Tata Technologies has announced a partnership with Synopsys, a provider of engineering solutions, to accelerate the shift towards Software-Defined Mobility (SDV). The collaboration aims to accelerate the development, verification and validation of automotive electronics systems, helping Original Equipment Manufacturers address the complexity of SDVs.

The collaboration will combine Tata Technologies’ expertise in vehicle engineering with Synopsys’ virtualisation solutions to enable the deployment of electronics digital twins (eDTs).

The companies have already worked with a leading European luxury OEM in a pilot engagement, delivering a blueprint to transition the manufacturer's existing electrical/electronic (E/E) architecture to a next-generation software-defined design. Pilot programmes with other major OEMs are also underway across North America, Europe and India.

The joint effort will focus on major SDV domains, including ADAS, powertrain, chassis, infotainment and electrification. Key areas of focus include:

• Shift Left Enablement: Developing virtual prototypes and simulation models for early software bring-up.
• Analysis: Using Synopsys tools for performance, power, safety, and reliability analysis for faster ECU development cycles.
• Verification: Providing embedded systems and software verification and validation services aligned with ISO 26262 and ASPICE standards.

Sriram Lakshminarayanan, Chief Technology Officer, Tata Technologies, said, “The digital shift is redefining the future of mobility, and our partnership with Synopsys is a purposeful step towards realising a future led by software-defined innovations. As OEMs move to new ways of working, there is a growing demand for engineering and digital services. Together, we are empowering OEMs to deliver safer, smarter, and more sustainable vehicles that enhance the human experience and accelerate the industry’s transition to a software-defined future.”

Tom De Schutter, Senior Vice-President, Product Management & Markets Group at Synopsys, said, "The complexity of SDV systems requires a new level of collaboration across the automotive ecosystem. By bringing together our world-class digital twin, verification, and IP platforms with Tata Technologies’ engineering expertise and global delivery, we are enabling OEMs to accelerate development, validation and delivery of complex software- and AI-defined vehicles. The collaboration is a great example of how the automotive ecosystem is coming together to accelerate innovation while reducing risk and time to market in a dynamic mobility landscape.”

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HARMAN has partnered with Tata Motors Passenger Vehicles (TMPVL) to provide the in-cabin technology for the all-new Tata Sierra. The collaboration introduces 5G-ready connectivity and a multi-speaker audio system to the SUV, marking an expansion of the 12-year relationship between the two companies.

The vehicle features HARMAN Ready Connect, a suite of telematics control units (TCUs) manufactured at HARMAN’s facility in Pune. The system utilises a modular network access device architecture, allowing for a transition from 4G to 5G technology. It supports safety functions such as emergency calling, stolen-vehicle tracking and roadside assistance, alongside productivity features like video conferencing and high-definition streaming.

The interior includes a Horizon View Display and a digital instrument cluster powered by HARMAN’s infotainment architecture. The system supports gaming with joystick compatibility and features a Ready Link Marketplace, which allows users to download third-party Android applications.

For driver assistance, the Sierra incorporates a Surround View System (SVS) and 4sight Blind-Spot Monitoring. Navigation is provided through a native mapping solution from MapmyIndia. The cabin experience also includes ‘Relax Mode’ for sensory visuals and 'Silent Mode' to mute non-regulatory alerts.

The SUV introduces a 12-speaker JBL audio system, which includes an enclosed subwoofer and a soundbar. This configuration supports Dolby Atmos and represents a first for an Indian manufacturer. The integration of these components is intended to provide a multi-dimensional sound profile tailored to the vehicle's cabin.

By localising the production of the telematics hardware in India, HARMAN aims to provide TMPVL with greater supply-chain agility and shorter development cycles. The ‘Make-in-India’ initiative for Ready Connect ensures the technology is adapted to local driving conditions and consumer requirements.

Suman Sehra, VP, Portfolio Management, Connectivity at HARMAN International, said, “HARMAN Ready Connect represents the shift toward software-defined, experience-led mobility, and the new Tata Sierra is a perfect expression of that evolution. By collaborating closely with TMPV’s R&D team, we focused on value co-creation and delivered a platform that brings high-performance connectivity, scalable architecture, and future-ready digital services to support the connected digital life.”

Mohan Savarkar, Chief Product Officer, Tata Motors Passenger Vehicles, added, “With the Sierra, our focus was to create a cabin experience that feels as advanced and intuitive as the world our customers live in. Connectivity, digital interfaces and audio are no longer add-ons—they define how people engage with their vehicle every day. Our collaboration with HARMAN enables us to deliver a future-ready architecture, immersive in-cabin experiences and premium audio.”

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Sterling Tools has entered into a partnership with MINIEYE, a Hong Kong-listed developer of intelligent driving and in-cabin solutions. The collaboration focuses on the deployment of Advanced Driver Assistance Systems (ADAS) and Driver Monitoring Systems (DMS) tailored specifically for the Indian automotive market.

