Here’s the page we think you wanted. See search results instead:

 

Contact an Expert

Design and Simulation of High-Speed Digital

Keysight Signal Integrity (SI) and Power Integrity (PI) tools leverage the time and frequency domains to quickly solve the underlying problems with high speed digital designs. The integrated schematic capture, layout, and data analysis environment with multiple simulators including IBIS-AMI channel, transient, s-parameter, and physical layer EM ensure compliant designs with the latest standards. In support of the channel simulations with in the Advanced Design System (ADS) environment, designers can use EMPro software for full 3D-EM simulation of complex channel component models, and SystemVue software to generate custom IBIS-AMI Tx and Rx behavioral models for fast channel simulation. With Keysight, you’ll achieve your best design.

Invest in your future and update your technical knowledge with our Tutorials in Signal Integrity Webcast series.

High Speed Digital Design Challenges

  • Analyzing complete chip-to-chip links by co-simulating individual components, each at its most appropriate level of abstraction: channel-, circuit- or physical-level
  • Importing channel component S-parameter models accurately into circuit and channel simulations, avoiding causality and passivity issues
  • Correlating measured and simulated data to verify design methods and reduce design spins with virtual prototyping

Explore YouTube Videos 

What's New

Refine the List

remove all refinements

By Type of Content

By Product Category

1-2 of 2

Sort:
Signal Integrity: Include Post-layout PCB Artwork into your Eye Diagram and BER Contour Simulation 
Originally broadcast May 5, 2010. Part of the Series: Signal Integrity for High Speed Digital Interconnects.

Webcast - recorded

 
Using IBIS AMI Models as ‘Executable Data sheets’ in High Speed Digital Interconnect Simulations 
Originally broadcast Sept 9, 2010. Part of the Series: Signal Integrity for High Speed Digital Interconnects.

Webcast - recorded