Course Description
This course provides a system-level understanding of AMD Versal™ adaptive SoC serial transceivers. Transceiver architecture, IP
generation, simulation, and implementation are covered. Additional information on PCB design issues is also covered.
The focus is on:
▪ Constructing a system using Versal device serial transceivers by:
▪ Selecting the appropriate IP for an application
▪ Configuring Transceivers Wizard IPs
▪ Using transceiver IP example designs
▪ Simulating and implementing transceiver IPs
▪ Identifying the advanced capabilities of the serial transceivers, including using IBERT and eye scan options
▪ Accessing the appropriate reference material for board design issues involving signal integrity, the power supply, reference
clocking, and trace design
What’s New for 2024.2
▪ All modules have been updated to the new GT flow
▪ All labs have been updated to the latest software versions
▪ New lab: GTM implementation and verification
Level – ACAP 3
Course Details ▪ 1 day ILT /9
Course Part Number – ACAP-TRX
Who Should Attend?
▪ Hardware designers who want to create applications using serial transceivers
▪ System architects who want to leverage the key advantages of serial transceivers
Prerequisites
▪ Knowledge of Verilog or VHDL
▪ Familiarity with logic design (state machines and synchronous design)
▪ Some experience with Vivado™ implementation
▪ Some experience with a simulation tool, preferably the Vivado simulator
▪ Familiarity with serial I/O basics and high-speed serial I/O standards is also helpful
Software Tools
▪ Vivado Design Suite 2024.2
Hardware
Architecture: All Versal adaptive SoC devices
▪ Evaluation board: Versal VCK190 / VPK120 boards
After completing this comprehensive training, you will have the necessary skills to:
▪ Describe and utilize the building blocks of the serial transceivers in the Versal devices
▪ Describe and utilize the ports and attributes of the transceivers
▪ Design, simulate, and implement the transceivers
▪ Utilize transceiver debugging options
▪ Identify transceiver use cases
▪ Describe transceiver board design requirements
Course Outline
Day 1
▪ Course Introduction
Introduces the course and discusses serial transmission. {Lecture}
▪ Serial Transceiver Shared Features
Describes the structure and shared features, such as clocking and reset schemes, of the Versal device serial transceivers. {Lecture}
▪ Serial Transceiver Architecture
Discusses the architecture and functionality of the transmit and receive functional blocks. {Lecture}
▪ Transceiver IP Generation
Demonstrates usage of the Transceivers Wizard. {Lecture, Lab}
▪ Transceiver IP Simulation
Covers how to perform transceiver design simulation. {Lecture, Lab}
▪ Transceiver IP Implementation
Illustrates how to perform transceiver implementation. {Lecture, Lab}
▪ Transceiver Use Cases
Discusses using the transceivers for several protocol applications, including the PCI Express®, Ethernet, Interlaken, JESD204, and Aurora interfaces. {Lecture}
▪ Transceiver Board Design
Describes board design issues involving signal integrity, the power supply, reference clocking, and trace design. {Lecture}
▪ GTM Transceiver
Reviews GTM transceiver-specific design generation, simulation, implementation, and verification on real hardware. {Lecture, Labs
targeting the VPK120 board}
PDF Version: Designing Versal Adaptive SoC Serial Transceivers