The JUNIQ-Cloud platform offers access to various quantum computing devices. Its programming interface is based on the Jupyter Hub technology for cloud development, making algorithm development, job execution and documentation convenient and transferable between several quantum devices. JUNIQ offers access to different quantum computing frameworks like Qiskit or D-Wave Ocean SDK.
The interface to gate-based quantum computing devices is based on Qiskit. This interface has been extended with several custom plugins, which provide access to backends otherwise not available to the public, such as the OpenSuperQ prototype quantum computer and the ideal quantum computer emulator JUQCS running on JSC's high performance computer JURECA-DC. The interface to the D-Wave Advantage™ quantum annealer (JUPSI) is based on D-Wave Ocean SDK.
Current calls: Rolling Call, applications are possible at any time. If you want to be informed on future calls of JUNIQ, please subscribe to the distributor list. This list will be exclusively used to inform users of JUNIQ about ongoing and future calls.
Currently available systems are: D-Wave Advantage™ System JUPSI
Zeroth step: Gaining experience before submitting a research proposal
Interested applicants should fill out the form below and get one minute of access time for one month to gain experience before submitting a computing time application. Eligible applicants are employees of German government entities or German educational institutions or similar German not-for-profit research institutions who can get Leap™ access to the D-Wave Advantage™ System JUPSI, provided that the users may use such access only to conduct non-commercial research on their own behalf and not on behalf of any for-profit entity. Here, the nationality of the applicant ("Principal Investigator, PI") is irrelevant. The PI of a project must have a proven scientific record (preferably a PhD or comparable degree) and must be able to successfully accomplish the proposed tasks.
Scientific topic
1 Humanities and Social Sciences
1.11 Humanities
1.11.1 Ancient Cultures
1.11.1.01 Prehistory
1.11.1.02 Classical Philology
1.11.1.03 Ancient History
1.11.1.04 Classical Archaeology
1.11.1.05 Egyptology and Ancient Near Eastern Studies
1.11.2 History
1.11.2.01 Medieval History
1.11.2.02 Early Modern History
1.11.2.03 Modern and Current History
1.11.2.04 History of Science
1.11.3 Fine Arts, Music, Theatre and Media Studies
1.11.3.01 Art History
1.11.3.02 Musicology
1.11.3.03 Theatre and Media Studies
1.11.4 Linguistics
1.11.4.01 General and Comparative Linguistics, Typology, Non-European Languages
4.42.1.01 Chemical and Thermal Process Engineering
4.42.1.02 Technical Chemistry
4.42.1.03 Mechanical Process Engineering
4.42.1.04 Biological Process Engineering
4.42.2 Heat Energy Technology, Thermal Machines, Fluid Mechanics
4.42.2.01 Energy Process Engineering
4.42.2.02 Technical Thermodynamics
4.42.2.03 Fluid Mechanics
4.42.2.04 Hydraulic and Turbo Engines and Piston Engines
4.43 Materials Science and Engineering
4.43.1 Materials Engineering
4.43.1.01 Metallurgical and Thermal Processes, Thermomechanical Treatment of Materials
4.43.1.02 Sintered Metallic and Ceramic Materials
4.43.1.03 Composite Materials
4.43.1.04 Mechanical Behaviour of Construction Materials
4.43.1.05 Coating and Surface Technology
4.43.2 Materials Science
4.43.2.01 Thermodynamics and Kinetics of Materials
4.43.2.02 Synthesis and Properties of Functional Materials
4.43.2.03 Microstructural Mechanical Properties of Materials
4.43.2.04 Structuring and Functionalisation
4.43.2.05 Biomaterials
4.44 Computer Science, Systems and Electrical Engineering
4.44.1 Systems Engineering
4.44.1.01 Automation, Control Systems, Robotics, Mechatronics, Cyber Physical Systems
4.44.1.02 Measurement Systems
4.44.1.03 Microsystems
4.44.1.04 Traffic and Transport Systems, Logistics, Intelligent and Automated Traffic
4.44.1.05 Human Factors, Ergonomics, Human-Machine Systems
4.44.1.06 Biomedical Systems Technology
4.44.2 Electrical Engineering and Information Technology
