The landscape of IC design is experiencing a profound transformation. With the physical and economic limits of conventional two-dimensional scaling, the industry is rapidly embracing three-dimensional ...

Semiconductors are the essential component fueling the growth of industries such as automotive, renewable energy, communications, information technology, defense, and consumer electronics. The rise of ...

In the realm of high-performance IC (integrated circuit) design, symmetry is not just an aesthetic preference—it’s a critical factor for ensuring proper device functionality, especially in analog and ...

3D-IC designs enable improvements in performance, power, footprint, and costs that cannot be attained in system-on-chip (SoC) and IC design. However, the leap from traditional SoC/IC design to 3D-IC ...

The AI revolution is driving change in how we design and manufacture everything from data centers to servers and chips. Even what we consider a chip is changing from the integration of analog circuits ...

Rising memory prices are creating fresh cost challenges for IC design firms, particularly those producing chips with embedded ...

As the complexity of IC designs continues to grow, moving critical checks earlier in the design cycle helps designers identify and resolve issues before they escalate, streamlining the overall ...

How advanced IC designs are replacing board-level systems. How an eFPGA can empower a system’s design. Designers continue to face greater challenges in the development of advanced embedded systems.

Rising prices are no longer limited to upstream materials and PCBs; surging memory costs have further pushed up supply chain expenses, prompting synchronized responses across wafer foundries, OSAT ...