Enables network engineers to test performance and conformance of software defined vehicles on a single platform with traffic generation and protocol testing capabilities Provides time-sensitive ...

Times are changing fast. Take the automotive industry for example. Software has evolved far beyond infotainment, now controlling everything in the car, including braking and steering for the driver.

Today’s automakers face a dilemma: They risk wasting resources on building vehicles that are already outdated when they are born. The reason behind it is the ongoing shift from hardware-centric to ...

The landscape of automotive software is undergoing significant transformation, driven by growing system complexity, stringent safety standards, and the need for streamlined development cycles. Virtual ...

The types of devices being deployed in cars and how they differ in functionality. Why each device type requires a different test technique. Determining the best approach for the specific application.

Automotive software is becoming more expensive and central to a car’s identity. Infotainment, advanced driver-assistance systems (ADAS), traction control, and even powertrain management are all shaped ...

The automotive industry is transitioning to software-defined vehicles, using modular architectures, AI-driven validation, and ...

The more complex automotive systems and software become, the more effort their producers should put into protecting them. Some cybersecurity risks, like data breaches and system compromise, are always ...