4.44.2.01 Electronic Semiconductors, Components, Circuits, Systems
4.44.2.02 Communications, High-Frequency and Network Technology, Theoretical Electrical Engineering
4.44.2.03 Electrical Energy Generation, Distribution, Application
4.44.3 Computer Science
4.44.3.01 Theoretical Computer Science
4.44.3.02 Software Engineering and Programming Languages
4.44.3.03 Security and Dependability
4.44.3.04 Operating, Communication, Database and Distributed Systems
4.44.3.05 Interactive and Intelligent Systems, Image and Language Processing, Computer Graphics and Visualisation
4.44.3.06 Information Systems, Process and Knowledge Management
4.44.3.07 Computer Architecture and Embedded Systems
4.44.3.08 Massively Parallel and Data-Intensive Systems
4.45 Artificial Intelligence and Machine Learning
4.45.1 Artificial Intelligence and Machine Learning
4.45.1.01 Hardware Systems and Architectures for Information Technology and Artificial Intelligence, Quantum Engineering Systems
4.45.1.02 Artificial Intelligence and Machine Learning Methods
4.46 Construction Engineering and Architecture
4.46.1 Construction Engineering and Architecture
4.46.1.01 Architecture, Building and Construction History, Construction Research, Sustainable Building Technology
4.46.1.02 Urbanism, Spatial Planning, Transportation and Infrastructure Planning, Landscape Planning
4.46.1.03 Construction Material Sciences, Chemistry, Building Physics
4.46.1.04 Structural Engineering, Building Informatics and Construction Operation
4.46.1.05 Applied Mechanics, Statics and Dynamics
4.46.1.06 Geotechnics, Hydraulic Engineering
First step: Submitting a research proposal Principal investigators must submit their proposals via the application portal. Please check the fact sheet for further details, such as eligibility criteria, before starting the application process. It is mandatory to use the template for project descriptions available in Word, LaTeX and PDF.
Second step: Review process and approval Once a proposal has been submitted successfully, external reviewers will evaluate the quality of the proposal. With this, JUNIQ ensures an independent selection process conducted by experts from the field. We are aiming to provide feedback on the decision within a few weeks.
Third step: Accessing quantum computing devices Quantum computing devices can be accessed through the JUNIQ-Cloud once a research proposal is approved. Users (PIs and project members) have to create an account at JSC’s user portal JuDoor, which is needed to enter JUNIQ. PIs have to provide a list of JuDoor accounts that should get access to JUNIQ (including the PI’s account) either in the proposal or after approval to the coordination office.
Fourth step: Completed projects – project report The project report is due four weeks after the end of the allocation period of the project. The project report has to be sent to the coordination office. It is mandatory to use and follow the instructions in the template for project reports available in Word, LaTeX and PDF.
If you publish and/or present results that were produced using JUNIQ’s resources, please use the acknowledgement statement given below:
D-Wave Advantage™ System JUPSI The authors gratefully acknowledge the Jülich Supercomputing Centre (https://www.fz-juelich.de/jsc) for funding this project by providing computing time on the D-Wave Advantage™ System JUPSI through the Jülich UNified Infrastructure for Quantum computing (JUNIQ).
Service and Support
JUNIQ is supported by the research group Quantum Information Processing, which has several years of expertise in simulating quantum systems, benchmarking of quantum computing devices and developing prototype use cases for quantum computing applications. In addition to the scientific expertise, software engineers, hardware engineers and project managers ensure continuous operation and access provision of the available systems. For requests and feedback concerning access, service and support, please contact info-juniq@fz-juelich. We will forward your request to the appropriate experts.
