# Dynamics of qudit gates and effects of spectator modes on optimal control pulses

@inproceedings{Ozguler2022DynamicsOQ, title={Dynamics of qudit gates and effects of spectator modes on optimal control pulses}, author={A. Barics Ozguler and Joshua Adam Job}, year={2022} }

Qudit gates for high-dimensional quantum computing can be synthesized with high precision using numerical quantum optimal control techniques. Large circuits are broken down into modules and the tailored pulses for each module can be used as primitives for a qudit compiler. Application of the pulses of each module in the presence of extra modes may decrease their eﬀectiveness due to crosstalk. In this paper, we address this problem by simulating qudit dynamics for circuit quantum electrodynamics…

## 3 Citations

### Numerical gate synthesis for quantum heuristics on bosonic quantum processors

- PhysicsFrontiers in Physics
- 2022

There is a recent surge of interest and insights regarding the interplay of quantum optimal control and variational quantum algorithms. We study the framework in the context of qudits which are, for…

### Neural network accelerator for quantum control

- Computer ScienceArXiv
- 2022

This study demonstrates a machine learning algorithm for predicting optimal pulse parameters that is lightweight enough to fit on a low-resource FPGA and perform inference with a latency of 175ns and pipeline interval of 5ns with > 0.99 gate fidelity.

### Primitive Quantum Gates for an SU(2) Discrete Subgroup: BT

- Computer Science
- 2022

A primitive gate set for the digital quantum simulation of the binary tetrahedral group on two quantum architectures serves as a crude approximation to SU (2) lattice gauge theory while requiring two qubits or one quicosotetrit per gauge link.

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