SYSTEM AND METHOD FOR DETERMINING CABLE PERFORMANCE BASED ON FREQUENCY DEPENDENT SKEW

Organization Name

Cisco Technology, Inc.

Inventor(s)

David Nozadze of San Jose CA (US)

Mike Sapozhnikov of San Jose CA (US)

Upen Reddy Kareti of Union City CA (US)

Amendra Koul of San Francisco CA (US)

Joel Richard Goergen of Soulsbyville CA (US)

SYSTEM AND METHOD FOR DETERMINING CABLE PERFORMANCE BASED ON FREQUENCY DEPENDENT SKEW - A simplified explanation of the abstract

This abstract first appeared for US patent application 18422854 titled 'SYSTEM AND METHOD FOR DETERMINING CABLE PERFORMANCE BASED ON FREQUENCY DEPENDENT SKEW

Simplified Explanation

The method described in the patent application involves determining the skew values of cables, which indicate the time of signal propagation at different signal frequency values. These skew values are then used to determine skew behavior property values for each cable, which in turn are used to calculate performance metric values. By analyzing the relationship between skew values, signal frequency values, and performance metric values, electronic components can be connected using a new cable based on this analysis.

• The method involves analyzing skew values of cables at different signal frequency values.
• Skew behavior property values are determined based on the skew values.
• Performance metric values are calculated for each skew behavior property value.
• The relationship between skew values, signal frequency values, and performance metric values is analyzed.
• Electronic components are connected using a new cable based on this analysis.

Key Features and Innovation

• Analysis of skew values of cables at different signal frequency values.
• Determination of skew behavior property values based on skew values.
• Calculation of performance metric values for each skew behavior property value.
• Analysis of the relationship between skew values, signal frequency values, and performance metric values.
• Utilization of this analysis to connect electronic components using a new cable.

Potential Applications

This technology can be applied in various industries where precise signal propagation timing is crucial, such as telecommunications, data centers, and high-speed computing.

Problems Solved

This technology addresses the challenge of ensuring accurate signal propagation timing between electronic components connected by cables.

Benefits

• Improved signal propagation timing accuracy.
• Enhanced performance of electronic components.
• Efficient connection of electronic components using optimized cables.

Commercial Applications

• Telecommunications industry for high-speed data transmission.
• Data centers for efficient data processing.
• High-speed computing applications for improved performance.

Prior Art

Readers can explore prior research on signal propagation timing analysis and cable optimization in the field of electronic component connections.

Frequently Updated Research

Stay updated on the latest advancements in signal propagation timing analysis and cable optimization for electronic component connections.

Questions about the Technology

What are the key features of the technology described in the patent application?

The key features include analyzing skew values of cables, determining skew behavior property values, calculating performance metric values, and utilizing the analysis to connect electronic components using a new cable.

How can this technology benefit industries that rely on precise signal propagation timing?

This technology can improve signal propagation timing accuracy, enhance electronic component performance, and enable efficient connection of components using optimized cables.

Original Abstract Submitted

Presented herein is a method comprising: determining skew values of cables, each skew value indicating a time of signal propagation along a respective cable at a respective signal frequency value, and the skew values being frequency dependent and varying at signal frequency values; determining skew behavior property values for each cable based on the skew values; determining a performance metric value for each skew behavior property value; determining a relationship between the skew values and the signal frequency values at each performance metric value based on the performance metric value for each skew behavior property value; and coupling a first electronic component and a second electronic component to one another using a new cable based on the relationship between the skew values and the signal frequency values at each performance metric value.