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Duke University and IonQ Develop New Quantum Computing Gate, Only Possible on IonQ and Duke Systems

Duke University and IonQ Develop New Quantum Computing Gate, Only Possible on IonQ
Researchers discover a new method to perform the N-qubit Toffoli gate, a more efficient quantum operation helpful in scaling quantum algorithms
New family of N-qubit gates can only be run on IonQ quantum computer architecture
Once implemented, gate is expected to speed up several fundamental algorithms for quantum computing

Duke Quantum Center (DQC) at Duke University and IonQ announced the invention of a new quantum computing operation with the potential to accelerate several key quantum computing techniques and contribute to scaling quantum algorithms. The new quantum gate is a novel way to operate on many connected qubits at once and leverages the multi-qubit communication bus available only on IonQ and DQC quantum computers. Full details of the gate technique can be found on the preprint archive arXiv at arXiv:2202.04230.

“This discovery is an example of us continuing to build on the leading technical architecture we’ve established. It adds to the unique and powerful capabilities we are developing for quantum computing applications”

The new gate family includes the N-qubit Toffoli gate, which flips a select qubit if and only if all the other qubits are in a particular state. Unlike standard two-qubit quantum computing gates, the N-qubit Toffoli gate acts on many qubits at once, leading to more efficient operations. The gate appears naturally in many common quantum algorithms.

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IonQ and Duke’s discovery may lead to significant efficiency gains in solving fundamental quantum algorithms, such as Grover’s search algorithm, variational quantum eigensolvers (VQEs), and arithmetic operations like addition and multiplication. These use cases are ubiquitous across quantum computing applications, and are core to IonQ’s work in quantum chemistry, quantum finance, and quantum machine learning. They are also key components of commonly accepted industry benchmarks for quantum computers, which have already shown IonQ’s computers to be clear industry leaders.

“This discovery is an example of us continuing to build on the leading technical architecture we’ve established. It adds to the unique and powerful capabilities we are developing for quantum computing applications,” said Peter Chapman, CEO at IonQ.

This research, conducted at Duke by Dr. Or Katz, Prof. Marko Cetina, and IonQ co-Founder and Chief Scientist Prof. Christopher Monroe, will be integrated into IonQ’s quantum computing operating system for the general public to use. Monroe notes that, “no other available quantum computing architectures—not even other ion-based quantum computers—are able to utilize this new family of N-qubit gates. This is because IonQ’s quantum computers uniquely feature full connectivity and a wide communication bus that allows all qubits to talk to each other simultaneously.”

This discovery follows a series of announcements around IonQ’s research efforts and preparations for scale. In December, IonQ announced that it plans to use barium ions as qubits in its systems, bringing about a wave of advantages it believes will enable advanced quantum computing architectures. Last year, the team also debuted the industry’s first Reconfigurable Multicore Quantum Architecture and Evaporated Glass Trap technology, both of which are expected to contribute to scaling the number of qubits in IonQ’s quantum computers.

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