SystemSI for Parallel Bus and Serial Link Analysis Training
날짜 | 버전 | 국가 | 위치 | |
---|---|---|---|---|
22 Oct 2024 | 22.1QIR2 | Korea, Republic Of | Gyeonggi-do-Korea Korea, Republic Of |
EnrollINQUIRE |
Scheduled upon demandOn demand | EnrollINQUIRE |
Length: 2 Days (16 hours)
Become Cadence Certified
Course Description
This course covers modeling, simulation, and analysis of parallel bus and serial link systems of high-speed printed circuit boards using the SystemSI Parallel Bus Analysis and Serial Link Analysis software.
In this course, you first use the SystemSI™ Parallel Bus Analysis II for block-level modeling, simulation, and analysis of the pre-routed parallel-bus system. Next, you use the SystemSI Parallel Bus Analysis II for block-level modeling, simulation, and analysis of post-routed power-aware parallel-bus systems (including the power-distribution network). Finally, you use the SystemSI Serial Link Analysis II for block-level modeling, simulation, and analysis of post-routed serial-link systems.
Learning Objectives
After completing this course, you will be able to:
- Build block-level topologies of pre- and post-routed parallel-bus systems (PBSs) and serial link systems (SLSs) in the SystemSI Parallel Bus Analysis II and Serial Link Analysis II tools
- Generate a W-Element transmission-line model to represent the pre-routed parallel bus or serial link interfaces
- Assign electrical models to the blocks of PBSs and SLSs
- Connect blocks of PBSs and SLSs, using the model connection protocol (MCP)
- Set up analysis options for circuit/channel simulations of PBSs and channel simulation of SLSs
- Set voltage and current probe points in PBSs and SLSs
- Set up sweeping key design parameters defined in the electrical models of interconnects (PCBs and Packages), controller, receiver, transmitter, and receiver, etc.
- Run simulations or sweep-mode simulations of pre-routed parallel bus systems and post-routed power-aware parallel bus systems
- Run simulations or sweep-mode simulations of serial link systems using AMI and IBIS-AMI models for the transmitter and receiver components
- View simulation-generated 2D plots, Eye Diagrams, BER eye, Bathtub, impulse response, ramp response, etc.
- Generate simulation-based reports with tables and waveforms
- Analyze simulation-based results, waveforms, and tables to evaluate the power and signal integrity performance of the PBSs and SLSs
- Use a built-in template with the serial-link system topology consisting of three coupled serial-link channels for simulation-based analysis to explore the effects of crosstalk on the primary serial-link channel
- Apply systematic process, in terms of strategies and solutions, to resolve issues that may arise in using the SystemSI tools
Software Used in This Course
- Topology Workbench
- SystemSI
Software Release(s)
OrCAD/Allegro 22.1QIR2 (SPB221); SIGRITY2023
Modules in this Course
- Modeling, Simulation, and Analysis of the Simple Parallel Bus Systems
- Modeling, Simulation, and Analysis of the Power-Aware Parallel Bus Systems
- Modeling, Simulation, and Analysis of the Serial Link Systems
Audience
- Electrical engineers and PCB designers involved with design-oriented modeling, simulation, and analysis of pre-routed and post-routed high-speed parallel bus and serial link systems
Prerequisites
You must have a basic understanding of:
- Power and signal integrity issues in the high-speed parallel bus and serial link systems
- Transmission lines, S-parameters, and electrical modeling of PCB and IC packages
- Printed circuit board layouts, such as layers, planes, stackup, vias, dielectric constants, conductivity, etc.
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