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Wind River Vxworks Platforms 3.8
Wind River VxWorks Platforms 3.8 The market for secure, intelligent, Table of Contents Build System ................................ 24 connected devices is constantly expand- Command-Line Project Platforms Available in ing. Embedded devices are becoming and Build System .......................... 24 VxWorks Edition .................................2 more complex to meet market demands. Workbench Debugger .................. 24 New in VxWorks Platforms 3.8 ............2 Internet connectivity allows new levels of VxWorks Simulator ....................... 24 remote management but also calls for VxWorks Platforms Features ...............3 Workbench VxWorks Source increased levels of security. VxWorks Real-Time Operating Build Configuration ...................... 25 System ...........................................3 More powerful processors are being VxWorks 6.x Kernel Compatibility .............................3 considered to drive intelligence and Configurator ................................. 25 higher functionality into devices. Because State-of-the-Art Memory Host Shell ..................................... 25 Protection ..................................3 real-time and performance requirements Kernel Shell .................................. 25 are nonnegotiable, manufacturers are VxBus Framework ......................4 Run-Time Analysis Tools ............... 26 cautious about incorporating new Core Dump File Generation technologies into proven systems. To and Analysis ...............................4 System Viewer ........................ -
Intel® Atom™ Processor E6x5c Series-Based Platform for Embedded Computing
PlAtfOrm brief Intel® Atom™ Processor E6x5C Series Embedded Computing Intel® Atom™ Processor E6x5C Series-Based Platform for Embedded Computing Platform Overview Available with industrial and commercial The Intel® Atom™ processor E6x5C series temperature ranges, this processor series delivers, in a single package, the benefits of provides embedded lifecycle support and the Intel® Atom™ processor E6xx combined is supported by the broad Intel® archi- with a Field-Programmable Gate Array tecture ecosystem as well as standard (FPGA) from Altera. This series offers Altera development tools. Additionally, a exceptional flexibility to incorporate a compatible, dedicated Power Management wide range of standard and user-defined Integrated Circuit (PMIC) solution may be I/O interfaces, high-speed connectivity, obtained from leading PMIC suppliers to memory interfaces, and process accelera- help minimize platform part count and tion to meet the requirements of a variety reduce bill of material costs and design of embedded applications in industrial, medi- complexity. Options include separate PMIC cal, communication, vision systems, voice and clock generator chips (available from over Internet protocol (VoIP), military, high- ROHM Co., Ltd.) or a single-chip solution performance programmable logic control- that integrates the voltage regulator and lers (PLCs) and embedded computers. clock generator (available from Dialog Semiconductor). The Intel Atom processor E6x5C series is a multi-chip, single-package device that Product Highlights reduces board footprint, lowers compo- • Single-package: A compact 37.5 x nent count, and simplifies inventory 37.5 mm, 0.8 mm ball pitch, multi-chip control and manufacturing. This compact device internally connects the Intel Atom design offers single-vendor support while processor E6xx with a user-programma- providing Intel Atom processors for ble FPGA. -
Intel Atom® Processor C2000 Product Family for Microservers
