hofer powertrain, an engineering and technology provider for efficient drivetrain solutions, has unveiled an innovative initiative to slash electric drive design times by 80% using advanced AI and Deeptech technologies.
By integrating in-house AI-driven methods and collaborating with Deeptech engineering specialist Monumo, hofer powertrain is positioning itself at the front of electric motor design. The partnership aims to significantly cut development time and costs while ensuring top-tier efficiency and quality.
The collaboration has already yielded impressive results, including a 10% reduction in permanent magnet content without compromising on manufacturing, efficiency, or performance. This achievement underscores the potential of combining simulation, machine learning (ML), AI, and motor design expertise to drive industry-leading innovations in the electric vehicle (EV) market.
Monumo’s machine learning-friendly engine, “Anser,” plays a crucial role in this initiative. It can evaluate millions of detailed design concepts in just a few days, enabling comprehensive exploration of complex design spaces. These optimised electric drives are then developed and industrialised at hofer powertrain’s facilities.
The application of advanced data-driven ML approaches enables significant improvements within tight automotive development timelines, drastically reducing the concept design phase.
Dominic Vergine, CEO and Founder of Monumo, highlighted the importance of this collaboration: “With hofer powertrain we have a strong partner with a track record in realising powertrain innovations for over 40 years. While much of Generative AI has been used to mimic human behaviour, we believe it holds a greater purpose in advancing engineering, especially when applied to global decarbonisation efforts.”
Johann Hofer, CEO of hofer powertrain, emphasised the impact of this approach:m “Deeptech innovation has high potential to revolutionise the automotive sector, and it adds extra value to our in-house AI-driven initiatives. This step is a testament to hofer powertrain’s commitment to technological leadership in the EV powertrain sector. With partnerships such as Monumo, we are poised to leverage the transformative power of Deeptech technology, realising truly innovative and future-proof EV solutions.”
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FAQ
- What is Hofer Powertrain’s approach to electric drive development?
– Hofer Powertrain focuses on optimizing electric drive systems using AI and ML technologies to improve performance, efficiency, and reliability.
- How does AI and ML enhance electric drive development?
– AI and ML help analyze large datasets from simulations and real-world testing, identifying patterns and optimizing parameters that traditional methods may overlook, resulting in faster and more efficient design iterations.
- What specific AI or ML techniques does Hofer Powertrain use?
– Hofer Powertrain employs various techniques such as deep learning, reinforcement learning, predictive modeling, and neural networks to enhance control strategies, power management, and fault detection in electric drives.
- What are the benefits of using AI and ML in electric powertrain development?
– The benefits include reduced development time, improved energy efficiency, enhanced performance, predictive maintenance, and a more adaptable powertrain system that can respond to changing conditions and requirements.
- Can AI and ML improve battery management systems (BMS)?
– Yes, AI and ML can optimize battery management by predicting battery life, optimizing charging and discharging cycles, and managing thermal conditions more effectively.
- How does AI-driven design impact the overall cost of electric vehicles?
– AI-driven design can lower development costs by reducing the number of physical prototypes needed, accelerating testing and validation processes, and identifying cost-effective solutions more quickly.
- Does Hofer Powertrain collaborate with other companies or institutions for AI and ML development?
– Yes, Hofer Powertrain collaborates with tech companies, research institutions, and universities to leverage the latest advancements in AI and ML for electric drive development.