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The concept for the dice casing. The wood is cut via a CO2 laser, and delivered mail order from the people at Ponoko. This has the advantage that if anyone wanted to reproduce the casing independently, the designs could be repeat-ordered.
The brains of the quantum dice from DIY Embedded at $25 a throw. The processing power of these USB keys is roughly equivalent to a ZX81 or a BBC micro from the mid 80's; (likewise the desktop computer of the early 2000's is now a single-board computer). The largest component is the USB plug. The processor (black square) and 2.4 GHz RF antenna (blue lozenge) are roughly the same size.
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I wrote a python script to perform the translation between dice face and LED index: Check out the source file dice.py. We might well want to revisit the mapping between LED and bit position as the hardware develops, in which case we can rerun the script.
I'm always surprised at the quality pieces of software that are available to carry out design work, at an amazing discount (i.e. free) to people who are in education and schools.
Given all this stuff is available, I'm interested to find out whether the quantum dice project could be accomplished without spending a penny on computer software (other than pre-installed software such as Windows). I'm agnostic as to which operating system to use; we'll use it if does the job at zero (or minimal) additional cost, and in fact I'm going to end up polytheistic by worshiping at the altars of both Windows and Linux.
I started with a blank Lenovo that came with only Windows 7 Home and downloaded software packages until the machine was ready to use - at the end of this process the files I'd collected were:
The loader from Nordic Semiconductor used to to program the dice only runs on 32-bit operating systems. I therefore installed Ubuntu 11 32-bit desktop edition, and mono, the open source equivalent of C# in order to be able to talk to the USB keys
Ubuntu 11.10 32-bit Desktop Edition
monodevelop
mono-complete
libusb
libusb-dev
sdcc
After this festival of software installation, we are ready to start the development process.
Quantum mechanics includes some pretty mind-blowing effects which are all-too-frequently buried beneath a patina of mathematics. Why do people think the predictions of quantum mechanics are in any way bizarre? - Perhaps because people first encounter quantum mechanics as adults, after "classical" ideas have taken root and coloured perceptions of how the world should work.
What would happen if we presented the essential features of quantum mechanics in an intuitively obvious format, accessible to young children and adults alike? What would someone who had lived their entire life experiencing quantum mechanics as "normal" do when they got to University? What new insights would occur to someone who regarded every quantum effect as natural, and had learnt the essence of quantum mechanics at the same time as learning to walk and learning to speak?
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