Intel® Atom™ Processor C2000 Product Family for Microservers PRODUCT BRIEF Maximize Efficiency for Your Lightweight Scale-Out Workloads Extreme Density and Energy-Efficiency for Low-End, Scale-Out Workloads With a need to rapidly deliver new services, cope with massive data growth, and contain costs, cloud service providers and hosters seek increasingly efficient ways to handle the demands on their infrastructure. Today’s servers based on Intel® Xeon® processors provide leadership performance and performance per watt with the flexibility to handle a wide range of workloads and peak demands. 2nd generation 64-bit However, certain lightweight, scale-out workloads—such as basic dedicated hosting, low-end static Intel® Atom™ Processor web serving, and simple content delivery can sometimes be hosted more efficiently on larger C2000 Product Family numbers of smaller servers built for extreme power efficiency. for microservers To address this need, Intel worked with a broad giving you the flexibility to right-size your infra- • Up to 7x higher7 perfor- ecosystem of leading server manufacturers to structure without limiting software mobility and mance, up to 6x better8 develop and deliver a variety of extreme low-power interoperability as your applications evolve. systems to support an emerging server category— performance/watt Optimized Platform Support microservers. With up to a 1,000 nodes1 per Intel provides complete microserver platform 9 rack and shared power, cooling, and networking • 6-20 watt TDP solutions that simplify implementation, improve resources, microservers can help you improve data overall efficiency and enable higher node density. • Up to 1000+ server center efficiency by right-sizing infrastructure for New innovations include: 10 relatively light processing requirements. -
Debuggers, Programmers and Erasers Products May Be Rohs Compliant
Debuggers, Programmers and Erasers Products may be RoHS compliant. Check mouser.com for RoHS status. USB2Wiggler Features: DEVELOPMENT PROGRAMMERS • Universal Serial Bus interface for JTAG and BDM debugging TopMaxII Programmer • Faster than the classic parallel port Wiggler • Fully compatible with all Macraigor Systems software Features: • Operates up to Hi-Speed USB rates (480Mb/s) • High speed device programmer and TTL/LOGIC/DRAM tester • One side interfaces to USB port of host IBM compatible PC, other • PC driven: USB 2.0 interface side connects to OCD (On-Chip Debug) port of target system • Device libraries > 18000 • Port may be JTAG, E-JTAG, OnCE, COP, BDM, or any of several • Standard 48-pin DIL ZIF socket other types of connections • Supported devices: EPROM, EEPROM, FLASH (NOR/NAND) Programmers memory, PLD, FPGA, Serial PROM, Parallel PROM, CMOS USB2Demon Features: PROM, PIC and microcontrollers • Interfaces to USB 1.1 or USB 2.0 port of host PC on one side, other • B/P/V takes 65 sec. for 64Mbit flash memory • External start key for auto programming mode side connects to OCD (On-Chip Debug) port on target system • All socket adapters are available in stock (USA): PLCC, SOP, • Win 95/98/NT/2000/XP/Vista/Windows 7 • Simultaneously debugs up to 255 devices on a single scan chain SOIC, QFP, TSOP, SON, BGA, TSSOP, and TSOPII • Approved by CE • Supports configurable JTAG/BDM clock rates up to 20MHz • Supported low-voltages: 1.8/2.0/2.7/3.0/3.3/5.0 volt • Made in USA • Compatible with Windows and Linux hosts • Built-in AC (110-240) power supply • Free software update for lifetime • Supported versions of Linux: Red Hat 7.2-9 and Fedora Core 2 For quantities greater than listed, call for quote. -
Intel Atom® Processor C3000 Series for Embedded and Iot Applications: Product Brief
Product brief Internet of Things Intel Atom® Processor C3000 Series Expanding Intelligence and Flexibility at the Edge Scalable, dense-compute SoC for demanding IoT workloads From the factory foor to the energy grid, airplanes to supply chains, the sensors, controls, gateways, and other connected devices of Internet of Things (IoT) are driving the next industrial revolution. As IoT continues its explosive growth, the need for intelligent devices for more specialized applications is also growing exponentially. Industrial, energy, aerospace, robotics, public sector, and other customers with demanding IoT workloads want new ways to easily extract value from their data, reduce their time to market, and innovate connected technologies quickly and efciently. Moreover, they increasingly require reliable IoT solutions that bring maximum performance and greater capabilities to an ever-expanding array of challenging locations and operating conditions. The Intel Atom® processor C3000 series extends low-power Intel® architecture into new segments and accelerates IoT innovation across a wide range of demanding environments and use cases. With