Presentation: low power optimization for a 32nm SoC platform with 2nd generation high-k/Metal gate transistors.
Presentation for low-power optimization for a 32nm high-k/metal gate transistor for system-on-chip (SoC) platform applications, offering transistor variability, interconnects, RF/analog passive elements, embedded memory, and noise mitigation options.
Brief examines the impacts and benefits of RF CMOS technology scaling in high-k/Metal gate era for RF SoC (System-on-Chip) applications.
Examines the impacts of silicon technology scaling trends and the associated technological innovations and benefits on RF CMOS.
The Intel® Xeon® processor E3 family servers are built for virtualization and deliver intelligent, adaptive performance.
The Intel® Xeon® processor E3 family servers are built for virtualization and deliver intelligent, adaptive performance to help increase sales, improve margins, and reduce risk.
Intel® Xeon® processor-based workstations deliver greater reliability, stability, and offer more technologies than desktops for faster innovation.
Purpose-built for professionals, Intel® Xeon® processor-based workstations deliver increased reliability and stability, offer more technologies than desktops for users to explore more ideas faster, and accelerate end-user innovation.
Technical resources for the Intel® Xeon® processor family and Intel® Xeon Phi™ product family, including product briefs, datasheets, and more.
Technical documents and resources for the Intel® Xeon® processor family and Intel® Xeon Phi™ product family, including product briefs, datasheets, specifications, guides, and models.
See how ECC memory in Intel® Xeon® processor-based servers detects and corrects single-bit errors, preventing data corruption and computer crashes.
Datasheet, Vol. 2: Intel® Xeon® processor E3-1200 family built on 32- nanometer process technology.
Datasheet, Vol. 2: Intel® Xeon® processor E3-1200 family built on 32-nanometer process technology.
Designed to tailor the system, and price, to match application requirements in key ways: faster rendering for complex graphics, processing power for compute-intensive applications, memory and large hard drives for massive jobs, and less downtime.