As the demand for faster data rates in high-speed interfaces such as PCIe, USB, and DDR continues to escalate, maintaining signal integrity has become a significant challenge for engineers.
Statistical signal integrity analysis applies probabilistic and statistical methods to the characterisation, prediction and mitigation of signal degradation in high-speed digital interconnects. As ...
When using fibre the engineering challenge comes at the point where optical networks meet electronic hardware.
As the industry accelerates toward 800G Ethernet and optical interconnects, engineers face new challenges in managing electromagnetic interference (EMI) while ensuring signal integrity at ...
Data centers are moving a lot of signals to store and process data and support AI analysis. These centers require solutions to support high-speed signal traffic and protect the integrity of that data.
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.
Artificial intelligence is reshaping the global technology landscape, and nowhere is this transformation more visible than in ...
How microcontrollers and single-board computers coordinate high-speed RF acquisition and generation. How SCPI and UART commands let simple controllers use advanced measurements without FPGA ...
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, ...
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, ...