high performance per watt, low thermal design power (TDP) of 9.5W, and up to 20 confgurable high-speed input/output (HSIO) lanes, and pin-to-pin compatibility, this new system-on-a-chip (SoC) family delivers next-generation, multicore performance and scalability for a broad variety of low-power, high-density, and fanless designs. Multicore scalability With the Intel Atom processor C3000 series, customers are able to scale performance and achieve workload consolidation in situations and use cases that uP to require very low power, high density, and high I/O integration. Designed in an FCBGA 34mm x 28mm compact form factor, this SoC-based CPU is manufactured on Intel’s optimized 14nm process technology, available from 2 to 12 cores from 2.3X 1.6 to 2.0 GHz, and includes up to 256 GB DDR4 2133 MHz ECC (SODIMM, UDIMM, better PerforMANce or RDIMM) of addressable memory. -
Intel Atom® P5900 Processors for 5G Network Edge Acceleration
PRODUCT BRIEF | Intel Atom® P5900 Processors ADVANCED PERFORMANCE FOR 5G WIRELESS BASE STATIONS As the radio access network (RAN) infrastructure of wireless carriers evolves to meet the intense demands of 5G, additional compute is required at the edge of the network. Careful consideration is critical across the board—from overarching design down to the selection of key components in base transceiver station equipment—for 5G networks to reliably meet the demands of next-generation service opportunities with lower latencies, higher bandwidth, and increased network capacity. RAN INFRASTRUCTURE EVOLUTION Intel has never had a stronger or more comprehensive portfolio of solutions to enable the RAN. From Intel® Xeon® Scalable processors to Intel Atom® processors, FPGAs, ASICS, and more, Intel continues to deliver cutting-edge hardware for 5G infrastructure. Even so, it’s our significant investments in software that enable service providers to make the most of our hardware, from drivers and operating systems up through entire production-quality software stacks. This interconnected platform of hardware and software allows service providers to get to market quickly while still offering the flexibility needed to address various deployment scenarios. Furthermore, with the increasing adoption of innovations found in cloud deployments, service providers are realizing the benefits of extending a platform combining common cloud software with Intel® architecture-based hardware from the core to the edge. A common software ecosystem for platform virtualization and customer applications—using a common Intel instruction set architecture across the infrastructure—enables faster deployment of new software and features while also making new service offerings and revenue models possible. PRODUCT BRIEF | Intel Atom® P5900 Processors AN EXCITING NEW CLASS OF EDGE PROCESSORS Intel Atom P5900 processors are the first of an all-new class of high-throughput, low-latency Intel Atom P processors for high-density network edge and security solutions. -
Mobile Computer Comparison
Mobile Computer Comparison System Classmate PC Classmate PC Eee PC 700 Eee PC 900 Kindle Mobilis OLPC HP 2133 Mini- Version 1.5 Version 1.5 Note 1st Generation 2nd Generation Processor (CPU) Intel ® Mobile Intel ® Mobile Intel® Mobile Intel® Mobile CPU Intel PXA255 TI OMAP2431 AMD x86 VIA C7-M Processor ULV Processor ULV 900 Celeron & Chipset 400MHz** 433 MHz 1.0Ghz up to 900 MHz, Zero MHz, Zero L2 cache, 1.6Ghz L2 cache, 400 400 MHz FSB MHz FSB Memory (DRAM) 256 RAM DDR ‐II 256 MB 512 MB ‐ 1GB 1GB 256 MB 128 MB – 512 MB 256 MB 1024 MB (Linux only)or 512 MB Storage/Hard Drive 4GB Flash Drive 1 GB Flash (for 2, 4, or 8GB Flash 12GB (4GB built‐in + 256 MB Flash 128 MB Flash 1024 MB Flash a 4GB SSD low or Linux), 2GB/4GB 8GB flash) SSD end 40GB Hard Flash, 1.8 HDD (Microsoft Windows 120GB HDD Drive OS Version) 20GB (4GB built‐in +16GB flash) SSD (Linux OS Version) Screen (diagonal) 7” LCD 9ʺ LCD 7ʺ LCD 8.9ʺ 6” LCD 7.0ʺ LCD 7.5ʺ LCD 8.9" Input Integrated Water Resistent Integrated keyboard Integrated keyboard 2‐Thumb keyboard Integrated Integrated keyboard 92% full-size, keyboard Hot Keyboard and Touch pad Touch pad Scroll wheel keyboard/ Optional with sealed rubber user-friendly Keys Touchpad USB Keyboard membrane QWERTY Touch Pad with keyboard L/R Wireless Pen Multimedia (built in) Stereo Integrated 2 channel Stereo speakers/mic HD audio / built‐in Headphone jack Stereo speakers/mic Stereo speakers Stereo speakers speakers/mic audio, Built‐in speakers MP3 jack Video Player Mono mic Mono mic Mic input jack speaker and Audio book jack MP3 -
