Event

Title:

Designing for Performance

Start date:

March 01

End date:

- March 02

Start time:

09:00 am

End time:

05:00 pm

Location:

Xilinx Learning Center (4055 Valley View Lane #200, Dallas, TX, 75244)

Registration:

Description:

Attending the Designing for Performance class will help you create more efficient designs. This course can help you fit your design into a smaller FPGA or a lower speed grade for reducing system costs. In addition, by mastering the tools and the design methodologies presented in this course, you will be able to create your design faster, shorten your development time, and lower development costs.

* This course focuses on the Spartan-6 and Virtex-6 architectures. Check with your local Authorized Training Provider for the specifics of the in-class lab board or other customizations.

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

Describe the architectural features of the Virtex-6 FPGA and Spartan-6 FPGAs
Create and integrate cores into your design flow by using the CORE Generator™ software system
Describe the clocking features of the Virtex-6 and Spartan-6 FPGAs and how they can be used to improve performance
Increase performance by duplicating registers and pipelining
Increase system reliability by adding an appropriate synchronization circuit
Describe different synthesis options and how they can improve performance
Describe a flow for obtaining timing closure
Pinpoint design bottlenecks by using Timing Analyzer reports
Apply advanced timing constraints to meet your performance goals
Use advanced implementation options to increase design performance

Course Outline

Day 1

Review of Essentials of FPGA Design
Designing with FPGA Resources
CORE Generator Software System
Basic FPGA Clock Resources
Virtex-6 and Spartan-6 FPGA Clock Resources
Lab 1: Designing With FPGA Resources
FPGA Design Techniques
Synthesis Techniques
Lab 2: Synthesis Techniques

Day 2

Achieving Timing Closure
Lab 3: Review of Global Timing Constraints
Timing Groups and OFFSET Constraints
Path-Specific Timing Constraints
Lab 4: Achieving Timing Closure
Advanced Implementation Options
Lab 5: Designing for Performance
Lab 6: FPGA Editor Demo (optional)
ChipScope Pro Software (optional)
Lab 7: ChipScope Pro Software (optional)

Lab Descriptions

Lab 1: Designing with FPGA Resources – Create block RAM and clocking FPGA cores using the CORE Generator™ tool. Instantiate these cores and other clock resources and implement the design.
Lab 2: Synthesis Techniques – Experiment with different synthesis options (including timing constraints, resource sharing, synthesis optimization effort, and register balancing) and view the results.
Lab 3: Review of Global Timing Constraints – Use the Constraints Editor to enter global timing constraints.
Lab 4: Achieving Timing Closure – Review timing reports and enter path-specific timing constraints to fully describe your performance requirements.
Lab 5: Designing for Performance – Improve performance and maximize results solely with implementation options and SmartXplorer.
Lab 6: FPGA Editor Demo (optional) – Use the FPGA Editor to view a design and add a probe to an internal net.
Lab 7: ChipScope Pro Software (optional) – Add an internal logic analyzer to a design to perform real-time debugging.