Transportation Solutions FPGAs - Transportation Solutions FPGAs Enable next-gen transportation applications with Altera® FPGAs, supporting ADAS, zonal architectures, in-vehicle networking, and functional safety compliance. With rapidly evolving standards and requirements for Advanced Driver-Assist Systems (ADAS) and In-Vehicle Experience (IVE) applications, the need for flexibility and faster development cycles while maintaining a high performance-per-watt is the primary concern for system designers. By combining reprogrammable FPGAs with an expanding range of automotive-grade products, FPGAs enable automotive engineers to meet their design requirements and stay ahead in an evolving industry. The Future of AI in Automotive AI is transforming the driving experience by enabling advanced capabilities which make vehicles smarter, safer, more efficient, reliable, enjoyable and easier to operate. FPGAs and FPGA-based SoCs are uniquely suited to accelerate these AI-driven tasks because they provide efficient performance, adaptability and energy efficiency. Altera FPGAs have specialized AI capabilities embedded within the logic fabric to accelerate AI workloads. The revolutionary addition of AI Tensors to the traditional FPGA DSP block enables support for AI applications with high-performance vector and matrix operations in a scalable, resource and power efficient FPGA device. – AI tensor blocks are only in Agilex 3,5 FPGA Technology in Transportation Why FPGAs Why FPGAs Get Started Get Started The transformation to an SDV relies on software to control, manage, and enhance nearly every aspect of the vehicle’s operation, enabling continuous improvement and adaption to new technologies and user demands. FPGAs are critical to this new architecture, providing the reconfigurability, high-speed processing, energy efficiency, and security needed to support a constantly evolving, software-centric automotive platform. Software-Defined Vehicle (SDV) View Details Software-Defined Vehicle (SDV) ADAS applications enhance vehicle safety and driving convenience by integrating cutting-edge sensors, real-time data processing, and automation to assist drivers in making more informed decisions and reducing the risk of accidents. FPGAs enable ADAS by providing the required computational power, real-time performance, flexibility, and energy efficiency, making them a crucial component in the development of next-generation automotive systems. Advanced Driver-Assistance System (ADAS) View Details Advanced Driver-Assistance System (ADAS) Pioneering the next generation of mobility, the EV powertrain integrates advanced technologies to efficiently convert and manage electrical energy, delivering optimal performance, range, and sustainability while enabling precise control of motor operation and power distribution. FPGAs provide real-time control, power management, reconfigurability, safety, and AI integration, leading to more efficient, reliable, and adaptable systems for the future of EVs. Electric Vehicle (EV) Powertrain View Details Electric Vehicle (EV) Powertrain Applications