This application note explains how to use the CPUID instruction in software applications, BIOS implementations, and various processor tools. By taking advantage of the CPUID instruction, software developers can create software applications and tools that can execute compatibly across the widest range of Intel processor generations and models, past, present, and future.
Intel® Socket Test Technology for LGA771 has been developed to provide solder-joint and pin contact coverage for LGA771 sockets that have been assembled onto motherboards. This integrated silicon technology dramatically improves coverage (up to 90%), and enables motherboard makers to improve overall product quality and assembly process performance. This document includes the theory on which Intel® Socket Test Technology is based, typical test methods and device specifications.
The Intel® Xeon® processor 5000 series are Intel dual core products for dual processor (DP) servers and workstations. The Intel Xeon processor 5000 series are 64-bit server/workstation processors utilizing two physical Intel® NetBurst® microarchitecture cores in one package. The Intel Xeon processor 5000 series include enhancements to the Intel® NetBurst® microarchitecture while maintaining the tradition of compatibility with IA-32 software.
This document describes electrical, mechanical and thermal specifications of the Intel® Xeon® Processor 5100 Series, designed for high-performance multiprocessor server and workstation applications.
This document describes electrical, mechanical and thermal specifications of the Intel® Xeon® processor 5300 series, designed for high-performance dual-processor server and workstation applications.
This document discusses thermal management and measurement techniques for the Intel® Xeon® Processor 5000 Series is primarily intended for server applications. It addresses the issues of the integrated thermal management logic and its impact on thermal design. The physical dimensions and power numbers used in this document are for reference only. Please refer to the Intel® Xeon® datasheet for the product dimensions, thermal power dissipation and maximum case temperature.
This document discusses thermal management and measurement techniques for the Intel® Xeon® Processor 5100 Series, which is primarily intended for server applications. It will also address the issues of the integrated thermal management logic and its impact on thermal design. The physical dimensions and power numbers used in this document are for reference only. Please refer to the Intel Xeon datasheet for the product dimensions, thermal power dissipation and maximum case temperature.
This document discusses thermal management and measurement techniques for the Intel® Xeon® processor 5300 series. It address the issues of the integrated thermal management logic and its impact on thermal design. The physical dimensions and power numbers used in this document are for reference only. Please refer to the Intel Xeon processor datasheet for the product dimensions, thermal power dissipation and maximum case temperature.
This document describes a surface mount, LGA (Land Grid Array) socket intended for the Intel® Xeon® Processor 5000 Sequence Family for Servers and Workstations. The socket provides I/O, power and ground contacts.
This document defines the DC-to-DC converters to meet the processor power requirements of the Intel® Xeon® 5500 Platform. Some requirements will vary according to the needs of different computer systems and processors.
This document is an update to the specifications in the Intel® 64 and IA-32 Architectures Software Developers Manuals Documents. This document is a compilation of documentation changes. It is intended for hardware system manufacturers and software developers of applications, operating systems, or tools.
Describes the format of the instruction and provides reference pages for instructions (from A to M). This volume also contains the table of contents for both Volumes 2A and 2B.
Provides reference pages for instructions (from N to Z). VMX instructions are treated in a separate chapter. This volume also contains the appendices and index support for Volumes 2A and 2B.
Describes the operating-system support environment of an IA-32 and Intel® 64 architectures, including: memory management, protection, task management, interrupt and exception handling, multi-processor support, and thermal and power management features. This volume also contains the table of contents for both Volumes 3A and 3B.
Continues the coverage on system programming subjects begun in Volume 3A. Volume 3B covers debugging, performance monitoring, system management mode, and Intel® Virtualization Technology (Intel® VT). This volume also contains the appendices and indexing support for Volumes 3A and 3B.
Intel® 64 and IA-32 Architectures Optimization Reference Manual provides information on Intel® Core™ processors, Intel NetBurst® microarchitecture and other recent Intel® microarchitectures.
Intel IT tests show that a digital workbench based on the Intel® Xeon® processor 5500 series completed multiple, concurrent EDA application workloads 2.9x faster than a workstation based on the Intel® Xeon® processor 5100 series, and 1.53x faster than a workstation based on Intel® Xeon® processor 5400 series.
The Intel® Xeon® processor 5000 series, with 64-bit computing and greater power efficiency, is ideal for intense computing environments, business-critical applications, and high-end workstations.
The Intel® Xeon® processor 5000 series, with 64-bit computing and greater power efficiency, is ideal for intense computing environments, business-critical applications, and high-end workstations.
This document is a compilation of device and documentation errata, specification clarifications and changes. It is intended for hardware system manufacturers and software developers of applications, operating systems, or tools.
This document is a compilation of errata, specification clarifications and changes. It is intended for hardware system manufacturers and software developers of applications, operating systems and tools.
This document is a compilation of errata, specification clarifications and changes. It is intended for hardware system manufacturers and software developers of applications, operating systems and tools.
The Intel® Xeon™ processor family features highly scalable performance, powered by the Intel NetBurst® microarchitecture with Hyper-Threading Technology. These technologies allow server applications to support more features, increase transaction throughput and response times, and serve more concurrent users.
It takes a comprehensive strategy to scale data center capabilities, while simultaneously containing power and cooling costs. New Intel® Xeon® processor-based servers provide a critical new resource, by delivering leading performance, price/performance and energy-efficiency for a broad range of business applications.
It takes a comprehensive strategy to scale high performance computing (HPC) capabilities, while simultaneously containing power and cooling costs. New Intel® Xeon® and Intel® Itanium® processor-based servers offer a critical new resource, delivering dramatic increases in performance, price/performance and energy-efficiency across a broad range of HPC applications.
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