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Our project material for the Computer Architecture course for Computer Engineering students at Politecnico di Torino (Polytechnic University of Turin)

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Computer Architecture Project

This is the git repository containing most of the work done by Andrea Fanti and Luca Rinelli for the Computer Architecture course project. We are using a PYNQ-Z1 by Digilent, based on the Xilinx Zynq-7000.

"Real-time" edge detection (HDMI/DVI passthrough)

The goal is to take the stream from the HDMI IN, retransmit it on the HDMI OUT in real time and at the same time perform the edge detection using Sobel operator, the result of the edge detection are showed on the frame immediately after the one on which it is computed. See the folder dvi_edge_detector.

  • State: correcting warnings on gate clocks, no signal on the monitor

Sub projects index

Look for a readme file inside the project folders to more detailed explanation

  • hdmi_out_test, simple hdmi out test with colors (and an easter egg!)
  • test_hdmi_filter, simple negative filter on an hdmi input that is then transmitted in output real-time
  • others... not all working or completed!

Generic guide to program the board (to be moved probably)

note: The steps illustrated here are specific for the Digilent PYNQ-Z1 board.
They still may be useful for other boards too


BUTTONS

  • PROG (Program Push Switch): resets the PL and shuts down the DONE led
  • SRST (System Reset): resets the zynq device (CPU, RAM & PL) without affecting the debug environment (for instance, the breakpoints remain unchanged)

DICTIONARY

  • PL = Programmable Logic (the part similar to a "normal" FPGA)
  • PS = Processing System (ARM CPU, RAM & other cool things)

GENERATE & LOAD a .bit FILE ON ISE

  1. make a new project with:
    family: zynq-7000
    part: xc7z020
    package: clg400
    speed: -1
    use the xc7z020-1-clg400 for the pynq-z1 board
    all these info are printed directly on the chip
  2. write the program (or use the schematic editor)
  3. add a new source file (Implementation Contraints File) (extension .ucf)
    • write NET "X" LOC "PIN" to map the I/O net to the pin PIN on the board (read the refence guide to know the pin names as seen on the chip)
    • some pins have a 1.8V input/output, others have 3.3V. This has to be specified using IOSTANDARD = LVCMOS18 (this for 1.8V)
  4. on the Design tab select the main file select Implement Design below
  5. if no errors, you can do Generate Programming File
  6. load the .bit file using Xilinx SDK from Vivado (in the menu: Xilinx/program FPGA/)
    • you can try selecting the device to see if the board has been recognized)
    • Vivado can also be directly used
  7. when the file has been loaded, the DONE led (LD12) lights up on the board

note that for all this only the microUSB cable is needed

note also that every configuration is lost when the board is powered down

GENERATE & LOAD A .bit FILE ON Vivado IDE

The steps are very similar to the ones for ISE. The difference is that

  • you have to write the program using VHDL (bye bye .sch !)
  • the constraints file is in .xdc format
    • more difficult (and long) syntax
    • easier to uncomment and modify lines from the so-called master XDC file of this specific board

BOOT

the boot mode is selected by the jumper JP4 (shorting 2 pins directly on the board, upper-left corner)

  • SD: boot from microSD
  • QSPI: probably not useful
  • JTAG: processor waits for a software to be loaded by an host PC using Xilinx tools
    • this can also be used to program without the use of the processor. the problem is that changes are not persistent

JP5 controls from where the power arrives (microUSB or J18)

PROBLEMS

  • connecting to the jupyter_notebooks via firefox doesn't work (as of 05/2018),use chrome
  • the chip become very hot when booted in SD mode (the CPU works a lot)
    • a non-electrically-conductive dissipator can be used to solve this

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Our project material for the Computer Architecture course for Computer Engineering students at Politecnico di Torino (Polytechnic University of Turin)

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