Here's one of the best articles I've come across:
TNT Audio DIGITabilis: crash course on digital audio interfaces
TNT Audio DIGITabilis: crash course on digital audio interfaces
Article explaining how CD players work
Here's one of the best articles I've come across: TNT Audio DIGITabilis: crash course on digital audio interfaces |
My electrical engineering professor told us this about CD data retrieval. Music CD's came first. There were errors in reading the data, but they were small enough that our ears did not detect the difference. :-) For the data CD's to become useful, error correction algorithms were developed. Your data cannot have any errors in it, especially when you are dealing with data like your bank statement. The data you get off the CD must match perfectly or data is of no use. Most of the differences between CD players are going to be how jitter is handled and how the analog output is done. My professor was one of the researchers who developed the blue laser technology. The pits that mark the data on the surface of the CD are smaller with the blue laser, resulting in greater storage. |
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Elizabeth..."Educated guessing" is not an error correcting code. The recovered data, that may contain errors, includes redundant data such that the correct original bits are determined. I won't try to explain it. Google "CRC code". Digital data transmission and storage today almost always involves error correcting coding. It is NOT a band aid for hardware deficiencies that cause errors. By using an error correcting code the transmission bandwidth can be increased to the point where some acceptable frequency of errors, depending on the degree of redundancy, occurs. Although some bandwidth is lost to the redundant data, the overall result is beneficial. |
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