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HSD Learning Week

Classroom Training | Where & When

Dear Customer,
Why is high-speed digital design important?
Join us for the HSD Learning event in Les Ulis starting on Tuesday June 12th , 2018!

This training class is designed for engineers with an RF/microwave background who are involved in high-speed mixed-signal design and for engineers with high-level expertise who are looking for improving in-depth knowledge on high-speed digital simulation techniques.
Come and learn more about how to close your design on specification and schedule using the latest HSD Design and Verification solutions.

These classes cover a large selection of material based on the latest version of ADS and will be led by qualified Keysight instructors. Computers will be provided by Keysight, lunch and refreshments are served during the training days.

Please find below registration information and a detailed agenda. Seating is limited and will be assigned on a first-come, first-served basis. You can consider the registration form as a formal quotation from Keysight. The cost of classes is 490€ per day (excl. VAT).

 

Info Detailed Agenda

Day 1

9AM -5PM

Introduction to ADS environment

• Using the ADS Workspace –

Workspace structure, libraries, schematics, simulation setup and tuning
Lab : Workspaces, Filter Design and Tuning
• Introduction to ADS Architecture oriented layout
Workspaces, Libraries, Technology Files
Lab : Understand workspace & library creation and technology files
• Layout Basics
Snap Modes, Shapes vs. Components, Placement & Editing
Lab : Snap Modes, Placement, Editing, Booleans…

Day 2

9AM -5PM
 

The Channel

• Designing Pre-layout for PCB Constraints
Interconnect Utility Tools to Build the Channel:
• Line characterization
• Using and understanding the ADS multilayer library.
• Via Designer
• The SnP component and S-parameter Checker
Lab: All in one pre-layout flow, sharing a common substrate stack up definition, taking previously created CILD and Via models and simulate for eye density. Optimize for system-metrics like eye height and width, with parameterized transmission lines, via designs and Tx/Rx EQ using Signal integrity application build in Design guides
• HSD Simulation
Use the Pre-layout Schematic to build the channel
• Transient Simulation using IBIS Models
• Channel Simulation including Ibis AMI Model (Lecture about IBIS-AMI and why you need it).
• Mix and Match in Channel Sim: Use build in ADS TX with an AMI RX and vice-versa.
• NRZ and PAM4 signal to Channel Simulation.
Lab: - Add the CILD and the Via models to the Channel and optimize. Use BatchSim to vary both width and spacing of the coupled lines. Use IBIS-AMI components to do bit-by-bit or statistical Channel Simulations. Do eye measurements including density, bathtub and BER on the previously created EM models.

*Add EESOF PAM-4 IBIS-AMI Models to Channels Simulation
* if requested

Day 3

9AM -5PM

 

SIPro & PIPro + DC IR Drop Electro Thermal 

• BRD/ODB Import
• setup SI simulations in SIPro
• Create power-aware SI Analysis, Perform power-aware SI Analysis and S-Parameters and TDT/TDR results.
• Learn how to plot single ended and mixed mode s-parameters
• Create and use Eye diagrams to investigate Signal Lines behavior in the presence of noise in Power Plane, Understand the role of Power-Aware in SI simulations
• Lab: Setup an SiPro Analysis
• Lab: Create and use Eye diagrams to investigate Signal Lines behavior in the presence of noise in Power Plane, Understand the role of Power-Aware in SI simulations

PIPro + DC IR Drop Electro Thermal
• Learn how to create a PI simulation in SIPro.
• Learn about PI-AC analysis, PDN Impedance, S-Parameters, 3D Fields, current density plots.
• Learn about Static IR Drop Analysis. Define PI-DC analysis: run and view analysis, interpret the results: Sinks, Pins, VRMs, vias, View Voltage, Current Density, and Power Loss Density plots.
• Learn about PDN Impedance Analysis
• Electro-Thermal Analysis: Electro-Thermal simulator for DC conditions on a PCB. Perform PI-DC IR-Drop Analysis. And perform PI-DC IR Drop Electro Thermal analysis on imported board.
• Lab: Define PI-DC analysis: run and view analysis, interpret the results: Sinks, Pins, VRMs, vias, View Voltage, Current Density and Power Loss Density plots
• Lab: Perform PI-DC IR-Drop Analysis on PandaBoard
Perform PI-DC IR Drop Electro Thermal analysis on PandaBoard.

Where & When

Price Date(s) Location For more information
EUR 1,470 2018-06-12 — 2018-06-14 Les Ulis  Register here

Prices shown are list prices and are subject to change without notice.