The global shortage of semiconductors or chips in the aftermath of the Covid-19 led pandemic has eased as per a report by Crisil. A development that led most automakers to cut down production significantly and postpone the launch of new models or to put them to production through 2020, 2021, 2022 and a good part of 2023 has finally eased to iron out any supply chain disruptions that may be there. 

Expected to address and improve predictive demand forecast, the better availability of chips should enable better production schedules. By FY2025-26, Crisil analysts are of the opinion that demand-supply dynamics should be more balance with additional manufacturing capacities getting commissioned. 

With the chips possessing distinct electrical properties that make them the cornerstone of all electronic equipment and devices, it is the auto industry that has come to use them for a variety of functions as automobiles turn increasingly software driven. While the computer and communication equipment (C&C) segment consumes roughly 63 percent of the chips produced, the auto industry consumes roughly 13 percent of them. The other industrial segments consume about 12 percent. 

With new developments such as autonomous and EVs, the use of semiconductors in automobiles is only slated to rise. With passenger vehicles the recipient of most technological innovations ahead of other segments such as two-wheelers, three-wheelers and commercial vehicles, it should not come as a surprise that they consume about 1,500 chips on average – the highest among all automobile types. 

As more advanced electronic features are incorporated, the use for chips increases. The electric passenger vehicles, for example, use almost twice as many chips as internal combustion engine (ICE) passenger vehicles do. The improving supply and slowing demand for computers and mobile phones is therefore looked upon as a blessing in disguise for automobiles and their manufacturers. 

Anuj Sethi, Senior Director, CRISIL Ratings, mentioned, “The chip shortage faced by Indian passenger vehicle makers is easing, with current availability at 85-90 percent of total requirement. The production loss on account of the chip shortage, which had halved to about 300,000 PVs on-year in fiscal 2023, is estimated to have further declined to under 200,000 PVs by the end of September 2023.”

Most passenger vehicle manufacturers are currently operating at near optimal capacity utilisation due to stronger-than-anticipated demand. New orders to be serviced remains high at about 700,000 units at the end of September 2023. 

The easing of chip shortage should help automakers honour new orders with better prediction and faster production. Global automobile demand, severely impacted by the Covid-19 pandemic, made a strong recovery in the latter part of FY2021-22. It caught automobile manufacturers off guard as they had not placed substantial orders for chips. 

The surge in demand for personal computers, laptops and mobile phones, driven by work from home, virtual learning and remote healthcare services, led to a significant chip procurement challenge for the automakers. 

Geographically, the chip ecosystem is skewed, with western nations dominating chip architecture, design, manufacturing equipment, specialised materials and chemicals. Semiconductor fabs1 on the other hand are concentrated in eastern nations, such as Taiwan and South Korea.

Given the criticality of chips in the defense and aerospace industries, the United States and the European Union have offered incentives of about USD 100 billion for localisation of semiconductor fabs. As a result, many global players are slated to spend about USD 360 billion towards setting up new facilities, which would be operational by 2025 and 2026. 

In the Indian context, demand for chips will continue to increase over the medium term, driven by the gradual rise in EV adoption and growing demand for advanced feature-laden ICE vehicles.

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German tier 1 supplier ZF Friedrichshafen and the BMW Group have entered into a long-term supply agreement for passenger car drive systems. The contract, valued at several billion euros, extends until the late 2030s.

The agreement focuses on the supply and continued development of the 8-speed automatic transmission (8HP). The partners aim to support low-emission mobility and maintain technological flexibility during the industry transition.

A central component of the partnership is the technical evolution of the 8HP transmission kit to meet the requirements of electrified drives. The development will focus on increasing efficiency and performance for future vehicle concepts.

Mathias Miedreich, CEO of ZF, said, “Together with BMW, we are sending a strong signal for innovation, efficiency, and sustainability in an industry undergoing dynamic change. This agreement highlights the strategic importance of our 8-speed automatic transmission as a key technology for the transformation of drive systems.”

The duration of the contract provides both ZF and BMW with planning stability in a changing market. ZF aims to strengthen its position as a system supplier while reducing risks through close collaboration with the carmaker.

Sebastian Schmitt, Head of ZF's Electrified Drive Technologies division, explained, “The new agreement with BMW shows how important long-term planning horizons are for technological advancements. It creates clarity and stability for both companies and enables us to align the next generation of the 8HP specifically toward efficiency, performance, and long-term viability.”

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Aumovio has entered a supply agreement with Chinese electric vehicle manufacturer Leapmotor to provide safety components for the carmaker’s B and C platforms.

