This signal integrity blog is written by Colin Warwick, High Speed Digital Design Flow Manager with the Agilent EEsof EDA high speed digital (formerly signal integrity) design flow group. He covers a ...

Analyzing high speed datacom interfaces is an important task and ensures signal integrity. One major challenge of this analysis is the connection between the physical interface and the oscilloscope, ...

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 ...

Experienced designers of 10 Gbits/sec (10G) Ethernet, SONET/OTN, Infiniband (QDR/FDR), and Fibre channel (16/8GFC) products are well aware that the maintenance of signal quality is far more difficult ...

Signal and power integrity have become pivotal concerns as data center and aerospace and defense products grow more complex and operate at higher frequencies. For Benjamin Dannan, the foundation of ...

Are you designing a board with high-speed chipsets on either end of the link? You own the interconnect—and the risk. As clock and data rates climb, maintaining signal integrity becomes critical for ...

Interconnect cables play an important role in electronics testing. As high-speed signal communications continue to advance, cabling solutions will need to keep up with high-speed, multiport testing.

In the modern electronics industry, devices are becoming smaller, faster, and more sophisticated than ever before. To meet ...

As AI computing power rapidly scales, electronic system interconnect demands are shifting from traditional terminal structure optimization to comprehensive integration of high-speed signal integrity, ...

Although multi-die designs — an increasingly popular approach for integrating heterogeneous and homogenous dies into a single package — help resolve problems related to chip manufacturing and yield, ...