkeley, CA 94720, USA… 
View PDF on arXiv
1 Citations
Background Citations
1

Figures and Tables from this paper

One Citation

Correction to: Mixer‑phaser ansätze for quantum optimization with hard constraints

We introduce multiple parametrized circuit ansätze and present the results of a numerical study comparing their performance with a standard Quantum Alternating Operator Ansatz approach. The ansätze

References

SHOWING 1-10 OF 53 REFERENCES

Experimental Characterization of Crosstalk Errors with Simultaneous Gate Set Tomography

Kenneth Rudinger, Craig W. Hogle, Ravi K. Naik, Akel Hashim, Daniel Lobser, David I. Santiago, 4 Matthew D. Grace, Erik Nielsen, Timothy Proctor, Stefan Seritan, Susan M. Clark, Robin Blume-Kohout,

Suppression of Crosstalk in Superconducting Qubits Using Dynamical Decoupling

Vinay Tripathi, 2 Huo Chen, 3 Mostafa Khezri, 4 Ka-Wa Yip, 2 E. M. Levenson-Falk, 2 and Daniel A. Lidar 2, 3, 5 Department of Physics & Astronomy, University of Southern California, Los Angeles,

Faster and More Reliable Quantum SWAPs via Native Gates

The Optimized SWAP is introduced, a method for improving the speed and reliability of SWAPs at the level of the superconducting hardware’s native gateset, which relies on four techniques: SWAP Orientation, Cross-Gate Pulse Cancellation, Commutation through Cross-Resonance, and 4) Cross- Resonance Polarity.

Quantum Simulation of Electronic Structure with Linear Depth and Connectivity.

It is conjecture that no explicit Trotter step of the electronic structure Hamiltonian is possible with fewer entangling gates, even with arbitrary connectivities, which represents significant practical improvements on the cost of mostTrotter-based algorithms for both variational and phase-estimation-based simulation of quantum chemistry.

Generalized swap networks for near-term quantum computing

This work addresses the routing problem for families of quantum circuits defined by a hypergraph wherein each hyperedge corresponds to a potential gate and achieves optimal scaling in the case where gates acting on all $\binom{n}{k}$ sets of qubits are desired.

Scalable randomized benchmarking of non-Clifford gates

In their theoretical study, the researchers demonstrate how randomized benchmarking approaches can be expanded to a much broader range of logical operations, thereby enabling error benchmarking for all common logical operations used in leading quantum computing protocols.

Noise-induced barren plateaus in variational quantum algorithms

This work rigorously proves a serious limitation for noisy VQAs, in that the noise causes the training landscape to have a barren plateau, and proves that the gradient vanishes exponentially in the number of qubits n if the depth of the ansatz grows linearly with n.

Charge-insensitive qubit design derived from the Cooper pair box

Short dephasing times pose one of the main challenges in realizing a quantum computer. Different approaches have been devised to cure this problem for superconducting qubits, a prime example being

Systematic Crosstalk Mitigation for Superconducting Qubits via Frequency-Aware Compilation

This work dramatically improves the crosstalk resilience of tunable-qubit, fixed-coupler hardware, matching or surpassing other more complex architectural designs such as Tunable-Coupler systems.

Experimental implementation of non-Clifford interleaved randomized benchmarking with a controlled- S gate

Calibration of a low error non-Clifford Controlled-\frac{\pi}{2}$ phase (CS) gate on a cloud based IBM Quantum computing using the Qiskit Pulse framework is demonstrated.
...