The Optimum App for the Kindle Fire has served Cablevision customers in search of a second screen for some time now, but now it's more like its siblings on iOS, PC or Mac. What we mean is that now it can stream live and on demand content subscribed to via your Cablevision service. That's the good news, the catch is that you have to be connected to your home network for the live streams to work, but at least all the channels are available, rather than a subset like some providers. Of course if you aren't interested in watching video on the small screen, you can still use the aforementioned Kindle Fire app as a remote as well as to manage your DVR or discover new content while the action plays on the big screen for the rest of those in your home to enjoy.
Like Starbucks' Short Latté, Fatburger's Hypocrite and Wendy's Meat Cube, Verizon is offering its own not-so-secret menu on its Share Everything data plans. Big V's Brenda Raney told Computerworld that there are five more tiers beyond the 10GB top-limit shown on the company's website -- that are only available if you ask on the phone or in stores. The options run from 12GB for $110 all the way to 20GB for $150, but only as long as you've agreed the limit in advance of blowing all that data. If not, then you'll be spending another $150 in penalty charges for your overage. There's no official word if you need to offer a secret password or handshake, but we'd do it anyway -- if only to feel a bit like James Bond.
Electron microscopes can produce incredibly detailed and even 3D views of sub-cellular structures, but often at the cost of losing the bigger picture. Researchers at Liedel University in the Netherlands, however, have leveraged a technique called virtual nanoscopy that enables researchers to observe the whole of a cell and its intricate details in a single image. With the method, the team stitches together nanometer resolution photographs of what's gone under the scope to create a map with adjustable zoom a la Google Maps. Their study created a 281-gigapixel image (packed with 16 million pixels per inch) of a 1.5-millimeter-long zebrafish embryo. If you'd like to take a gander at the ultra-high resolution fish or read up on the group's findings for yourself, check out the source links below.
