Anti-Static
--------------

Great video about static disipative and static shielding bagies from EEVblog:
<http://www.eevblog.com/2012/02/25/eevblog-247-anti-static-bag-myth-revisted/>

Summary: "pink" bags and tubes just prevent static buildup (regular bubble or
plastic wrap can generate hundreds or thousands of volts pretty easily just by
rubbing; non-conductive foam is pretty nasty too). Silver/metalic baggies
actually prevent external discharges or shocks from harming ICs inside. If you
use a shielding bag, you still need to make sure all the materials inside will
not build up a charge. 

Random Number Generators
----------------------------

- `Wikipedia overview <http://en.wikipedia.org/wiki/Hardware_random_number_generator>`_
- `Wikipedia comparison of devices <http://en.wikipedia.org/wiki/Comparison_of_hardware_random_number_generators>`_
- `Entropy Key <http://www.entropykey.co.uk>`_: a $50 USB key using avalanche
  noise from two P-N junctions; lots of support and features. 
- Overview of cheap avalanche technique: http://web.jfet.org/hw-rng.html
- whirlygig CPLD-based source: http://warmcat.com/_wp/whirlygig-rng/
- a bunch of resources: http://www.cs.berkeley.edu/~daw/rnd/
- more: http://robertnz.net/rng_rep.htm
- one open design (as a shield): http://1010.co.uk/org/notes.html#45 
- IEEE article: http://spectrum.ieee.org/computing/hardware/behind-intels-new-randomnumber-generator/0
- basic design: http://www.cryogenius.com/hardware/isarng/ http://www.cryogenius.com/hardware/rng/

Breakdown of the base-emitter junction of a 2N3904 happens at about 6v,
accoding to: http://sentex.ca/~mec1995/tutorial/xtor/xtor6/xtor6.html

See also:

- http://en.wikipedia.org/wiki/A_Million_Random_Digits_with_100,000_Normal_Deviates
- http://en.wikipedia.org/wiki/Nothing_up_my_sleeve_number

STM32 Toolchain Guides
-------------------------

"STM32/ARM Cortex-M3 HOWTO: Development under Ubuntu (Debian)" (from
fun-tech.se: http://fun-tech.se/stm32/)