Tooke writes "I've developed focal hand dystonia from playing clarinet. It affects my right pinky (and my ring finger, but to a lesser extent). My pinky isn't totally unusable when typing; however, it isn't nearly as agile as it used to be. When I must press a key with it, I tend to keep the whole finger rigid and move my entire hand instead. I also use my ring finger to press the P and semicolon keys (on QWERTY) which is a bit awkward but better than using the pinky. Thus my question: are there any keyboard layouts that are optimized to reduce right pinky/ring finger usage? I switched to Programmer Dvorak a few years ago, but Dvorak seems to make me use my right hand significantly more than my left. I'm considering mirroring the letter keys so my left hand would be used more. I also came across the Workman layout which looks interesting. I might try using that after switching the numbers and symbols around to be more like Programmer Dvorak. Has anyone been in a similar situation? What else could I do to make typing more comfortable? I've got a long career ahead of me as a programmer (I'm currently a high school senior) and I'd like to take care of my hands as much as possible."
Lucas123 writes "Electrical engineers at Oregon State University (OSU) said yesterday that they have found a technique to use high-frequency sound waves to improve magnetic data storage.The data write-technology breakthrough could allow greater amounts of data to be stored on both hard disk drives and NAND flash-based solid-state drives (SSDs), they said. Typically, when magnetic recording material is temporarily heated, even for an instant, it can become momentarily less stiff and more data can be stored at a particular spot. But, the technique has proven difficult to effectively increase capacity because heating tends to spread beyond where it is wanted and the technology involves complex integration of optics, electronics and magnetics, the researchers said. With the new technique, known as acoustic-assisted magnetic recording, ultrasound is directed at a highly specific location on the material while data is being stored, creating elasticity that allows "a tiny portion of the material to bend or stretch." After the ultrasound is turned off, the material immediately returns to its original shape, but the data stored during the process remains in a dense form."