Several models within Leapmotor’s B platform now utilise Aumovio's long-range radar, electric parking brake and airbag control unit (ACU). Models on the C platform, including the C10, C11 and C16 SUVs, feature the latest generation of the MK C2 one-box brake system, alongside the long-range radar and ACU.

The project was completed with a development cycle approximately one-third shorter than traditional automotive timelines. Aumovio attributed its speed to ‘local-for-local’ strategy in China, where the company operates 20 sites and employs around 10,000 staff. In 2024, Aumovio held a 14 percent share of market revenue in the region.

The supplied technologies include:

• MK C2 Brake System: A unit combining the master cylinder, electronic brake system, and brake booster. It is produced locally in Shanghai.
• Long-Range Radar: A sensor with a detection range of up to 280 metres, used for driver assistance across both platforms.
• Airbag Control Unit (ACU): Integrated with crash satellite sensors, these components are manufactured in Changchun.

Boris Mergell, Head of the Safety and Motion business area at Aumovio, said, “Pairing ‘China speed’ with ‘German quality’ technologies helped us to support a rapid roll-out with our latest safety technologies. This underscores Aumovio’s course towards an adaptive powerhouse that works flexibly and closely with customers to innovate. It also shows that we continue to strengthen our customer relationships in the important market China.”

The partnership supports Leapmotor’s international presence. The B10 and B05 models, which feature Aumovio's ACU and radar technology, were showcased at the IAA 2025 in Munich as part of the manufacturer's European entry.

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Bengaluru-headquartered ER&D company L&T Technology Services (LTTS) has announced a multi-year engagement within its mobility segment from an automotive manufacturer. The agreement involves software, connectivity and digital engineering services across vehicle technology domains. This win follows the company’s investments in R&D labs and mobility infrastructure designed for programs with global manufacturers.

The engagement covers mobility engineering capabilities, including embedded systems, digital platforms, verification and validation, cloud integration and cybersecurity. LTTS intends to use its engineering expertise and delivery frameworks to support the customer's technology roadmap. 

At present, LTTS operates 22 design centres and 100 innovation labs globally.

The agreement strengthens the partnership between LTTS and the automotive manufacturer in the area of mobility engineering. The company provides design, development, and testing services across the mobility, sustainability, and tech segments. 

Alind Saxena, Executive Director and President, Mobility and Tech at L&T Technology Services, said, “We are proud to deepen our partnership with the valued customer through this strategic engagement. LTTS brings together domain-led engineering, secure development practices and excellence in global delivery to accelerate the future of premium mobility. The win reflects the trust placed in our teams and our commitment to delivering world-class engineering at scale”.

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French technology company Valeo and NATIX Network have announced a partnership to develop a multi-camera World Foundation Model (WFM). The project combines Valeo’s research in artificial intelligence and generative modelling with NATIX’s decentralised physical infrastructure network (DePIN) to create an open-source platform for autonomous driving and robotics.

The initiative aims to move beyond perception-based models by creating a system capable of predicting future states and reasoning about physical interactions in a four-dimensional environment. The model will be trained using NATIX’s data network, which has collected 600,000 hours of video data across the US, Europe and Asia over seven months. This data provides the multi-camera inputs necessary for the spatial perception required by autonomous vehicles and robots.

The partnership builds upon Valeo’s existing open-source frameworks, VaViM (Video Autoregressive Model) and VaVAM (Video-Action Model). While these frameworks were previously trained primarily on front-camera datasets, the integration of NATIX’s multi-camera network expands the AI’s field of vision to 360 degrees.

Under the open-source framework, the partners will release models, datasets and training tools. This approach is intended to allow the research community to fine-tune models and benchmark physical AI across various driving conditions and geographic regions. The collaboration seeks to accelerate the deployment of end-to-end AI models by learning from real-world edge cases captured by vehicles in operation.

Marc Vrecko, Chief Executive Officer, Valeo’s Brain Division, said, “Since our creation in 2018, Valeo’s AI research center has been at the forefront of AI research in the automotive industry, especially in the fields of assisted and autonomous driving. Our goal has always been to advance mobility intelligence safely and responsibly. By combining Valeo’s generative world modeling research expertise with NATIX’s global multi-camera data, we are accelerating both the quality and the accessibility of next-generation end-to-end AI models, enabling the research community to build upon strong open models.”

Alireza Ghods, CEO and Co-Founder, NATIX, added, “WFMs are a once-in-a-generation opportunity — similar to the rise of LLMs in 2017–2020. The teams that build the first scalable world models will define the foundation of the next AI wave: Physical AIs. With our distributed multi-camera network, NATIX has a clear advantage of being able to move faster than large OEMs.”

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