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Welcome to Episode 1 of my new series on automotive controllers powering smart vehicles. Let’s start with NXP. NXP’s S32G isn’t just a processor—it’s the brain of modern connected vehicles. It combines real-time MCU performance with high-end application processing.
It enables secure over-the-air updates, service-oriented gateways, domain control, and advanced data routing for ADAS and V2X.
With built-in security and ISO 26262 compliance, S32G makes connected and autonomous vehicles smarter, safer, and scalable.
Whether it’s radar fusion, power distribution, or in-vehicle networking, the S32 platform is built for next-gen E/E architectures.
This is Episode 2 of our automotive controller series. Today, meet Infineon’s AURIX—trusted by top EV brands. The AURIX™ TC4x from \ Infineon is a high-performance microcontroller family for safety-critical and real-time applications. It offers a triple-core CPU, advanced timers, AI support, and scalable performance for zonal, domain, and powertrain control. It’s ASIL-D certified with integrated security, ideal for EV inverters, radar modules, and braking systems. AURIX enables smarter, faster decisions in electrified and autonomous platforms.
You’re watching Episode 3 of my series on top vehicle controllers. This one’s for those diving into ADAS: Renesas R-Car V4H is a high-end SoC built for L2+ autonomous driving. It processes multi-sensor input from camera, radar, and LiDAR with deep learning performance up to 34 TOPS. It balances high AI throughput with low power consumption—ideal for vision perception, driver monitoring, and automated lane-keeping. If your car needs eyes and a brain, R-Car delivers both.
This is Episode 4 in the automotive controller series. Today’s focus: TI’s powerful Jacinto processor for vision-based ADAS.Jacinto TDA4VM from Texas Instruments enables real-time ADAS through deep learning, vision analytics, and sensor fusion. It delivers 8 TOPS of AI, supports multi-camera input, and helps cars classify and track objects in milliseconds. Used in parking assist, traffic sign recognition, and collision avoidance—this chip is making roads safer through perception-based control.