It will never be the same old song again–this was the concept for MS3, a Hungarian musician when he created a software solution he calls „digital improvisation” or DI. The „di” music file format he developed enables the users to listen to one song in endless number of versions. „Imagine Madonna’s new releases were recorded in di format. Whenever you hit the ’’Play’’ button, a different remix of the same song is played back. You never get bored of your cd then” said Mester, now hea

Simulate Network Traffic from over 1 Million Web Browsers in Near Real Time

Researchers at the Georgia Institute of Technology have created the fastest detailed computer simulations of computer networks ever constructed—simulating networks containing more than 5 million network elements. This work will lead to improved speed, reliability and security of future networks such as the Internet, according to Professor Richard Fujimoto, lead principal investigator of the DARPA-funded projec

Moore´s Law – a dictum of the electronics industry that says the number of transistors that fit on a computer chip will double every 18 months – may soon face some fundamental roadblocks. Most researchers think there´ll eventually be a limit to how many transistors they can cram on a chip. But even if Moore´s Law could continue to spawn ever-tinier chips, small electronic devices are plagued by a big problem: energy loss, or dissipation, as signals pass from one transistor to the next. Line up all t

New use for seismic reflection data: revealing the most dangerous fault lines on Earth

Researchers have found an important new application for seismic reflection data, commonly used to image geological structures and explore for oil and gas. Recently published in the journal Nature, new use of reflection data may prove crucial to understanding the potential for mega earthquakes.

Mladen Nedimovic, the lead author and a scientist at the Lamont-Doherty Earth Observatory, a membe

Researchers at the University of California, San Diego have demonstrated that a chemical that permits plants to detoxify heavy metals can be transported from the roots to stems and leaves, a finding that brings the possibility of using plants to clean up soil contaminated with toxic metals such as lead, arsenic and cadmium one step closer to reality.

A paper detailing the discovery appears this week in an advance online publication of the Proceedings of the National Academy of Science

Stanford University Medical Center researchers have developed a way to tailor therapies to combat the specific inappropriate responses of autoimmune diseases in mice. The researchers also have shown that their technique can provide information needed to predict a disease’s progression. Eventually, their work may provide a way to reverse the course of such autoimmune diseases in humans as multiple sclerosis, rheumatoid arthritis and type-1 diabetes by first identifying the immune system culpri