Tensor and Arm announced a multi-year strategic collaboration to deliver the foundational compute architecture behind the world's first agentic AI personal Robocar. Through this partnership, Tensor is leveraging the Arm®? compute platform, which unifies hardware, software and ecosystem enablement, to power physical AI workloads spanning the entire vehicle.

Tensor has integrated more than 400 safety-capable, power-efficient Arm-based cores in each vehicle - the highest concentration of Arm technology in a consumer vehicle today. As Tensor scales its personal Robocar fleet for global commercialization in 2026, the companies will work together to enable the Level 4 autonomous capabilities required for next-generation mobility, supported by the extensive Arm software ecosystem of more than 22 million developers. AI is shifting to the physical world, where intelligence is embodied in machines and defining a new class of autonomous systems that sense, decide and act under uncompromising power, safety, and reliability constraints.

Tensor is defining its vehicle around this intelligence rather than adapting autonomy onto legacy platforms. The Robocar is powered by the world's most vertically integrated Level 4 autonomy stack, and a comprehensive sensor suite of 37 cameras, 5 lidars, 11 radars, 22 microphones, 10 ultrasonic sensors, 3 IMUs, GNSS, 16 collaboration detectors, 8 water-level detectors, 4 tire-pressure sensors, a smoke detector, and triple-channel 5G connectivity. This unique depth of hardware and software integration represents a meaningful advancement in automotive sensing, enabling continuous perception, environmental awareness, and resilient system performance across diverse operating conditions. To make this possible, Tensor is using the leading-edge Arm compute platform to distribute safety-capable intelligence across the vehicle -from the onboard supercomputer to the smallest sensors - allowing the Robocar to safely perceive and navigate its environment through its foundation models.

Each Tensor Robocar incorporates433 Arm-based cores, including Neoverse®? AE for high-throughput AI processing, Cortex®?-X for agentic AI cabin and peak performance system control, Cortex-A for drive-by-wire, lidars, redundancy, and general compute, Cortex-R for real-time safety-critical systems, and Cortex-M for low-power subsystem management. The Arm compute platform enables Tensor to deploy AI workloads across diverse compute domains while meeting stringent automotive safety, thermal, and power requirements, operating in concert with NVIDIA-accelerated AI processing to support Tensor's proprietary autonomy stack.

The AI-native vehicle architecture used in each Tensor Robocar is enabled by a growing network of leading partners spanning AI compute, advanced manufacturing, safety systems, and critical vehicle technologies. Tensor has also selected industry leading automotive suppliers, semiconductor companies, and cloud partners including Autoliv, ZF, Continental, NVIDIA, AMD, Qualcomm, Samsung, and Oracle for the most advanced personal autonomous vehicle to ever be mass produced. The Tensor Robocar will be offered in the US, EU, and Middle East markets in 2026.