07:15
Testing Intel Core 2010 Processors for the Real World
Intel's Phil Hahn shares how he and his team put all new Intel Core 2010 processors through rigorous testing to make sure they performed to meet the needs of of computer users today and the near future.
In this video, Intel takes a peek at the future by looking back a bit. From a $7 billion dollar investment and initiative that funds manufacturing in the US, to a program to give high school science scholars a boost, to new PCs gadgets enabled by Intel technology, to increased mobility in computing, Intelâs recent work has helped pave the way for your future. Next, Intel introduces its Core processor family made with 32 nanometer technology, the latest technological breakthrough. Thirty-two nanometer means PCs and devices with more power and better battery life. Everywhere you look, Intel technology is helping you be more productive and creative, stay on the go, and have more fun.
01:35
All New Intel Core 2010 Processor, Graphics and WiMAX Chips
Intel's Karen Regis explains some of the innovations built into the All New Intel Core 2010 processors with graphics integrated onto a single chip, then shows the latest Wi-Fi and WiMAX chips.
30:25
Single-chip Cloud Computer Speech: Intel CTO, Justin Rattner
From the live webcast at the Clift Hotel in San Francisco on December 2, 2009, Intel CTO Justin Rattner delivers the opening remarks on the Single-Chip Cloud Computer, the latest Intel Labs milestone in the Intel Tera-scale Computing Research Program.
Intel Labs has created an experimental Single-chip Cloud Computer, (SCC) a research microprocessor containing the most Intel Architecture cores ever integrated on a silicon CPU chip 48 cores. It incorporates technologies intended to scale multi-core processors to 100 cores and beyond, such as an on-chip network, advanced power management technologies and support for message-passing.
03:49
Microsoft Visual Studio + SCC Message Passing Environment
In this demo with Jonathan Ross, Software Architect, Microsoft: Bringing parallel programming to mainstream software developers is one of the main goals of Intelâs Tera-scale research program. Microsoft Visual Studio is a widely popular software development environment that can also be used for developing parallel applications to run on the SCC many-core platform. Visual Studio 2008 is demonstrated working together with Intelâs research SCC message passing environment. This allows programmers to directly take advantage of the cloud-like message passing architecture of SCC. Proves how easy it is for a programmer to setup a project, edit, compile and run applications that take advantage of the unique features of the experimental SCC. This podcast is from the live webcast at the Clift Hotel in San Francisco on December 2, 2009. This demo followed Intel CTO, Justin Rattnerâs opening remarks on the Single-Chip Cloud Computer, the latest Intel Labs milestone in the Intel Tera-scale Computing Research Program.
03:43
Energy Efficiency with Real-Time Advanced Power Management
In this demo with Rob F. Van der Wijngaart, Senior Software Engineer, Intel: The experimental chip was designed to operate from as high as 125W to as low as 25W by providing a variety of advanced capabilities to manage power consumption. Power use is largely determined by the coresâ clock speeds and operating voltages. The chip has a unique ability to mix and match voltages and clock speeds for the different cores, or even to turn off entire regions of the chip when not needed. These capabilities can be controlled by software, allowing the application or operating system to intelligently manage power consumption, adapting in real time to use only the energy that is really needed. The demonstration displays how power levels for different sections of the chip change in response to the needs of a series of tasks whose power requirements vary over time. The tasks of the application are modeled after parallel computations. This podcast is from the live webcast at the Clift Hotel in San Francisco on ...
03:17
Programming for the 3D Internet: JavaScript Farm on a Chip
In this demo with Adam Welc, Ph.D., Senior Research Scientist, Intel: As Justin Rattner emphasized in his Supercomputing 2009 keynote in November, the Internet is poised to transition from flat, 2D experiences to more immersive 3D experiences. Bringing real world physics to 3D graphics is essential to making these emerging online interactions true-to-life. For instance, realistic, physics-based cloth modeling could enable both virtual clothing design as well as virtual dressing rooms that allow you to âtry outâ clothes on your virtual body and see how they would actually fall on you and match your specific skin tone. Intel Labs have demonstrated JavaScript, the language used broadly to create interactive web pages, taken to new levels of capability. Although JavaScript is used in every browser, itâs mainly used to operate very simple tasks like processing web forms and has performance problems running more complicated activities. JavaScript has been underutilized until now due to the lack of programming ...
Intel's Dan Sakols shows how he can use an Intel Atom processor powered Viliv S5 mobile Internet Device (MID) to play games and video livecast.
Rama from Intel's Ultra Mobility Group shows how she optimized an Intel Atom processor powered Viliv X70 mobile Internet device for microblogging, accessing entertainment and touch screen finger writing recognition apps for enjoying the full Internet on the go.
The Intel Reader takes pictures of text and read it aloud. It's designed to provide access to printed text for people with dyslexia, low vision or blindness. Intel's Digital Health Group researched and designed the mobile Intel Reader, which is built on the Intel Atom processor and run on the Moblin operating system.
Intel's Jerry Kurtze shows how he optimized a Viliv S5 mobile Internet Device to increase the size of the scroll bar, to connect to a data service phone through Blue Tooth, organize and sync online bookmarks and use quick access applications to get up-to-date information from news sites.
The UMID mBook mobile Interner Device has a tiny, mighty Intel Atom processor inside. Here are ways to use the small computer to video chat, edit work documents and use it with a projector to give presentations.
Jason takes time out to talk about the new category of Micro-Servers just after hosting a briefing Intel and industry innovations around Cloud Computing, including the new Intel Cloud Builder Program.
During the Intel Developer Forum 2009 in San Francisco, Intel's Ultra Mobility Group showed a group of tech experts the just announced Moblin V2 Core Alpha Release http://bit.ly/3aBZGh. See the Linux-based operating system in action on an Intel Atom processor-powered Mobile Internet Device.
Intel's Dadi Perlmutter demonstrates the latest Intel mobile computing technologies during his Intel Developer Forum 2009 Day Two keynote, but first a sneak peek at a new Sponsors of Tomorrow TV ad.
Mobile Internet Devices are just for fun? Here's a collection of Intel Atom processor based MIDs that can be used to access secure enterprise networks to help workers stay connected to the office without being stuck in the office.
PBS-TV's MotorWeek visited Intel headquarters to learn how the Intel Atom processor can help automakers stay in step with consumer trends by embedding into autos computer technology that brings information and entertainment through the Internet.
At the Intel Developer Forum in San Francisco September 2009, Intel Labs showed their 3-D Internet research efforts. Their aim: make 3-D modeling easier, as easy to do as publishing a blog or editing video.
08:24
Intel University Mobile Design Expo, Out-of-box Thinking
Student designers from Europe and the U.S. put their ideas for new mobile computing form factors, products, and concepts on display at the Intel University Design Expo, held down the block from the Intel Developer Forum (IDF 2009) in San Francisco. It was a chance for young inventors to show some astonishing originality, from platforms that encourage social interaction to devices that take novel pictures. In this video you will probably agree that these exhibits are quite amazing and thought provoking. And you may find yourself eager to see these concepts and product ideas become widely available.
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