Designing ICs on 0.13-micron and smaller process technologies poses tremendous challenges. The number of silicon failures caused by signal integrity problems is on the rise because existing design ...

Yesterday, I started to talk about how new technologies find their way over time into EDA tools in my post How Technologies Get into EDA. Let’s look at signal integrity as an example. We used not to ...

Signal integrity is the primary measure of signal quality. Its importance increases with higher signal speed, oscilloscope bandwidth, the need to view small signals, or the need to see small changes ...

This document describes the basics of signal integrity, behavior of transmission lines and compares the output edge rates of various logic devices. It also explains the causes of reflections on a ...

In Part 1, we reviewed the importance of simultaneous switching output (SSO) timing and the challenges associated with double data rate (DDR) simulation complexity. DDR memory interfacing has reached ...

Strengthening Microchip Technology’s data center solutions portfolio, the retimers support high‑bandwidth architectures while ...

As AI workloads continue to scale, data centre architects are increasingly constrained by limited signal reach and rising latency, which can leave valuable memory resources underutilised across large ...

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 ...

The architecture of the body is not encoded as a formal blueprint; rather, it's the tightly orchestrated activation and deactivation of genes that coordinate body development. Many of these processes ...