That doesn't answer my question.
That said, if it can be built by a hobbyist, I'd like a part-by-part breakdown. Why give more money for something I can build myself and get the same effect? Especially considering the purpose I'm requesting it for.
It will only make love to you and give you blue balls and a swollen shaft if you make or acquire the appropriate case/body for it and if you program it correctly lol.
But i don't completely know what im doing with it yet, i may want to make a buttload of money from it and steal the competition's customers by selling a cheaper, more open and more reliable product designed to be untraceable or harder to track, easy to stop and erase viruses or other unwanted internet activity (using something like the ls or ps command to identify what is running and when (not where) especially when using a proprietary wireless internet technique (using a lower networking frequency/ies, such as a ham radio frequency, without slowing anything down when compared to the modern standard of internet speeds - so the idea may come with free internet if you dont want to be a licenced ham radio operator or if a volunteer-operated "ham networking center" is maintained and close by your location.
Money or word of mouth will make this idea take off.
I will give you a hint as to how it works - instead of arithmetic logic to manipulate data, use channels and timing and compare values in between input and output circuits (using AND logic gates) to "recall" desired values from a "magical" hard drive. Data streams (audio out, video out, networking) are derived from their respective count down timers that are given new values from the "magical" hard drive.
If quantum computers output garbage, then what would an "almost quantum computer" do in order to correct this problem - have you ever picked a suitcase lock before by going in order starting with "1111" before moving to "1112" and so on? How long does it take to guess the correct password in order? Is the rate of BINARY COUNTING controlled by a VOLTAGE CONTROLLED OSCILLATOR? And if a 4-bit counter is used to derive the data stream values by counting down, then what are the values of the 8-bit counter at the exact moment that the output controller timer (4 bit counter) reaches 0? Should the top 4 bits of the "magic" hard drive be used to update the 4 bit countdown timer and the bottom 4 bits be translated to hexadecimal and then transmitted or vice-versa?
I basically told you most of what the hardware portion consists of - it is a very, very, very long number problem that many, many, many, many other number problems can be derived from. A song file (audio, no video) can be stored as 2 hexadecimal characters or just one unicode character in length. A movie can be stored as 2 unicode characters.
(quantum computers wont work - each quantum computer would need an electromagnetic field directly in between the 2 communicating computers in order for the quantum entanglement network to work - so no quantum laptops unfortunately - this would violate the supersymmetry needed for the electrical signals to become entangled - they should stick with em field transmission for radio, tv and networking)
So, let me know if you need help with the "how to" splice datastream segments, merge them (file editing or processing) and if you need help with hardware addresses ("AND logic gates" to compare user inputs against the "if then" datastream storage structure - if user input = x, then execute the value at counter value 0 to the designated location. Separate each if-then segment with a set amount of datastreamed value 0s, and if both datastream value and timer update value both equal 0 then the circuit is in wait/listen mode. Unix and windows systems use a directory tree file structure, so have a root directory datastream with the subdirectories inside of the unimplemented portion of the datastream controller.
So use a 4-bit counter to control datastreamed output signals and use another 4 bit counter in the same output circuit to make the variables that are all files for the output circuit type - either audio, video or custom networking technique. Wifi is also possible as well, someone would need to make the programs for tcp/ip and browsers though and the radio circuitry would need to be able to tune all the way up to either 2.4 or 5 ghz - i want my finished project to be compatible with am, fm, tv, ham radio, and maybe the wifi/cellular em spectrum ranges - so tunable from the kilohertz ranges all the way up to at least 1 gigahertz.
The binary counters should be very high speed counters, asynchronous (reprogrammable), resettable (all 0s) and both up/down counting compatible. Audio output datastream interpreter should have at least a 300khz (20khz * 15 or 1-F in hexadecimal) count rate, video should have 600mhz count rate (40mhz * 15 for high quality video capable output signal).
I may end up going open source with this anyways.