| author | description | ms.author | ms.date | ms.service | ms.subservice | ms.topic | title | uid |
|---|---|---|---|---|---|---|---|---|
geduardo |
This document provides a list of the available quantum computing providers on Azure Quantum. |
kitty |
04/03/2021 |
azure-quantum |
core |
reference |
List of quantum computing targets on Azure Quantum |
microsoft.quantum.reference.qc-target-list |
Azure Quantum also offers a variety of quantum solutions, such as different hardware devices and quantum simulators that you can use to run Q# quantum computing programs.
GPU-accelerated idealized simulator supporting up to 29 qubits, using the same set of gates IonQ provide on its quantum hardware—a great place to preflight jobs before running them on an actual quantum computer. For more information, go to the IonQ provider reference page.
Trapped ion quantum computer. Dynamically reconfigurable in software to use up to 11 qubits. All qubits are fully connected, meaning you can run a two-qubit gate between any pair. For more information, go to the IonQ provider reference page.
Tool to verify proper syntax and compilation completion. Full stack is exercised with the exception of the actual quantum operations. Assuming no bugs, all zeros are returned in the proper data structure. For more information, go to the Honeywell provider reference page.
Trapped ion quantum computer with 6 physical fully connected qubits and laser based gates. It uses a QCCD architecture with linear trap and two parallel operation zones. For more information, go to the Honeywell provider reference page.
Trapped ion quantum computer with 10 physical fully connected qubits and laser based gates. It uses a QCCD architecture with linear trap and two parallel operation zones. For more information, go to the Honeywell provider reference page