iPod: The Missing Manual (Missing Manuals)
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The era of modern digital audio began in the early 1980s. A new, small, shiny format called the audio compact disc, developed by Sony and Philips, began to appear in music stores alongside albums on tapes and vinyl records. Unlike analog tapes and LPs, audio CDs stored music in digital form, and produced a bright, clean sound with pristine clarity. (Some audiophiles still prefer the "warmer" sound of vinyl, not to mention the expansive canvas that records provided for detailed album artwork, but many have accepted the CD.) 1985 was a pivotal year for the CD. The format's popularity got a huge boost from its first big seller, Brothers in Arms by Dire Straits, and a variation on the audio CD technology called CD-ROM (Compact Disc, Read-Only Memory) edged into the computer market as a way to play multimedia files and interactive programs. 3.1.1 When CD Met PC
Over the years , a CD drive became a standard component of a computer. On most audio CDs, songs are stored in a format called CD-DA (Compact Disc, Digital Audio), which is essentially the same thing as AIFF format. On a Windows PC, if you inspect the contents of a music CD, you see a screen full of names like "Track01.cda." These turn out to be nothing but 1 KB files that point to the hidden audio tracks, as shown in Figure 3-1. Mac OS X displays the audio tracks in all their hefty glory as AIFF files, right in the Finder window. Figure 3-1. Left: Here's what a desktop window looks like for a music CD inserted into a Mac. It looks just like an MP3 playlist, except that these AIFF files are much larger. Your computer can play these high-quality files, but they eat up a lot of hard drive space. Right: Audio files are more bashful when a disc is inserted into a Windows drive. The tracks on this Prince CD remain hidden behind tiny pointer files and can be lured out only with CD-extraction software.
Even if you can't see the audio files, you can still extract them from the CD with software. "Extracting audio tracks" may sound like an uncomfortable medical procedure, but it means copying them from the CD to your hard drive in a computer-readable format. You may also hear the term ripping CDs, which is the same thing. And while you're digesting new- millennium terminology: Once the music files are on your Mac or PC, you encode them into a compressed audio format like MP3 or AAC, so that more music fits on a CD that you burn ”or on a music player like the iPod. 3.1.2 Compressed Audio Formats
Up until a few years ago, the MP3 format was the only game in town for playing quality song files on your computer, whether downloaded from the Internet or taken from CDs. MP3 still dominates the Internet, but other formats ”like Ogg Vorbis (a new audio format favored by Linux fans and the open -source software crowd ; details at http://www.vorbis.com) and Windows Media Audio (WMA) ”have dedicated fans, too. Those two aren't on the list of iPod-compatible formats, but many others are, including MP3, AAC, AIFF, and WAV. Here's some explanation of each Podworthy format. 3.1.3 MP3
Suppose you copy a song from a Sheryl Crow CD directly onto your computer, where it takes up 47.3 MB of hard disk space. (This sort of audio extraction is quick on a Mac, somewhat harder in Windows; see Section 3.1.1.) Sure, you could now play that song without the CD in your CD drive, but you'd also be out 47.3 megs of precious hard drive real estate (see Figure 3-1). Now say you put that Sheryl Crow CD in your computer and use your favorite encoding program to convert that song to an MP3 file. The resulting MP3 file still sounds really good, but only takes up about 4.8 MB of space on your hard drive ”about 10 percent of the original. Better yet, you can burn a lot of MP3 files onto a blank CD of your own ”up to 11 hours of music on one disc, which is enough to get you from Philadelphia to Columbus on Interstate 70 with tunes to spare. 3.1.4 How It Works
MP3 files are so small because the compression algorithms use perceptual noise shaping, a method that mimics the ability of the human ear to hear certain sounds. Just as people can't hear dog whistles, most recorded music contains frequencies that are too high for humans to hear; MP3 compression discards these sounds. Sounds that are blotted out by louder sounds are also cast aside. All of this space-saving by the compression format helps to make a smaller file without overly diminishing the overall sound quality of the music. 3.1.5 MP3 History
The work on the technology behind the MP3 format began in the mid-1980s at the Fraunhofer Institute in Germany, which got a patent for the MP3 compression format in 1989. The format is flexible and permits different compression levels, but the average ratio was 10:1, meaning that a song can take up a tenth of the space but still retain good sound quality. (Hard- core audiophiles will debate the meaning of the phrase "good sound quality" until the end of time, but for most listeners, "good sound quality" translates into "I can hear all the instruments and vocals really well, and I know that's Peggy Lee singing 'Fever.' ") In the early 1990s, Fraunhofer developed the first MP3 player. By the mid-to-late 1990s, software for encoding and playing MP3 files on a computer was all over the Internet. WinAmp was one of the first programs to become hugely popular for ripping songs from compact discs into MP3 files. By 1998, portable MP3 players like the Diamond Rio began to appear in electronics stores, allowing music lovers to download their music onto a pocket- size device and take it anywhere . Unlike personal cassette and CD players, the MP3 players had no moving parts to break, and let you create an endless number of playlists (song sets sequenced in whatever order you like). New portable MP3 player models come out all the time, but many people consider the iPod's arrival in 2001 to be a defining moment in the history of MP3 hardware.
NOTE MP3 is short for MPEG Audio, Layer 3. And MPEG stands for Moving Pictures Experts Group , the association of engineers that also defined the specifications for the DVD video format, among others.
3.1.6 AAC
The Advanced Audio Coding format may be relatively new (it became official in 1997), but it has a fine pedigree. Scientists at Dolby, Sony, Nokia, AT&T, and those busy folks at Fraunhofer collaborated to come up with a method of squeezing multimedia files of the highest possible quality into the smallest possible space ”at least small enough to fit through a modem line. During listening tests, many people couldn't distinguish between a compressed high-quality AAC file and an original recording. What's so great about AAC on the iPod? For starters, the format can do the Big Sound/Small File Size trick even better than MP3. Because of its tighter compression technique, a song encoded in the AAC format sounds better (to most ears, anyway) and takes up less space on the computer than if it were encoded with the same quality settings as an MP3 file. Encoding your files in the AAC format is how Apple says you can stuff 10,000 songs onto a 40 GB iPod. The AAC format can also be copy-protected (unlike MP3), which is why Apple uses it for the songs it sells at the iTunes Music Store (Section 6.1). (MP3 fans take note: Don't blame Apple. The record companies would never have permitted Apple to distribute their property without copy protection.)
NOTE You can think of AAC as the Apple equivalent of WMA, the copy-protected Microsoft format used by all online music stores except Apple's. For better or worse , the iPod doesn't recognize WMA files; it can download $1-a-song music only from Apple's iTunes Music Store (Chapter 6). Since the iPod can play several different audio formats, you can have a mix of MP3 and AAC files on the device if you want to encode your future CD purchases with the newer format. If you want to read more technical specifications on AAC before deciding, Apple has a page on the format at http://www.apple.com/mpeg4/aac.
NOTE AAC is the audio component of MPEG-4, a new video format that's designed to get high-quality video compressed enough to travel over computer networks (even pokey old modem lines) and still look good onscreen. |
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