It is well known that .wav is a format used for uncompressed audio files. On the other hand, .mp3 files are usually the result of audio files after compression. For instance, only the larger of two tones that are too close in frequency (so that they mask each other) are retained after compression. Also, quantization noise is introduced into parts of the time or frequency spectrum that are not perceptually important (such as frequencies that are too high or too low). Clearly, a lot of (perceptually) redundant information is discarded, which allows for the reduction in file size.

My question is: why is a .wav file obtained from a .mp3 much larger in size than the .mp3 file? From an information-theoretic view, no additional information relevant to the song could have been added, so why the increase in size? Is it just a consequence of how data is stored in the .wav format? Any answers/references would be much appreciated. Thanks!

  • Header of .wav is larger maybe? I think the MP3 header is very small. How much larger are we talking about here? – user2074102 Mar 24 '13 at 0:43
  • @annoying_squid, Sorry, you're completely wrong. Hang on, I'm answering the question now. – Brad Mar 24 '13 at 0:44
  • @Brad That's why I put my response in the comment section and used the operative term 'maybe?'. Don't hurt to try. – user2074102 Mar 24 '13 at 0:46
  • @annoying_squid Going from .mp3 to .wav, I've seen the file size to increase by ~10 times. – sai Mar 24 '13 at 0:51
  • See also: avp.stackexchange.com/questions/624/… – Brad Mar 24 '13 at 0:51

The way the two store audio is night and day different. Simply put, a WAV file (which is PCM audio) is storing much more data than the MP3 file is.

PCM audio quantifies the pressure at each sample. There are many samples taken. CD-quality audio uses 44,100 samples per second, per channel. The red lines here are samples:

enter image description here

Graph from: http://en.wikipedia.org/wiki/Sampling_rate

MPEG-1 Layer 3 (and many other lossy audio compression codecs) use a different method for encoding audio. Rather than measuring pressure over time, they measure frequency components over a time. MP3 encoders determine which frequencies are present in a signal for a short period of time, called a frame. A frame may be 576 samples or so long. For those samples, they playback a set of frequencies.

Now, all of this is overly simplified. MP3 has a lot of nice tricks to filter out frequencies that will be masked by others, and some nice smoothing of the playback to make it sound close to the original.

You might find my answer here a bit more in depth: https://video.stackexchange.com/a/635/129

  • Thanks! I have been studying about polyphase filters and psychoacoustic models to try and understand mp3. So you're saying that .wav is just inherently an inefficient way of storing audio since it works in the time-domain, while mp3 stores audio in the frequency domain - which allows it to get away with reproducing the music (the pressure levels) on the fly instead of storing it? In some sense, there is a tradeoff between storage and computation - wav requires less computation, while mp3 requires less storage? – sai Mar 24 '13 at 0:58
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    Good answer. This useful article ni.com/white-paper/3016/en#3 talks about sampling and frequency. – user2074102 Mar 24 '13 at 1:02
  • @tai A re-sampled MP3 is going to be larger in PCM format. Obviously the greater quality of PCM (higher sampling rate) you choose the larger the file will be. So at a certain point PCM quality is wasteful as it doesn't improve the fidelity. The fidelity is limited by the MP3 itself. – user2074102 Mar 24 '13 at 1:16
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    @sai, I would argue that PCM is not "inefficient"... just different! But yes, you have the right idea. PCM requires no computation. DACs convert digital sample values to analog voltage levels which go to an amplifier and drive speakers directly. MPEG decompresses to PCM. PCM is the more "native" way to represent audio digitally. – Brad Mar 24 '13 at 1:33

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