Quantum Orchestration: Integrated quantum control hardware & software for neutral atoms

Neutral atoms arrays are a promising platform for quantum computation and simulation. Neutral atoms-based quantum computers use single atoms trapped in an array of optical tweezers as qubits. Although this platform has the potential to provide high-quality qubits and support a large number of them, there exist several roadblocks towards viable neutral atoms quantum computers that satisfy the DiVincenzo criteria. Many of these roadblocks lie within the classical control hardware and software layer. This workshop will discuss these challenges and the methods to overcome them with a new platform for designing control protocols for quantum systems and for optimizing performance.

We will run a live demonstration of the integrated hardware and software platform which combines a unique FPGA processor architecture allowing the most cutting-edge real-time control capabilities with an intuitive, pulse-level control programming language, QUA. We will show how this Quantum Orchestration Platform can be used to achieve the DiVincenzo criteria, having full control of neutral atom quantum computing experiments.

One of the biggest challenges to realize a scalable physical system with well-characterized qubits via atom arrangement is the precise rearrangement of 2D atoms. We will show how easily this can be done with the Quantum Orchestration Platform. Additionally, we will demonstrate how a universal set of quantum gates can be achieved: each qubit can be individually addressed and driven, allowing for single, two-qubit, and n-qubit gates to be easily performed. This workshop will show how this control platform will allow for better realization of neutral atom quantum computing, with the ultimate purpose of advancing the quantum computing field.