Network-on-Chip (NoC) architectures have emerged as a pivotal design paradigm in modern multi-core systems, offering scalable and efficient interconnections among numerous processing elements. However ...

Races, missed next-state values due to long paths, and metastability can result from corrupted clock signals. This post describes the challenges of clock network and clock jitter analysis in more ...

Signal integrity is a critical design consideration in modern electronic systems, particularly those that depend on high-speed interconnects. As data rates climb and interconnect geometries become ...

The increasing amount of video consumption on the internet and the proliferation of cloud applications are driving data centers and cloud storage toward 400-Gigabit Ethernet networks and beyond to ...

Signal integrity (SI) is at the forefront of SoC and system designers’ thinking as they plan for upcoming high-speed GDDR6 DRAM and PHY implementations for automotive and advanced driver assistance ...

Signal integrity (SI) and power integrity (PI) are two distinct but related realms of analysis concerned with proper operation of digital circuits. In signal integrity, the main concern is making sure ...

There is a lot of variety in today’s IoT devices. They may be fairly simple devices, such as sensors transmitting simple data or sensors sending large amounts of data (video for instance). They may be ...

As a signal travels across a network, it focuses only on what it sees in its path. And increases in data rates over the past few decades have made this path a bit more clouded. System infrastructure ...