1 / 31

Introductory project

Introductory project. Development systems. Design Entry Foundation ISE Third party tools Mentor Graphics: FPGA Advantage Celoxica: DK Design Suite Design Synthesis XST: Xilinx Synthesis Technology Mentor: Leonardo Spectrum Synplicity : Synplify Pro Celoxica: DK Design Suite

marion
Download Presentation

Introductory project

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Introductory project

  2. Development systems • Design Entry • Foundation ISE • Third party tools • Mentor Graphics: FPGA Advantage • Celoxica: DK Design Suite • Design Synthesis • XST: Xilinx Synthesis Technology • Mentor: Leonardo Spectrum • Synplicity: Synplify Pro • Celoxica: DK Design Suite • Simulation • Mentor: Modelsim • Aldec: Active-HDL • Celoxica: DK Design Suite

  3. Design Entry Schematic Hardware description language (VHDL, Verilog) Intellectual Property IP blocks Xilinx CoreGen Design Synthesis High level description -> Circuit Design Flow

  4. Design Verification Behavioral Simulation Checking high level description of the circuit Functional Simulation Checking synthesized circuit Timing Simulation Static Timing Analysis Searching critical paths In-Circuit Verification Design Flow

  5. Optimization (NGDBuild) Merge multiple design files into a single netlist Mapping (MAP) Group logical symbols from the netlist (gates) into physical components (slices and IOBs) Design Flow

  6. Place & Route (PAR): Place components onto the chip, connect the components, and extract timing data into reports Bitstream Generation (BitGen) Create configuration file Design Flow

  7. Create new project • Select:File-> New Project • Choose project directory and name (myand2) • Set top-level source type to HDL

  8. Select: Family: Spartan3E Device: XC3S500E Package: FG320 Speed -5 Synthesis tool: XST Simulator: Modelsim-SE Mixed Preferred Language: VHDL Set Device Properties

  9. Click New Source… Select VHDL Module from the list Choose File name (myand2) Create new source

  10. Set two inputs (a,b) and one output (c) Define Module

  11. Project Navigator • Source files • Built-in editor / Report summary • Processes / Utilities • Console

  12. Simple VHDL source

  13. Right click myand2 - behavioral in the sources window and select New Source Select VHDL Test Bench from the list Choose File name (myand2_tb) Create Testbench

  14. Associate testbench

  15. From the Sources for: list select Behavioral Simulation Open myand2_tb Find testbench files

  16. Create stimulus

  17. Simulation • In the Processes for Source window open ModelSim Simulator • Right click Simulate Behavioral Model and select Properties…

  18. Set Simulation Resolution to 1ns Set Simulation Properties

  19. The user interface of the ModelSim VHDL simulator

  20. Compile, Compile All, Simulate, Break • Restart, Run length, Run, Continue Run, • Run –All, Step, Step Over, Profiling

  21. Insert Cursor, Delete Cursor • Previous Transition, Next Transition • Zoom In/Out, Zoom Full • Zoom to Active Cursor

  22. Set Sources for to Implementation Select myand2 - Behavioral In the Processes for window double click Synthesize - XST Design Synthesis

  23. View RTL Schematic

  24. View Technology Schematic

  25. Right click myand2 - behavioral in the sources window and select New Source Select VHDL Test Bench from the list Choose File name (myand2) Create Implementation Constraints

  26. In the Processes window open User Constraints Select Floorplan I/O – Pre-Synthesis Assign Package Pins

  27. Set Loc a: H18 b: G18 c: J14 Assign Package Pins

  28. In the Processes for window double click Implement Design Check Place and Route Report for LOCed IBUFs/IOBs Implement Design

  29. Right click Generate Programming File in the Processes for window and select Properties… Set Startup Options / FPGA Start-Up Clock to JTAG Clock Double click Generate Programming File Set Programming File Properties

  30. Attach and Turn On Nexys2 board Start Digilent / Adept / ExPort Click Initialize Chain Bypass configuration ROM Configuring the device

  31. Browse to the project directory Select myand2.bit Click Program Chain Test your first circuit implemented on FPGA Configuring the device

More Related