Dashboard

Find Content

Refine Results
Related Content

Selected Filters

  • 95 Results
  • Items Per Page

Intel ® QuickPath Technology Diagram

Diagram shows quickpath technology for memory interface, I/O between chipsets and processors.

Virtualization Technology on Intel® Atom™ Platform

Video: real-time OS demo working on Intel® Atom™ processor based systems with Intel® Virtualization technology at Embedded World 2010.

Intel® 64 and IA-32 Architectures Software Developer Manuals

Downloadable software developer manuals and CD-ROM resource ordering information for Intel® 64 and IA-32 Architectures.

Intel® Node Manager Capable Platform Configuration

Detailed walk-through of how to set up Intel® Node Manager includes installing the system in the data center and configuration of energy monitoring.

Advanced High-K Gate Dielectric for Short-Channel in QWFE Transistors on Silicon Substrate

Paper: composite high-K gate in the QWFET silicon substrate integration for thin electrical oxide, low gate leakage, and carrier confinement.

Preview | Download

Advanced High-K Gate Dielectric for Short-Channel in QWFE Transistors on Silicon Substrate

Paper: composite high-K gate in the QWFET silicon substrate integration for thin electrical oxide, low gate leakage, and carrier confinement.

Preview | Download

Role of High-K Gate Dielectrics

Presentation Discusses Role of High-K Gate Dielectrics and Metal Gate Electrodes in Emerging Nanoelectronic Devices.

Preview | Download

High-κ Gate Dielectrics, Metal Gate Electrodes in Silicon and Non-Silicon Logic Nanotechnology

Discusses low gate-leakage silicon and non-silicon transistor nanotechnology using high-κ gate dielectrics and metal gate electrodes.

Preview | Download

High-k/Metal-Gate Stack and Its MOSFET Characteristics

Article, IEEE Election Device Letters, Vol 25, No. 6, June 2004: High-k/Metal-Gate Stack and Its MOSFET Characteristics.

Preview | Download

Evaluation/Transport Physics: Schottky-Gate III-V Compound Semiconductor QWFE Transistors

Paper examines and evaluates logic performance of Schottky-gate QWFETs against that of advanced Strained Si MOSFETs in low power voltages.

Preview | Download