Designing FPGAs Using the Vivado Design Suite 4

Course Description

This course tackles the most sophisticated aspects of the Vivado® Design Suite and Xilinx hardware. This course enables you to use the advanced capabilities of the Vivado Design Suite to achieve design closure. This is the final course in the Designing FPGAs Using the Vivado Design Suites series.

PrintLevels

FPGA 4

Course Duration

2 days

Audience

Engineers who seek advanced training in using Xilinx tools to improve FPGA performance and utilization while also increasing productivity.

Prerequisites

Software Tools

  • Vivado System Edition 2020.1

Hardware

  • Architecture: UltraScale™ family*
  • Demo board: Zynq® UltraScale+™ ZCU104 board*

* This course focuses on the UltraScale and 7 series architectures. Check with your local Authorized Training Provider for the specifics of the in-class lab board or other customizations.

Skills Gained

After completing this comprehensive training, you will have the necessary skills to:

  • Apply appropriate I/O timing constraints and design modifications for source-synchronous and system-synchronous interfaces
  • Analyze a timing report to identify how to center the clock in the data eye
  • Use Tcl scripting in non-project batch flows to synthesize, implement, and generate custom timing reports
  • Utilize floorplanning techniques to improve design performance
  • Employ advanced implementation options, such as incremental compile flow, physical optimization techniques, and re-entrant mode as last mile strategies
  • Utilize Xilinx security features, bitstream encryption, and authentication using AES for design and IP security
  • Identify advanced FPGA configurations, such as daisy chain and gangs, for configuring multiple FPGAs in a design
  • Debug a design at the device startup phase to debug issues related to startup events, .such as MMCM lock and design coming out of reset

Course Outline

Day 1

  • UltraFast Design Methodology: Design Closures {Lecture}
  • Scripting in Vivado Design Suite Non-Project Mode {Lecture, Lab}
  • Hierarchical Design {Lecture}
  • Managing Remote IP {Lecture, Lab}
  • I/O Timing Scenarios {Lecture}
  • System-Synchronous I/O Timing {Lecture, Demo}
  • Source-Synchronous I/O Timing {Lecture, Lab}
  • Timing Constraints Priority {Lecture}
  • Case Analysis {Lecture}
  • Introduction to Floorplanning {Lecture}
  • Design Analysis and Floorplanning {Lecture, Lab}
  • Congestion {Lecture}
  • Introduction to the Xilinx Tcl Store {Lecture, Demo}
  • Incremental Compile Flow {Lecture, Lab}

Day 2

  • Physical Optimization {Lecture, Lab}
  • Vivado Design Suite ECO Flow {Lecture, Lab}
  • Power Management Techniques {Lecture}
  • Daisy Chains and Gangs in Configuration {Lecture}
  • Bitstream Security {Lecture, Lab}
  • Vivado Design Suite Debug Methodology {Lecture}
  • Trigger and Debug at Device Startup {Lecture, Demo}
  • Trigger Using the Trigger State Machine in the Vivado Logic Analyzer {Lecture, Lab}
  • Debugging the Design Using Tcl Commands {Lecture, Lab}
  • Using Procedures in Tcl Scripting {Lecture}
  • Using Lists in Tcl Scripting {Lecture}
  • Using regexp in Tcl Scripting {Lecture, Lab}
  • Debugging and Error Handling in Tcl Scripting {Lecture}

Topic Descriptions

Day 1

  • UltraFast Design Methodology: Advance Techniques –Introduces the UltraFast™ design methodology guidelines covered in this course.
  • Scripting in Vivado Design Suite Non-Project Mode – Write Tcl commands in the non-project batch flow for a design.
  • Hierarchical Design – Overview of the hierarchical design flows in the Vivado Design Suite.
  • Managing Remote IP – Store IP and related files remote to the current working project directory.
  • I/O Timing Scenarios –Overview of various I/O timing scenarios, such as source- and system-synchronous, direct/MMCM capture, and edge/center aligned data.
  • System-Synchronous I/O Timing – Apply I/O delay constraints andperform static timing analysis for a system -synchronous inputinterface.
  • Source-Synchronous I/O Timing – Apply I/O delay constraints and perform static timing analysis for a source- synchronous, double data rate (DDR) interface.
  • Timing Constraints Priority – Identify the priority of timing constraints.
  • Case Analysis – Understand how to analyze timing when usingmultiplexed clocks in a design.
  • Introduction to Floorplanning – Introduction to floorplanning and how to use Pblocks while floorplanning.
  • Design Analysis and Floorplanning – Explore the pre- and post- implementation design analysis features of the Vivado IDE.
  • Congestion – Identifies congestion and addresses congestion issues.
  • Introduction to the Xilinx Tcl Store – Introduces the Xilinx Tcl Store.
  • Incremental Compile Flow – Utilize the incremental compile flow whenmaking last – minute RTL changes.

Day 2

  • Physical Optimization – Use physical optimization techniques for timing closure.
  • Vivado Design Suite ECO Flow – Use ECO flow to make changes to a previously implemented design and apply changes to the original design.
  • Power Management Techniques – Identify techniques used for low power design.
  • Daisy Chains and Gangs in Configuration –Introduces advanced configuration schemes for multiple FPGAs.
  • Bitstream Security – Understand the Xilinx bitstream security features such as readback disable, bitstream encryption, and authentication.
  • Vivado Design Suite Debug Methodology – Understand and follow the debug core recommendations. Employ the debug methodology for debugging a design using the Vivado logic analyzer.
  • Trigger and Debug at Device Startup – Debug the events around the device startup.
  • Trigger Using the Trigger State Machine in the Vivado Logic Analyzer – Use trigger state machine code to trigger the ILA and capture data in the Vivado logic analyzer.
  • Debugging the Design Using Tcl Commands – Use Tcl scripting for VLA designs for adding probes and making connections to probes.
  • Using Procedures in Tcl Scripting – Employ procedures in Tcl scripting.
  • Using Lists in Tcl Scripting – Employ lists in Tcl scripting.
  • Using regexp in Tcl Scripting – Use regular expressions to find a pattern in a text file while scripting an action in the Vivado Design Suite. {Lecture, Lab}
  • Debugging and Error Handling in Tcl Scripts – Understand how to debug errors in a Tcl script.

FPGA


Datum
06 oktober 2021 - 07 oktober 2021

Locatie
Core|Vision
Cereslaan 24
5384 VT
Heesch

Prijs
€ 0,00
of
20 Xilinx Training Credits

Informatie
Training brochure

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