Intel® Embedded Software Development Tool Suite for Intel® Atom™ Processor
Intel® Embedded Software Development Tool Suite For Intel® Atom™ processor Turbocharge your code for Intel® Atom™ processor-based Product Brief embedded systems Intel® Embedded Software High Performance Data, Media and Signal Powerful Application and JTAG-based Development Tool Suite Processing Libraries Debug for Intel® Atom™ processor High Performance C/C++ Compiler Advanced Performance Analysis Tool Benefit from a comprehensive software development tools solution for your Intel® Atom™ processor- based embedded system designs and application software development. Coding, compiling, debugging and performance tuning made simple. The Intel® Embedded Software Development Tool Suite for Intel® Atom™ processor is a complete solution that addresses embedded software development requirements for Intel® Atom™ processor- powered platforms such as embedded systems, tablets, netbooks, smartphones, IVI and other CE devices. The Embedded Software Development Tool Suite covers the entire software development cycle: coding, compiling, debugging, and analyzing performance. All included tools are Linux* hosted, are compatible with GNU tools, and support multiple Linux* OS based targets. Intel® C++ Compiler for Linux* Intel® Integrated Performance Primitives for Linux* Intel® Application Debugger for Intel® Atom™ processor Intel® JTAG Debugger for Intel® Atom™ processor Intel® VTune™ Amplifier XE for Linux* Compatibility and support for Linux* based targets e.g. Yocto Project* Features and Benefits Feature Benefits Intel® C++ Compiler Boost -
Intel® Quark™ SE Microcontroller
Bringing intelligence to the internet of things Introducing the Intel® Quark™ SE Microcontroller John Moore Intel IoT Application Engineer 2nd Nov 2016 Legal Disclaimers You may not use or facilitate the use of this document in connection with any infringement or other legal analysis concerning Intel products described herein. You agree to grant Intel a non-exclusive, royalty- free license to any patent claim thereafter drafted which includes subject matter disclosed herein No license (express or implied, by estoppel or otherwise) to any intellectual property rights is granted by this document. All information provided here is subject to change without notice. Contact your Intel representative to obtain the latest Intel product specifications and roadmaps. The products described may contain design defects or errors known as errata which may cause the product to deviate from published specifications. Current characterized errata are available on request. Copies of documents which have an order number and are referenced in this document may be obtained by calling 1-800-548-4725 or by visiting: http://www.intel.com/design/literature.htm Tests document performance of components on a particular test, in specific systems. Differences in hardware, software, or configuration will affect actual performance. Consult other sources of information to evaluate performance as you consider your purchase. For more complete information about performance and benchmark results, visit http://www.intel.com/performance. Intel technologies’ features and benefits depend on system configuration and may require enabled hardware, software or service activation. Performance varies depending on system configuration. No computer system can be absolutely secure. Check with your system manufacturer or retailer or learn more at intel.com. -
Operating System Platforms