As per the agreement, Sterling Tools will lead application engineering and on-ground adaptation. This involves tuning perception algorithms to account for Indian road scenarios, traffic patterns, and environmental conditions. The project aims to ensure that safety technologies, such as Autonomous Emergency Braking (AEB) and Lane Departure Warning Systems (LDWS), function reliably in local settings rather than relying on global configurations.

The partnership is positioned to meet upcoming Indian safety mandates. Effective 1 January 2027, regulations will require the fitment of ADAS and Driver Drowsiness and Attention Warning Systems (DDAWS) in new vehicle models. The scope of the collaboration covers both commercial and passenger vehicles, including technologies for Forward Collision Warning (FCW) and Blind Spot Monitoring.

MINIEYE provides technology that complies with EU General Safety Regulations and holds Automotive SPICE V4.0 CL3 certification. Sterling Tools is supporting this transition as part of a broader expansion into electronics and safety-critical components, which includes electric vehicle power electronics and motor solutions.

Anish Agarwal, Director, Sterling Tools, said, “Road safety and regulatory compliance are becoming increasingly important across both commercial and passenger vehicle segments in India. This collaboration allows us to work with a global technology partner to address the growing need for driver assistance and monitoring systems that are engineered for Indian operating conditions. At Sterling Tools, our focus remains on supporting OEMs with engineered, safety critical technologies aligned with upcoming regulatory requirements.”

Dr Liu Guoqing, Founder and Chairman, MINIEYE, added, “Partnering with Sterling Tools marks a vital step in bringing intelligent driving to India, leveraging Sterling Tools local expertise to translate technology into production-ready applications that enhance vehicle safety.”

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Faraday Future Intelligent Electric Inc. has released technical details regarding the Front AI Communication Ecosystem (F.A.C.E.), a system featured on the electric version of its FX Super One MPV.

The technology replaces the traditional front grille with a display and an AI avatar designed to act as a co-pilot and communication interface.

The system utilises multimodal interaction, including voice, gesture and touch, to respond to user needs. It is controlled via a smartphone application, allowing for the display of custom graphics, logos and streaming video while the vehicle is stationary. The hardware incorporates sensors that enable the AI agent to perceive its surroundings and interact with individuals outside the vehicle.

The F.A.C.E. system uses a Large Language Model (LLM) reasoning layer to interpret user intent and execute actions. Its functionality includes role-awareness personalisation, which distinguishes between owners, family members and unknown persons to provide appropriate responses.

The system supports proactive communication, such as initiating responses when someone approaches the vehicle to improve safety. Users can also interact with the vehicle’s voice assistant from the exterior to check status or request access. The FX Super One platform is engineered to support both battery electric and AI hybrid extended range (AIHER) powertrains.

The FX Super One is positioned as a mass-market MPV for the United States. Faraday Future has established a three-stage delivery structure for the model:

• Phase One: Deliveries to FX Partners are expected to begin in the second quarter of this year.
• Phase Two: B2B partner deliveries and production ramp-up are scheduled for the third quarter.
• Phase Three: Full-scale consumer market deliveries are targeted for the final quarter of this year or the first quarter of 2027.

Max Ma, Global CEO, FX, said, “Offering technology like our unique F.A.C.E system in a new category of vehicle will be a game changer in the marketplace. It will allow users to connect with the world in a totally new way. It can express itself and communicate to the world in a way never seen before in a vehicle. The FX Super One is not just a new MPV, it is the first mass-market, first-class Embodied AI MPV designed for the U.S. market, where intelligent space, AI interaction, sensing, computing and power and extended-range capability come together in a single platform.”

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German component supplier Schaeffler is leading the ReDriveS research project, an initiative funded by the German Federal Ministry for Economic Affairs and Climate Action. The project, which includes 25 partners from industry and academia, aims to develop an automated and scalable recycling concept for electric axle drive systems.

The project has a volume of over EUR 25 million, with funding exceeding EUR 16 million over a 36-month period. The technical focus is on robot-guided disassembly to recover materials such as rare earths, copper, aluminium and steel. This approach is intended to support the repair of drives, the reuse of subcomponents, or the recycling of materials to meet statutory requirements and secure supply chains.

A central component of the project is the development of a digital twin that processes data throughout the lifecycle of an axle drive. This digital model assesses the condition and geometry of units to determine whether they should be dismantled into main components – such as the motor, inverter, or transmission – or broken down further for material recycling.

The system is designed to be manufacturer-independent, allowing the technology to be used as an industry solution for original equipment manufacturers (OEMs) and recyclers. The project also explores data-based business models for axle drives enabled by this digital ecosystem.

Prof. Dr. Tim Hosenfeldt, Head of Central Technologies at Schaeffler, said, “With ReDriveS, we are launching a key project for the circular economy in electric mobility as consortium leader, together with the German Federal Ministry for Economic Affairs and Energy and strong partners. Our goal is to make electric axle drives significantly more resource-efficient through digital twins, automated disassembly and high-quality recycling – thereby securing raw materials and supply chains, reducing CO2 emissions, and strengthening Germany as a location overall.”

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