Add to ORKGIn this work, we propose a generalization of the current most widely used quantum computing hardware metric known as the quantum volume. The quantum volume specifies a family of random test circuits defined such that the logical circuit depth is equal to the total number of qubits used in the computation. However, such square circuit shapes do not directly relate to many specific applications for which one may wish to use a quantum computer. Based on surveying available resource estimates for known quantum algorithms, we generalize the quantum volume to a handful of representative circuit shapes, which we call Quantum Volumetric Classes, based on the scaling behavior of the logical circuit depth (time) with the problem size (qubit number).C...
The hope of the quantum computing field is that quantum architectures are able to scale up and reali...
Memory is an indispensable component in classical computing systems. While the development of quantu...
For a large number of tasks, quantum computing demonstrates the potential for exponential accelerati...
The quantum volume test is a full-system benchmark for quantum computers that is sensitive to qubit ...
We improve the quality of quantum circuits on superconducting quantum computing systems, as measured...
Quantum volume (QV) has become the de-facto standard benchmark to quantify the capability of Noisy I...
We introduce a volumetric benchmark for near-term quantum platforms based on the generation and veri...
The quantum approximate optimization algorithm (QAOA) is an approach for near-term quantum computers...
Practical quantum computing will require error rates that are well below what is achievable with phy...
Quantum computers hold great promise to enhance machine learning, but their current qubit counts res...
We present a post-compilation quantum circuit optimization technique that takes into account the var...
Publisher Copyright: AuthorWe provide evidence that commonly held intuitions when designing quantum ...
Accurate and precise control of large quantum systems is paramount to achieve practical advantages o...
After spending 10 years in Quantum Computing and given the impending timeline of developing good qua...
Quantum computers promise to solve important problems faster than conventional computers. However, u...
The hope of the quantum computing field is that quantum architectures are able to scale up and reali...
Memory is an indispensable component in classical computing systems. While the development of quantu...
For a large number of tasks, quantum computing demonstrates the potential for exponential accelerati...
The quantum volume test is a full-system benchmark for quantum computers that is sensitive to qubit ...
We improve the quality of quantum circuits on superconducting quantum computing systems, as measured...
Quantum volume (QV) has become the de-facto standard benchmark to quantify the capability of Noisy I...
We introduce a volumetric benchmark for near-term quantum platforms based on the generation and veri...
The quantum approximate optimization algorithm (QAOA) is an approach for near-term quantum computers...
Practical quantum computing will require error rates that are well below what is achievable with phy...
Quantum computers hold great promise to enhance machine learning, but their current qubit counts res...
We present a post-compilation quantum circuit optimization technique that takes into account the var...
Publisher Copyright: AuthorWe provide evidence that commonly held intuitions when designing quantum ...
Accurate and precise control of large quantum systems is paramount to achieve practical advantages o...
After spending 10 years in Quantum Computing and given the impending timeline of developing good qua...
Quantum computers promise to solve important problems faster than conventional computers. However, u...
The hope of the quantum computing field is that quantum architectures are able to scale up and reali...
Memory is an indispensable component in classical computing systems. While the development of quantu...
For a large number of tasks, quantum computing demonstrates the potential for exponential accelerati...