Mark Bohr explains how Intel 3-D transistors manufactured at 22nm ensure the pace of technology advancement for years to come.
Intel's 3-D Tri-Gate transistor, and the ability to manufacture it in high volume, mark a dramatic change in the fundamental structure of the computer chip. Learn more about the history of transistors.
Intel’s Ishu Verma discusses Android* optimization on Intel® architecture-based platforms, including Android* SDK and NDK toolsets. (v.001, Oct. 2011)
Intel Platform Application Engineer Ishu Verma discusses Android* optimization on Intel® architecture-based platforms, including the Android* SDK and NDK toolsets as well as the benefits and drawbacks of using NDK. (v.001, Oct. 2011)
Video: real-time OS demo working on Intel® Atom™ processor based systems with Intel® Virtualization technology at Embedded World 2010.
John Cormican demonstrates real-time OS working along with general purpose OS on Intel® Atom™ processor based systems with Intel® Virtualization technology (VT) at Embedded World 2010.
Intel Fellow Mark Bohr discusses the new 14 nm transistor process and how the improved tri-gate fin design enables greater computing experiences.
Intel Fellow Mark Bohr discusses the new 14 nm transistor process and how the tri-gate fins are now taller, thinner, and closer together, enabling more performance, less active power, and longer battery life for greater computing experiences.
Detailed walk-through of how to set up Intel® Node Manager includes installing the system in the data center and configuration of energy monitoring.
Detailed walk-through shows how to set up a server with the Intel® Node Manager feature, includes unboxing the system, mounting into the data center, and configuration of power and thermal monitoring to manage system energy use.Full View >