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Intel® product technologies for embedded applications include software optimization for multi-core systems, virtualization, system management, application acceleration and more.
Intel® AMT is a hardware-based management tool that provides remote access and management capability for networked embedded systems.
Intel® Active Management Technology improves remote management; reduces service calls, average power consumption and staff requirements for software updates and asset tracking.
File Type/Size: PDF 204KB
Version: 1 : July 2009
Intel’s management tools provide remote access and management capability for networked embedded systems such as industrial, retail, gaming, military, medical, and telecommunications.
File Type/Size: PDF 2,083KB
Using Intel® AMT and Intel® VT, customers can dramatically increase system uptime and significantly reduce service and maintenance overhead in embedded systems.
Version: 1 : October 2009
Intel multi-core processors offer scalable parallel processing performance in space- and power-efficient designs to help meet your embedded platform requirements. Learn more.
Some architectures use a split last-level cache in order to achieve fast development of a dual-core system. This article includes a comparison of hard-partitioned cache vs. unified cache.
Version: Volume 10: Issue 02 : May 2006
Intel® software development products, training and support speed optimization of multi-core designs.
Version: 001 : January 2006
This presentation from QNX covers Intel's breadth of multi-core solutions and discusses issues developers face when moving to multi-core, with examples.
File Type/Size: PDF 1,534KB
Version: 4 : February 2009
Making a successful transition to multi-core architecture requires software optimization. This paper presents platform-level optimizations that resulted in significant performance gains.
File Type/Size: PDF 292KB
Version: May 2009
Register now for free webinars designed to help you achieve performance gains and increased application functionality, using leading edge programming tools and technologies.
The shared cache architecture brings exciting new opportunities to software and system designers. This document first describes the overall benefits of the architecture.
Version: July 2007
Here is a list of titles from third-party publishers, recommended by the engineers of the Intel® Software Network.
Version: October 2007
This whitepaper describes how the INtime ROS from Tnasys* can be used with the IPP Libraries and the Microsoft* Visual Studio IDE to create real-time applications that take advantage of the Intel® architecture SIMD instructions.
This paper covers what it takes to set up the IA-32 architecture and potential usage models for asymmetric multiprocessing.
Version: January 2009
This paper uses PiAutoSim*, a bench-top simulator, to show how upgrading the hardware and software development environment of an embedded product enables significant performance improvements.
VxWorks*, Wind River* Linux, and the Wind River hypervisor run on a range of Intel® processors and are supported by a standard tool chain for efficient multi-core development.
Version: 001 : January 2009
VxWorks* platforms feature multi-core support capabilities within the operating system, network stack, and development tools to provide a development path to multi-core technology.
With the emergence of multi-core processors for mainstream applications, parallel programming is becoming a technique every professional software developer should master.
Version: April 2007
Providing hardware-based assistance for virtualization software, Intel® Virtualization Technology enables creation of multiple virtual machines (VMs) that run on a single system. Learn more.
Intel® Virtualization Technology eases software migration, improves real-time performance and enhances security for embedded computing.
File Type/Size: PDF 196KB
The opportunity to consolidate multiple applications on one server utilizing virtualized resource management has created a more cost-effective alternative for data center deployments.
Version: 001 : September 2007
Explore embedded virtualization usage models including legacy OS consolidation, trusted/open application integration, RTOS/GPOS consolidation, and performance-critical application separation.
File Type/Size: PDF 2,990KB
Version: 1.0 : July 2009
This animation shows how Intel® Virtualization Technology enables hardware resources to be abstracted, divided and shared between multiple concurrent operating system environments.
Version: November 2008
Dual-core Intel® Core™ Duo processors provide the compute capacity of two equivalent-speed, single-core processors in a small footprint.
Parallel programmers are usingthe power of multi-core platforms to create better performing applications. Implementing virtualized threaded applications is another step forward.
Version: November 2007
A set of hardware extensions to Intel® processors and chipsets that helps protect data integrity. Learn more.
Use Intel® Trusted Execution Technology hardware-based security features to further protect against software-based attacks in embedded computing.
File Type/Size: PDF 202KB
Implement Intel® Trusted Execution Technology for Embedded Systems such as military, gaming, medical, and retail.
File Type/Size: PDF 1,181KB
Intel® Power Management Technologies including Enhanced Intel® SpeedStep® Technology, Intel® Turbo Boost Technology, and Dynamic FSB Frequency Switching help control power consumption.
Intel® Power Management Technologies enable embedded developers with control over power consumption.
File Type/Size: PDF 191KB
Intel® Power Management Technology balances power consumption and system performance, reduces power consumption, and overall lower total cost of ownership for embedded computing systems.
File Type/Size: PDF 1,083KB
Intel® technology that moves data efficiently through networked systems based on Intel® multi-core processors. Learn more.
Intel® technologies that let you deploy the optimum accelerator for embedded and communications solutions. Learn more.