$500 USB cable


Someone is trying to sell some fancy (used and 2 ft long) USB cable for $497.50. I am genuinely curious since I am no expert. What does this ultra expensive USB cable do to your audio system (besides transferring digital data)?
jkbtn
A little addition about synchronous data transfer. Assuming there is no buffer implemented in the dac (very unlikely) and all packets sent in correct (synchronous) order it would take 200 failed attempts to transfer a package before it would affect the sound stream.
People assign analog attributes to digital cables. Warmer, colder, brighter etc. I just wonder which bits are added, changed, or entirely missed when the sound turns warmer or brighter etc.? If bits are missed or added it will likely cause nasty noises (if not corrected by the error correction mechanism of the receiving end).

There is no error correction in S/Pdif transfer, but that is not the point.
S/Pdif is coded such way that word clock for D/A converter can be extracted from it (from transitions) to keep CDP and DAC synchronized. This clock has to be rock solid (no time jitter) otherwise additional sounds will be added on analog side. For instance, if you play pure 1000Hz tone and have a lot of 60Hz noise then your S/Pdif stream of 1s’ and 0’s might have 60Hz jitter (vibrate in time back and forth 60 times a second). It will produce on analog side pure 1000Hz tone plus (mainly) 940Hz and 1060Hz tones (sidebands). These tones will be at very low level but still audible, since not harmonically related to the root frequency of 1000Hz. Amplitude of these extra tones will be proportional to the amplitude of the vibration (jitter). Since music has a lot of tones there will be a lot of additional tones added that will be perceived as noise or lack of clarity. There is a lot of sources of jitter, digital cable being one of them. It might add jitter because of reflections in the cable affecting/deforming edge of transition or it might be susceptible to ambient electrical noise, that when added to signal affects recognition (threshold) point hence affecting moment when transition is recognized. Jitter might also be caused by noise added to signal in CDP or DAC itself. Since different digital cables affect jitter differently (one has better shielding while the other less reflections) there will be a difference in sound.

I have a hard time picturing an optical transmission of very slow data stream for 50 centimeters being much wrong.  A single optical cable of similar diameter is able to stream data for cities of millions for kilometers.  Do you have any data or measurements that suggest what you're saying is correct?  
I described how cables affect the sound and it has nothing to do with "data" being wrong.  Audio optical cable (Toslink) has different problems. Transmitter's transitions are very slow, making them susceptible to system noise induced jitter on both ends.  Measurements of jitter induced artifacts you can find in pretty much every Stereophile review of CDPs or DACs.  The fact that cables (digital or optical) induce jitter is basic EE.

You cannot compare simple transmission of music over Toslink (limitted by design to 33 ft) to optical data transmission, where LEDs were replaced by laser, light modulated by external device, different modulation etc.