Music File Compressed 1,000 Times

Music File Compressed 1,000 Times Smaller than MP3

Scientists at the University of Rochester have digitally reproduced music in a file nearly 1,000 times smaller than a regular MP3 file.

The music, a 20-second clarinet solo, is encoded in less than a single kilobyte, and is made possible by two innovations: recreating in a computer both the real-world physics of a clarinet and the physics of a clarinet player.

The achievement, announced recently at the International Conference on Acoustics Speech and Signal Processing held in Las Vegas, is still not a flawless reproduction of an original performance, but the scientists say it's getting close.

"This is essentially a human-scale system of reproducing music," says Mark Bocko, professor of electrical and computer engineering and co-creator of the technology. "Humans can manipulate their tongue, breath, and fingers only so fast, so in theory we shouldn't really have to measure the music a number of thousands of times a second like we do on a CD. As a result, I think we may have found the absolute least amount of data needed to reproduce a piece of music."

In replaying the music, a computer literally reproduces the original performance based on everything it knows about clarinets and clarinet playing. Two of Bocko's doctoral students, Xiaoxiao Dong and Mark Sterling, worked with Bocko to measure every aspect of a clarinet that affects its sound-from the backpressure in the mouthpiece for every different fingering, to the way sound radiates from the instrument.