Difference between revisions of "Programmable Logic Lessons"

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(Digital electronics recap - Tuesday, May 28, 2013 7:00 PM - 9:00 PM)
 
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=== Schedule ===
 
=== Schedule ===
==== [[Digital electronics recap|http://hackerspace.gr/wiki/PLD_Workshop_28_05_2013]] ====
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==== [[PLD_Workshop_28_05_2013|Digital electronics recap (click for slides)]] ====
* Binary system
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* Welcome to hackerspace.gr !
** What/How/Why, notations, formats -- http://en.wikipedia.org/wiki/Binary_numeral_system
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* Fast recap of digital electronics basics
* Bool algebra
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* Workshop page includes slides and useful links :)
** Basic stuff -- http://en.wikipedia.org/wiki/Boolean_algebra
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* Basic constructs
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** Gates, Adders, Mult, Mux, flip flops -- http://en.wikipedia.org/wiki/Logic_gates, http://en.wikipedia.org/wiki/Multiplexer, http://en.wikipedia.org/wiki/Flip-flop_%28electronics%29, ...
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* PLD Techonologies
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** What for, how do they work, etc -- http://en.wikipedia.org/wiki/Programmable_logic_device, http://en.wikipedia.org/wiki/Field-programmable_gate_array
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** Typical design workflow
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==== Tooling, VHDL/Verilog basics ====  
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==== [[PLD_Workshop_04_06_2013|Tooling, VHDL/Verilog basics (click for slides)]] ====  
 
* Xilinx tooling (we'll use it)
 
* Xilinx tooling (we'll use it)
 
** http://www.xilinx.com/support/download/index.html/content/xilinx/en/downloadNav/design-tools.html (*ISE*, _not_ Vivado)
 
** http://www.xilinx.com/support/download/index.html/content/xilinx/en/downloadNav/design-tools.html (*ISE*, _not_ Vivado)
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** We'll do some hands on basic stuff on our h/w !
 
** We'll do some hands on basic stuff on our h/w !
  
 
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==== [[PLD_Workshop_11_06_2013|More complicated structures (click for slides)]] ====
 
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==== More complicated structures ====
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* More digital design stuff
 
* More digital design stuff
 
** Clocked vs clockless/asynchronous design
 
** Clocked vs clockless/asynchronous design
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** We'll Implement something relevant to avoid too much boring theory
 
** We'll Implement something relevant to avoid too much boring theory
  
 
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==== [[PLD_Workshop_18_06_2013|Computer architecture (click for slides)]] ====
 
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==== Computer architecture ====
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* Introduction
 
* Introduction
** Buses/Protocols, basic design ideas
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* Implement a very basic cpu
** how is cpu design done
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* think together something more complicated for later on
** What are SoCs
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** Emulation/simulation
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* Think together a custom, minimal SoC
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** We'll actually implement this later on :)
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==== Computer architecture, part 2 ====
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* More work on the design we'll have
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** Implement it in software, see what tools are needed etc
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** Break it in blocks so we can work on the verilog part
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==== Computer architecture, part 3 ====
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* Implement the design in verilog
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* Explore perfomance/cost/etc
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** Let's make something fun with it -- perhaps a tiny brix clone or smth ?
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* General info about more complex cpu designs (closer to the curren generation of cpus) and about gpu/stream processing
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* General talk about sharing/working with open source hardware
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** http://opencores.org/, etc
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+
  
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==== [[PLD_Workshop_25_06_2013|Computer architecture, part 2 (click for slides)]] ====
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* talk about ISAs
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* More work on the design we have
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* play a bit with porting to verilog ?
  
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==== [[PLD_Workshop_02_07_2013|Computer architecture, part 3 (just workshop, no slides)]] ====
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* Brainstorming on exactly what we'll implement
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* Perhaps port the design to verilog ?
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* Look at the assembler and all :)
  
 
=== Hardware ===
 
=== Hardware ===
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* has cute hdmi output
 
* has cute hdmi output
  
 
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=== Slides ===
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https://github.com/pld-lessons/slides
  
  
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[[Category:Seminars]]
 
[[Category:Seminars]]
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[[Category:Projects]]

Latest revision as of 00:15, 13 June 2018

Description

Basic introduction into fpgas (and digital logic). This will have a lot of new stuff if you are a total begginer, you'll have to study abit to keep up :)

The plan is to have 3 introductory sessions, and then get into more hands on things. Hopefully we'll have our own (tiny and minimal) working cpu by the end of this !

The schedule will be adapted as we go on -- this is a rough plan

Prerequisite knowledge and skills

  • Basic understanding of programming
  • Basic knowledge of git (http://githowto.com/ can help you, we'll use git for examples and collaborating)
  • Github account (We'll host our stuff there)
  • A laptop (We do have some some spare computers in hackerspace, but you'll need to work on your own at home)

Doodle pool for date selection

http://www.doodle.com/yp99tnvzvq7ygwmy#table -> Begining Tuesday, May 28, 2013 7:00 PM - 9:00 PM, and generally Tuesdays 7 - 9


Schedule

Digital electronics recap (click for slides)

  • Welcome to hackerspace.gr !
  • Fast recap of digital electronics basics
  • Workshop page includes slides and useful links :)

Tooling, VHDL/Verilog basics (click for slides)

More complicated structures (click for slides)

  • More digital design stuff
    • Clocked vs clockless/asynchronous design
    • Clock domains, etc
    • Buffers, fifo, pipelines, etc
    • We'll Implement something relevant to avoid too much boring theory

Computer architecture (click for slides)

  • Introduction
  • Implement a very basic cpu
  • think together something more complicated for later on

Computer architecture, part 2 (click for slides)

  • talk about ISAs
  • More work on the design we have
  • play a bit with porting to verilog ?

Computer architecture, part 3 (just workshop, no slides)

  • Brainstorming on exactly what we'll implement
  • Perhaps port the design to verilog ?
  • Look at the assembler and all :)

Hardware

Papilio One - 500K - https://www.sparkfun.com/products/11158

  • Xilinx Spartan 3E/500K gates

Atlys - Spartan6 - http://www.digilentinc.com/Products/Detail.cfm?NavPath=2,400,836&Prod=ATLYS&CFID=1733993&CFTOKEN=46850973

  • has cute hdmi output

Slides

https://github.com/pld-lessons/slides


Related material



Useful Links



Contact

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