Physical computing systems that take advantage of quantum effects.
What kind of quantum effects, and why does that matter?
Entanglement and superposition: Entanglement lets us do unusual, head-scratching kinds of things like teleportation. Superposition lets us harness the almost unimaginable potential of quantum mechanics to do things that conventional computers can never do.
How can you ever explain that in a podcast?
To really understand the details, you must have math, but math and audio formats are not so compatible. So I use analogies, and throw in some pithy quotes from Einstein and hope that does the trick.
Lots of work going on to build quantum processors (QPUs) that use quantum memory and, get this, will at some point actually do error correction. There are programming frameworks and rudimentary compilers to compile down python code all the way down to microwave pulses and laser pulses and there is control machinery to gather back the signals and interpret them to ones and zeros. Quantum computers will be securely networked using quantum protocols and we’ll all live happily ever after in a quantum computing world.
Questions? Please leave suggestions if you want to dive a bit deeper in some topic areas - it’ll encourage me to do more episodes.
It wasn't enough information for me to build my own quantum computer, but I did find it interesting. Looking forward to episode two.
Note to Verbose Commenters
If you can't fit everything you want to say in the comment below then you really should record a response show instead.
Note to Spammers
All comments are moderated. All links are checked by humans. We strip out all html. Feel free to record a show about yourself, or your industry, or any other topic we may find interesting. We also check shows for spam :).