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Autor principal: Shlepnev, Yuriy
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2412.09639
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author Shlepnev, Yuriy
author_facet Shlepnev, Yuriy
contents In the realm of PCB and packaging interconnect design, electromagnetic analysis tools have transitioned from optional to essential over the last two decades, as data rates soared beyond 6 Gbps. Today, with standard data rates eclipsing 6 Gbps and reaching thresholds of 224 Gbps, these tools are indispensable for designing reliable interconnects. The goals of the interconnect analysis are simple: identify interconnects that may fail at the target data rate and allow troubleshooting and fixing the problem. The most efficient approach to such pass-fail analysis is the Decompositional Electromagnetic Analysis (DEA). It allows separation of the signal degradation factors for faster analysis and troubleshooting. This paper outlines the basic elements of DEA, discusses conditions for its accuracy and underscores its significance in the future of interconnect design.
format Preprint
id arxiv_https___arxiv_org_abs_2412_09639
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Progress in Decompositional Electromagnetic Analysis of Digital Interconnects
Shlepnev, Yuriy
Instrumentation and Detectors
In the realm of PCB and packaging interconnect design, electromagnetic analysis tools have transitioned from optional to essential over the last two decades, as data rates soared beyond 6 Gbps. Today, with standard data rates eclipsing 6 Gbps and reaching thresholds of 224 Gbps, these tools are indispensable for designing reliable interconnects. The goals of the interconnect analysis are simple: identify interconnects that may fail at the target data rate and allow troubleshooting and fixing the problem. The most efficient approach to such pass-fail analysis is the Decompositional Electromagnetic Analysis (DEA). It allows separation of the signal degradation factors for faster analysis and troubleshooting. This paper outlines the basic elements of DEA, discusses conditions for its accuracy and underscores its significance in the future of interconnect design.
title Progress in Decompositional Electromagnetic Analysis of Digital Interconnects
topic Instrumentation and Detectors
url https://arxiv.org/abs/2412.09639