In the rapidly evolving semiconductor industry, keeping pace with Moore’s Law presents opportunities and challenges, particularly in system-on-chip (SoC) designs. Notably, the number of transistors in ...

With the increasing size and complexity of FPGA devices, there is a need for more efficient verification methods. Timing simulation can be the most revealing verification method; however, it is often ...

As semiconductor applications in automotive, data center, and high-performance computing grow increasingly mission-critical, the industry faces mounting pressure to achieve near-perfect manufacturing ...

“This paper analyzes TCAD ESD simulation for both HBM zapping using real-world HBM ESD waveforms as stimuli and TLP testing using square wave TLP pulse trains as stimuli. It concludes that TCAD ESD ...

With 68% of the ASICs going through respins and 83% of the FPGA designs failing the first time around, verification poses interesting challenges. It’s also not a secret that nearly 60-70% of the cost ...

Prashanth Paladugu, a leading testbench architect at Micron, is transforming semiconductor design with his revolutionary approach to verification methodologies. "With the changing semiconductor ...

The limitations of traditional SPICE simulations. Role of production-grade AI in transforming EDA. Applications of AI in day-to-day engineering. The future of AI in analog design. In the realm of ...

Formal methods are a suite of mathematically grounded techniques that underpin the design, specification, and verification of programming languages and software systems. They involve the use of ...