In this methodology-based learning path you will learn how to use HyperLynx to identify, analyze and solve design problems for optimum results. Learn how to use HyperLynx to create topologies and perform pre- and post-layout SI analysis for industry standard protocols in a variety of application areas. Learn how to use HyperLynx Power Integrity to detect problems and make corrections related to power planes and the thermal behavior of PCB designs. In this course you will learn how to use HyperLynx to develop design constraints and to detect and correct signal integrity issues in your designs. Receive unlimited access to all new content added during your active subscription.
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Education Duration :1 Day. Tranier : Pietro Vergine. Prerequsite : -. The objective of this workshop 1 day is to understand the root causes of Signal Integrity issues from a theory point of view and see how those can be analyzed using EDA tools available on the market.
Several examples will be demonstrated to fix the concepts learned. During the workshop we will also look at the methodologies' aspects to properly address the design of a robust and reliable PCB in terms of Signal and Power Integrity looking at some of the tools available today on the market mainly based on Mentor Graphics tools but not only. Agenda :. There is no prerequisite required to attend this workshop in terms of tool usage as the presenter will run the examples.
HyperLynx Signal Integrity Analysis. The HyperLynx Signal Integrity Analysis 3 days course will help you understand basic signal integrity, crosstalk, EMI concepts, and pre- and post- layout stages of the design process.
Hands-on lab exercises will reinforce what is discussed during the lectures and provide you with extensive tool usage experience under the guidance of our industry expert instructors.
Throughout this course, extensive hands-on lab exercises provide you with practical experience using HyperLynx SI software. Hands-on lab topics include:.
LineSim free-form schematic creation, editing stack-up, assignment of models and component values. Manual and automatic waveform measurements of overshoot, flight-time and crosstalk. Evaluating the effects of different impedance matching strategies, topologies, technologies, and stack-ups in LineSim Sweeping design parameters.
Document changes made in BoardSim Set up and simulate nets between boards using multi-board projects. Education Duration : 2 Days. Tranier : Nigel Woolaway. Evaluate the results of different types of analysis and identify the potential hot spots in PowerScope, TouchStone Viewer, and Digital Oscilloscope graphical tools. Performing DC Drop analysis in LineSim, evaluating the analysis results, identifying the potential problems, making appropriate modifications, and validating the modifications through re-simulating.
Using the LineSim PDN editor and decoupling analysis wizard to explore how decoupling capacitors and board stackup affect the impedance of a power distribution network in pre- and post-layout simulations. Analyzing how AC changes in IC power pins affect the noise on power planes, exploring the analysis results in PowerScope, identifying the hot spots, making adjustments changing board shape, etc.
The HyperLynx DDRx Interface Analysis 2 days course will help you gain an in-depth understanding of DDRx interfaces and how to use the HyperLynx software to analyze signal integrity, crosstalk, and timing of DDRx in both pre- and post- layout stages of the design process. Deriving timing parameters for a controller timing model Creating timing model for the controller.
The HyperLynx High-Speed Serial Interface Analysis 2 days course will help you gain an in-depth understanding of high speed serial interfaces e. SERDES and how to use the HyperLynx software to analyze their signal integrity, crosstalk, and timing in both pre- and post- layout stages of the design process.
Target Audionce :. You will learn how to configure the rules, how to run them and how to evaluate the results and cross probe any rule violation back into your PCB. Hands-on lab exercises will reinforce lecture and discussion topics under the guidance of our industry expert instructors. This course is offered on Windows platform. Education Duration : 3 Days. Differential pair: routing, timing, crosstalk, common mode, terminating, multi-GHz.
Power integrity: planes, capacitors — ESL, size, location, mounting inductance. Signal and Power Integrity Essentials Training. Education Duration : 5 Days. Tranier : Dr. Alaa Elrouby.
The training is a combination of theoretical and lab simulation sessions for a total of 40 hours. Transmission Line Lab. PCB stackup — simple net simulation — different termination schemes — under and over driven nets — lossy TL — surface roughness — inter-symbol-interference. Crosstalk Crosstalk types and their behaviors — mutual impedance — even and odd modes and their characteristics — termination techniques — crosstalk minimization.
Crosstalk Lab. Crosstalk analysis — vertical and lateral crosstalk — number of neighbors to consider- grounded trace for shielding — even and odd mode crosstalk. Non-ideal Return Paths Current return path and its impact on SI — return path discontinuity — dependency on buffer type — solutions for return currents discontinuity — simultaneously switching noise SSN.
Digital Timing Analysis Common-clock timing calculations and limitation — source synchronous system timing limitations and modifications — setup and hold margin calculations for different systems. DDR2 Lab. Single ended nets — differential DQS net — net length effect on timing and signal quality — single-ended and differential crosstalk analysis — DDR2 timing analysis. Serial Communication Serial communication parameters and definitions — inter-symbol-interference ISI — block coding — eye diagram — equalization and pre-emphasis — Serial communication link.
Power Delivery System PDS PDS definition, functionality and building blocks — power planes — power supply types and models — power delivery dynamics — capacitors modeling, mounting and characteristics — PDS design methodology — decoupling solutions. Power Integrity Lab. Our industry expert instructors will lead you through detailed examples from real-world designs to demonstrate the necessity of understanding signal integrity issues and applying sound signal integrity principles to your designs.
Specific tools are rarely discussed and therefore the class is appropriate for all Engineers involved in high speed digital pcb designs.
HyperLynx High-Speed PCB Training Library
Full instructor-led courses in a Mentor training facility, with complete course materials and access to classroom computers. Live Online classes deliver all the interactivity and depth of the traditional classroom, from the convenience of your own computer, with hands-on exercises and course materials. The HyperLynx Signal Integrity Analysis course will help you understand basic signal integrity, crosstalk, EMI concepts, and pre- and post- layout stages of the design process. Hands-on lab exercises will reinforce what is discussed during the lectures and provide you with extensive tool usage experience under the guidance of our industry expert instructors.
HyperLynx Signal Integrity Analysis
No-campus attendance No commuting No travel cost No deadline pressure. Enroll any time and enjoy affordable fee. Target Audience: Engineers and CAD Layout Designers responsible for implementing high speed digital and mixed analog digital systems that will work reliably at full speed and still remain quiet enough to pass regulatory EMI tests. The basic methodology upon which this class is based was documented to achieve repeatable first pass success as a standard practice. Why Should I attend this Training? When degradation becomes serious enough, the logic on a board can fail. Students who have implemented this methodology have regularly produced complex designs that do indeed work correctly on the first implementation.