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Bosch Partnering With IBM on Strategic Quantum Computing Materials Science Engagement for Fuel Cells and Batteries

By November 16, 2022 5   min read  (1004 words)

November 16, 2022 |

Fuel Cells Works, Bosch Partnering With IBM on Strategic Quantum Computing Materials Science Engagement for Fuel Cells and Batteries

The two companies will conduct joint research, enablement and use case projects in the field of material science for fuel cells, electric engines, or advanced sensor materials.

IBM and Bosch announced that they are partnering on a strategic quantum computing engagement. As part of this engagement, Bosch will also join the IBM Quantum Network. Experts from both companies will work jointly to investigate and further develop potential applications of quantum computing in the field of material science.

The IBM Quantum Network currently has more than 200 organizations, including Fortune 500 companies, startups, research centers and educational institutions. Together, its members and IBM Quantum teams are exploring how quantum will benefit a variety of industries and disciplines, including finance, chemistry, and artificial intelligence.

Bosch, a leading global supplier of technology and services, will gain access to IBM’s quantum technology and Qiskit Runtime as a service, over the IBM Cloud. Bosch brings in its many years of experience in the field of materials simulation with conventional computers in an industrial environment and its ability to mass-produce high technology.

IBM will provide its quantum computing technology and expertise in the development of quantum algorithms and industry-specific implementations.

With its activities in the field of electromobility, Bosch brings in a concrete application in which quantum computers may soon offer a significant advantage over conventional computers in discovering and designing new materials.

New materials are decisive to achieve higher energy efficiency and reduce consumption of natural resources.

Most functional materials relevant for fuel cells, batteries, electric engines, or advanced sensors contain strongly correlated electrons; classical computers are not able to calculate the properties of these materials with sufficient accuracy. IBM and Bosch will jointly develop robust and powerful quantum algorithms for industrial applications in this area.

The joint work has already started by laying the foundations for algorithms and workflows which enable computational materials design of industry-relevant materials on quantum computers. Early results are promising; these include moving towards more realistic models, beyond common approximations in solid-state physics such as the single-band Hubbard model, and scaling them toward system sizes of interest.

The work will explore how significant reductions of development time and cost as well as discovery of new material classes may be enabled in the future.  For instance, improved perovskite phase stability diagrams for fuel cells, enhanced defect engineering for sensing, realistic catalytic and reaction rates, and predictable magnetic properties may eventually become possible.

Thomas Kropf, head of Bosch Research, said:

For Bosch, materials for applications in the fields of electromobility, renewable energies and sensor technology play a particularly prominent role here.

“Quantum computing supports the targeted use of resources and thus can be an important building block to achieve climate and sustainability targets”, says Kropf.

Scott Crowder, Vice President, IBM Quantum Adoption and Business Development, said:

Even simple models of real materials tend to quickly become intractable for classical computers to simulate.

“That’s why Bosch’s collaboration with IBM, as well as the extended IBM Quantum Network on quantum computing research is so important. We will work together on addressing a wide range of materials science problems, in the fields of electromobility, renewable energy and sensor technology. Our team is looking forward to collaborating with Bosch.”

IBM has laid out a roadmap to advance quantum computing in three key areas: hardware, software and ecosystem development. The company announced the deployment of its 433-qubit “Osprey” processor at the annual IBM Quantum Summit as another step in its roadmap towards a 4,000+ qubit-powered systems, built with multiple clusters of modularly scaled processors, by 2025.

About Bosch

The Bosch Group is a leading global supplier of technology and services. It employs roughly 402,600 associates worldwide (as of December 31, 2021). The company generated sales of 78.7 billion euros in 2021. Its operations are divided into four business sectors: Mobility Solutions, Industrial Technology, Consumer Goods, and Energy and Building Technology.

As a leading IoT provider, Bosch offers innovative solutions for smart homes, Industry 4.0, and connected mobility. Bosch is pursuing a vision of mobility that is sustainable, safe, and exciting. It uses its expertise in sensor technology, software, and services, as well as its own IoT cloud, to offer its customers connected, cross-domain solutions from a single source.

The Bosch Group’s strategic objective is to facilitate connected living with products and solutions that either contain artificial intelligence (AI) or have been developed or manufactured with its help. Bosch improves quality of life worldwide with products and services that are innovative and spark enthusiasm. In short, Bosch creates technology that is “Invented for life.”

The Bosch Group comprises Robert Bosch GmbH and its roughly 440 subsidiary and regional companies in some 60 countries. Including sales and service partners, Bosch’s global manufacturing, engineering, and sales network covers nearly every country in the world. With its more than 400 locations worldwide, the Bosch Group has been carbon neutral since the first quarter of 2020.

The basis for the company’s future growth is its innovative strength. At 128 locations across the globe, Bosch employs some 76,100 associates in research and development, of which more than 38,000 are software engineers.

The company was set up in Stuttgart in 1886 by Robert Bosch (1861–1942) as “Workshop for Precision Mechanics and Electrical Engineering.”

The special ownership structure of Robert Bosch GmbH guarantees the entrepreneurial freedom of the Bosch Group, making it possible for the company to plan over the long term and to undertake significant upfront investments in the safeguarding of its future. Ninety-four percent of the share capital of Robert Bosch GmbH is held by Robert Bosch Stiftung GmbH, a charitable foundation.

The remaining shares are held by Robert Bosch GmbH and by a corporation owned by the Bosch family. The majority of voting rights are held by Robert Bosch Industrietreuhand KG, an industrial trust. The entrepreneurial ownership functions are carried out by the trust.

Additional information is available online at www.bosch.comwww.iot.bosch.comwww.bosch-press.comwww.twitter.com/BoschPress.

About IBM

For more information, visit: https://www.ibm.com/quantum.

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