The paper includes a study of the influence of anisotropy on the channel performance and examines methods to extract out the level of anisotropy. The overall goal is to achieve better than 2% measurement-simulation correlation in impedance profiles. This approach allows for optimized geometries and controlled geometry designs.
Reducing channel loss can enable lower power or longer unrepeated channel lengths.
In the context of the IEEE P370 standard activities, the members collected data on how measurement results and de-embedding results can vary across different teams. In this paper, we present the analysis of the data collected.
This paper addresses a new methodology for 12 Gbps interoperability that combines a concerted family of pathological channels, internal eye monitoring, and external EQ simulation tools, providing insight into an EQ optimization strategy that addresses the specific channel’s mix of crosstalk noise, jitter, and channel loss.
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