![]() Identify your company’s core competencies. Re-use successful designs (cabling, mobility, modularity), components you know you can source, and software architecture that you know works well. No matter how tempted you are to start with a clean sheet of electronic paper, build on your past success (and what you learned along the way). Robotic engineers are inherently creative. Innovation does not always mean starting from scratch. Don’t reinvent the wheelĪs you design new products, keep it simple. The outcome of DFx? Optimized cost and quality while addressing the unique needs of each individual customer.Ĭirtronics, a Milford, NH-based contract manufacturer that has worked with some of the top robotics companies in the world, shares these 10 essential DFx tips for robotics design to help you navigate as you transition from design to manufacturing. Also provides an overview of the configuration and reconfiguration processes.The purpose of design for excellence (DFx) is to achieve alignment between the design of a product and production processes – as early as possible. ▪ Introduction to Dynamic Function eXchange (DFX)Įxplains what Dynamic Function eXchange is and defines the terminologies used in DFX. ![]() ▪ Implement a DFX system in an embedded environment using the Vitis IDE ▪ Debug a DFX designs using the Vivado Design Suite ▪ Direct JTAG connection, floorplanning, and timing constraints and analysis ▪ Implement a Dynamic Function eXchange system using the following techniques ▪ Identify how Dynamic Function eXchange affects various silicon resources, including block RAM, IOBs, fabric, and MGTs ▪ Implement a DFX system using the DFX Controller IP ▪ Use the ICAP and PCAP components to deliver the partially reconfigurable systems ▪ Generate the appropriate full and partial bitstreams for a DFX design ▪ Define DFX regions and Reconfigurable Modules with the Vivado® Design Suite ▪ Describe what Dynamic Function eXchange is The in-class lab board or other customizations.Īfter completing this comprehensive training, you will have the ▪ Demo board: Zynq® UltraScale+™ MPSoC ZCU104 board*Ĭheck with your local Authorized Training Provider for the specifics of ▪ Vitis™ unified software platform 2021.2 ▪ Working HDL knowledge (VHDL or Verilog) ▪ Designing FPGAs with the Vivado Design Suite 4 course ▪ Designing FPGAs with the Vivado Design Suite 3 course ▪ Designing FPGAs with the Vivado Design Suite 2 course Who Should Attend? – Digital designers who have a working knowledge of HDL (VHDL or Verilog) and the Xilinx design methodology and who have need to understand Dynamic Function eXchange techniques Price: $1600 or 16 Xilinx Training Credits ▪ Employing best practice coding styles for a DFX system ▪ Applying appropriate debugging techniques on DFX designs ▪ Implementing DFX in an embedded system environment ![]() ▪ Using the DFX Controller and DFX Decoupler IP in the DFX process ▪ Identifying best design practices and understanding the subtleties of the DFX design flow ![]() This course covers both the tool flow and mechanics of successfully creating a DFX design. Learn how to construct, implement, and download a Dynamic Function eXchange (DFX) FPGA design using the Vivado® Design Suite.
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