Industry Expert Blogs

Thanks to the intelligence inside, your car can do a lot more on its own than ever before. When your vehicle senses it is getting too close to the car in front, it can apply the brakes. Or if your car recognizes it’s about to cross into another lane, it can alert you or center itself. And, while they’re not yet commercially available, self-driving cars are being tested and operated on our roadways.

Today’s connected vehicles are digital platforms. At the high end, it’s not uncommon to find upwards of 150 million lines of software code distributed among 150 or more electronic control units (ECUs), as well as in sensors, cameras, radar, and LiDAR devices. Software provides a lot of the vehicle differentiation, working in tandem with the hardware to turn concepts like automated braking, lane departure warnings, and self-parking into viable features.

With technology driving so many of the capabilities in modern vehicles, it’s no wonder that automotive SoCs are a key point of focus for carmakers. Some automotive OEMs are designing their own chips, and many others are investigating the possibilities. When it comes to ensuring the dependability of these chips, four key characteristics are needed: quality, reliability, functional safety, and security. Read on to learn more about the requirements to address each of these areas in your automotive SoC designs.

Click here to read more ...