Today all chip designs begin as lines of code. The code is written at a high level, hiding much of the complexity from the designer, and then synthesized into a low-level description for layout and ...

A study outlines low-latency computing strategies for real-time hardware systems, highlighting dynamic scheduling, ...

Where are the system-level design tools that we need for systems on chips? For years the semiconductor industry has been marching noisily toward the world of SoCs, but now that we are here, we find ...

Used to perform FMEA, Software FMEA/HAZOP, DFA, and cybersecurity threat analysis, the software has embedded knowledge about likely system level problems that helps detect design issues early, for ...

About 15 years ago, the assumption in the EDA industry was that system design would be inevitable. The transition from gate-level design to a new entry point at the register transfer level (RTL) ...

What are the five core principles of hardware/software co-design? How do these principles help build a geographically diverse engineering organization that can successfully develop complex solutions ...

Sustainable software engineering addresses the challenge of developing, maintaining and evolving software systems that not only meet the demands of modern society but also minimise environmental ...

Most embedded architects think of AI as a coding shortcut. But the real power isn’t in cranking out boilerplate code, it’s in transforming how we design systems. Imagine capturing key decisions in ...

In today's lightning-fast software landscape, traditional architecture practices are becoming a bottleneck. The velocity and complexity of systems scaling across ephemeral microservices, complex APIs ...

The integration of generative AI (GenAI) into tools such as cloud-based SaaS (software-as-a-service) products are driving dynamic transformation in the industrial automation space. The emergence of ...