Bayer engaged in a proof of concept with Fujitsu’s Digital Transformation services, assessing the power of the quantum-inspired Digital Annealer to solve complex challenges relating to seed production planning and materials campaign scheduling. Bayer strives to create more robust supply chains and richer yields for farmers.
Challenge
As the leader in global seed production, Bayer constantly innovates to ensure the quality and availability of products for farmers. Increasing solution speed and the efficiency of product planning and scheduling are key and limited by conventional solvers.
Solution
Bayer experimented with quantum-inspired computing using Fujitsu’s Digital Annealer to increase the number and combination of variables that can simultaneously be processed – thereby optimizing seed production planning and materials campaign scheduling.
Outcomes
- Proven feasibility of more complex campaign scheduling
- Potential to enable more efficient and robust supply
Quantum computing has the potential to play a vital role in ensuring we can fulfill our ultimate ambition: health for all, hunger for none.
Dr. Ulf Hengstmann, Digital Transformation Lead, Bayer
300
seconds for a high speed hybrid quantum solution
1,200+
materials in the campaign
scheduling POC
- Country: USA
- Industry: Manufacturing
- Customer's website
About the customer
Bayer is a global enterprise with core competencies in the life science fields of health care and nutrition. Its products and services are designed to help people and planet thrive by supporting efforts to master the major challenges presented by a growing and aging global population. Bayer is committed to drive sustainable development and generate a positive impact with its businesses. The Group aims to increase its earning power and create value through innovation and growth.
Increasing agricultural efficiency
Bayer Crop Science is always looking for smarter, more efficient ways of working to ensure a stable robust supply of seed for its farmer customers. For example, the complex world of materials campaign scheduling involves huge volumes of data relating to location, cost, yield, and climate. Bayer uses conventional solvers to calculate the variables and optimize production in the most cost-effective and efficient way possible. However, they are exploring whether quantum computing can solve materials campaign scheduling across a global network of production sites, connect integral parts of the production network, and unlock patterns more quickly and precisely to reduce risk and optimize production yields.
“Every variable we add to the equation increases the complexity exponentially, taking more time. However, quantum-inspired computing, which goes beyond binary ones and zeroes, promises to handle a tremendous number of variables,” explains Dr. Ulf Hengstmann, Digital Transformation Lead at Bayer. “Fujitsu has been our application management partner for many years, so it was natural to talk to them about their Digital Annealer.”
Introducing quantum-inspired computing
Fujitsu’s Digital Annealer provides an alternative to quantum computing technology, which is expensive and dif ficult to run. Using a digital circuit design inspired by quantum phenomena, the Digital Annealer focuses on rapidly solving complex combinatorial optimization problems, without the added complications and costs typically associated with quantum computing methods.
Fujitsu and Bayer carried out two proof of concepts (POCs) to test the platform: one smaller POC looking at seed planning and a much broader engagement exploring the complex materials campaign scheduling process with close to 1,200 materials and across a global network of locations. We worked in small teams of highly skilled business leaders and operations research scientists, including several PhDs from both organizations. The collective team defined an extensive set of models and decomposition methodologies, while leveraging AI/Machine Learning for the data transformation and pre-processing phase and the Digital Annealer and classical solvers to unlock a solution not previously possible.
“Our vision is an end-to-end connected supply chain, leading to increasing size and complexity of our models. Thus, we are always looking for new technologies and modeling approaches,” adds Dr. Stefan Troester, Head of Supply Chain Simulations & Analytics at Bayer Crop Science. “We selected the challenge, outlined the constraints and variables, then discussed with the modelling team. Fujitsu’s modelling expertise was impressive. We fed the data into the Digital Annealer and within five minutes we had an optimized solution to our campaign planning challenges.” This problem had not previously been solved, earmarking a new approach for sustainable manufacturing through more efficient production lifecycles.
Robust, sustainable supply chains
The quantum inspired Digital Annealer has the potential to transform how Bayer plans its campaigns, enabling a more complete model of Bayer production processes with all the variables to solve problems in seconds. This could, in turn, increase ef ficiency and make supply chains more robust and sustainable.
“We live in a world with an aging population and diminishing cropland that can support plant life. Within agriculture, a robust supply chain can have a huge impact on food production and, consequently, nutrition,” concludes Hengstmann. “Quantum computing has the potential to play a vital role in ensuring we can fulfill our ultimate ambition: health for all, hunger for none.”