In July, the BMW Group, in collaboration with Amazon Web Services Inc. (AWS), called on the global quantum computing community to develop innovative quantum algorithms for four specific industrial challenges and to test them on real quantum computing technologies. One winning team has now been selected for each of the four identified areas. In all, around 70 teams from all over the world took part.
These winning teams have been selected for the four challenges:
Sensor positions for automated driving functions: Accenture
Accenture’s winning team tackled the problem of optimizing the positioning of sensors for highly automated driving functions.
Simulation of material deformations: Qu&Co. The jury concluded that the quantum computing start-up Qu&Co stood out with its approach to solving partial differential equations in the field of numerical simulation.
Configuration optimization of pre-series vehicles: 1QBit and NTT. The winning team from 1QBit and NTT came out on top with hybrid algorithms for solving satisfiability problems in propositional logic for optimizing equipment configuration.
Automated quality analyses: QC Ware. The QC Ware team stood out with its approach, drawn from the field of machine learning, that can be used in image recognition in the area of quality analysis.
The BMW Group worked closely with the Amazon Quantum Solutions Lab Professional Services team throughout the challenge. AWS also provided credits for the use of Amazon Braket, enabling the development and testing of the submitted quantum algorithms. Amazon Braket provides a development environment to explore and create quantum algorithms, test them on quantum circuit simulators and run them on different quantum hardware technologies.
The jury that oversaw the challenge and ultimately decided on the winning teams also included professors from the Technical University of Munich (TUM) as well as representatives of the BMW Group and AWS. TUM is an important partner for the BMW Group for research in the field of quantum computing. The BMW Group announced the establishment of the “Quantum Algorithms and Applications” endowed chair at TUM in June of this year. Algorithms close to specific use cases along the industrial value chain are being researched at the chair. The BMW Group is providing €5.1 million over a period of six years to fund the professorship, staff and equipment at TUM.
The BMW Group received submissions from all over the world from different areas such as international and national research groups, the start-up scene and established companies. The exceptionally high quality of the submissions enables new perspectives and offers potential for innovative approaches to solutions such as the development and further development of new algorithms. The expert jury took into account criteria such as comprehensibility, feasibility, scalability, innovation and benefit for the BMW Group when evaluating the submitted solutions.
All 15 finalists set themselves apart with their high innovation potential and have therefore been shortlisted for future projects. The four winners immediately gain the BMW Group as a customer and will be involved in the further development of the pilot projects. The company looks forward to working with these four winners.
Quantum computing is one of the most promising future technologies in the automotive sector. It has enormous potential for research into materials, for complex optimization problems and for the future of automated driving. The Quantum Computing Challenge once again underlines the BMW Group’s active role in building a quantum ecosystem.
In June, the company was a founding member, along with nine other large corporations, of the Quantum Technology and Application Consortium (QUTAC). This aims to specifically accelerate the development of the technology in Germany and Europe. In November this year, the BMW Group and RWTH Aachen University jointly announced the establishment of the “Quantum Information Systems” endowed chair, where software and industrialization competencies will be created to realize a quantum advantage in the medium term..
The BMW Group Quantum Computing Challenge is structured around the “Supplierthon” methodology, which is the BMW Group’s future-oriented supplier scouting method. It marks the company’s first global crowd-innovation initiative on this scale. The crowd innovation approach enables innovative solutions to be found within a very short time and to validate them in cooperation with the specialist departments. The challenge also gave the BMW Group invaluable insights into the status quo of the global quantum ecosystem. This knowledge is crucial in determining the future direction of research on the future technology and the long-term establishment of the market for quantum computing. The successful challenge along with the extremely promising submissions encourage the company to continue to look to the crowd innovation approach in the future.