The Jülich Supercomputing Centre (JSC) has acquired a 5-qubit quantum system, the IQM Spark, from IQM Quantum Computer systems. The system is about to enter operation in July 2024 as a part of Jülich’s JUNIQ quantum computing infrastructure and will probably be linked to JSC’s classical supercomputers. It will enable researchers to discover how quantum computer systems can speed up calculations on classical supercomputers.
The IQM Spark, costing lower than €1 million, is designed for primary experiments and functions in instructing at universities and analysis institutes. It generates quantum bits, or qubits, utilizing superconducting digital resonant circuits, which should be cooled to close absolute zero to protect the delicate quantum properties.
The system will probably be operated as a part of the JUNIQ infrastructure, offering science and trade in Germany and Europe with entry to state-of-the-art quantum computer systems. The IQM Spark has quite a few growth and connection potentialities, making it an ideal match for Jülich’s JUNIQ idea, which goals to function quantum computer systems along with classical supercomputers in a quantum-classical hybrid computing system.
IQM has beforehand deployed on-premises methods to some universities and analysis establishments, together with the Leibniz Supercomputing Centre in Germany and the VTT Technical Analysis Centre in Finland.
March 25, 2024
The Jülich Supercomputing Centre (JSC) has acquired a 5-qubit quantum system, the IQM Spark, from IQM Quantum Computer systems. The system is about to enter operation in July 2024 as a part of Jülich’s JUNIQ quantum computing infrastructure and will probably be linked to JSC’s classical supercomputers. It will enable researchers to discover how quantum computer systems can speed up calculations on classical supercomputers.
The IQM Spark, costing lower than €1 million, is designed for primary experiments and functions in instructing at universities and analysis institutes. It generates quantum bits, or qubits, utilizing superconducting digital resonant circuits, which should be cooled to close absolute zero to protect the delicate quantum properties.
The system will probably be operated as a part of the JUNIQ infrastructure, offering science and trade in Germany and Europe with entry to state-of-the-art quantum computer systems. The IQM Spark has quite a few growth and connection potentialities, making it an ideal match for Jülich’s JUNIQ idea, which goals to function quantum computer systems along with classical supercomputers in a quantum-classical hybrid computing system.
IQM has beforehand deployed on-premises methods to some universities and analysis establishments, together with the Leibniz Supercomputing Centre in Germany and the VTT Technical Analysis Centre in Finland.
March 25, 2024