Wind River Embraces IOT Zuo Yun: [email protected] © 2014 Wind River All rights reserved Wind River at a glance Aerospace & Defense Automotive Network Equipment Industrial & Medical Mobile & Consumer Applied Signal AWTC Europe Alcatel-Lucent ABB Canon BAE Systems BMW ARRIS Agilent Dell Boeing Bosch Avaya AREVA Epson EADS Clarion Ciena Bombardier Fuji-Xerox Elbit Group Continental Dialogic Emerson Electric IBM Finmeccanica Daimler Ericsson General Electric Intel General Dynamics Delphi Fujitsu Hitachi Medical Konica Minolta General Electric Fiat GENBAND Intel LG Electronics Harris Fujitsu Hitachi Invensys NEC Honeywell General Motors Huawei KUKA Oki ITT Harmann Hypercom Mitsubishi Industrial Prima Cinema L3 Communications HKMC Intel Mitsubishi Electric Qualcomm Lockheed Honda Kapsch Nikon Ricoh NASA Johnson Controls Kyocera Panasonic Samsung Northrop Grumman Mobis Motorola Philips Medical Sharp Orbital Sciences Nissan NEC Rockwell Automation SK Telecom Raytheon PSA Peugeot Citroen Nokia Schneider Electric Sony Rockwell Collins Renault Samsung Siemens Texas Instruments Thales Toyota Tellabs Sirona Dental Systems Toshiba U.S. Navy Valeo Group ZTE Toshiba Xerox Network Transformation App App “The Cloud” Private Cloud NFV Communications INTERNET Embedded Cloud SDN Data Center Big Data GATEWAY Cost Reductive LAN IoT Devices The Drive to 50 Billion Devices Intelligent Intelligent Devices Intelligent Systems Decision Making Cloud Networks Intelligent -
Intel® SGX Trusted Computing Base (TCB) Recovery
White Paper Intel® Software Guard Extensions (Intel® SGX) Intel® SGX Trusted Computing Base (TCB) Recovery Scope We designed Intel® Software Guard Extensions (Intel® SGX) with the ability to update it in order to address any issues that might arise in the future. Merely providing this update mechanism, however, is not sufficient for a secure service infrastructure: if a client’s update is voluntary, then the remote service could be communicating with a client that is out of date and subject to security vulnerabilities. To address this issue, Intel SGX was also given the means to cryptographically prove, via remote attestation, that the client update has taken place. The mechanics of this process have been outlined in the whitepaper titled “Intel® Software Guard Extensions: EPID Attestation and Services”[1]. Until now, Intel has not fully described the effects of performing an Intel SGX Trusted Computing Base (TCB) recovery on the end-user and developer community. This paper is intended to close this gap. Intel SGX Attestation Review Attestation is the process of demonstrating that a software executable has been properly instantiated on a platform. Intel SGX Attestation allows a remote party to gain confidence that the intended software is securely running within an enclave on a fully patched, Intel SGX enabled platform. The attestation conveys the following information in an assertion: The identities of software being attested. The details of unmeasured state (e.g., the mode software is running in). Data that the software associates with itself. Intel SGX uses an asymmetric attestation key, representing the Intel SGX Trusted Computing Base, to sign an assertion with the above information. -
2008 Corporate Responsibility Report
2008 Corporate Responsibility Report What can we make possible? A world of possibilities. LETTER FROM OUR CEO Throughout our 40-year history, Intel has pushed the boundaries of innovation, creating products that have fundamentally changed the way people live and work. But what we make possible goes well beyond our product roadmap. By working with others, we are finding opportunities to apply our technology and expertise to help tackle some of the world’s greatest challenges—from climate change and water conservation to education quality and the digital divide. Our commitment to corporate responsibility is unwavering, even during economic downturns. In education, we surpassed the milestone of training 6 million teachers worldwide through the Taking a proactive, integrated approach to managing our impact on local communities and the Intel® Teach Program. In addition, we partnered with governments to support the advancement environment not only benefits people and our planet, but is good for our business. Making of their education programs, and helped put affordable, portable, Intel-powered classmate PCs corporate responsibility an integral part of Intel’s strategy helps us mitigate risk, build strong into the hands of students in close to 40 countries. We announced a joint business venture with relationships with our stakeholders, and expand our market opportunities. Grameen Trust, using a “social business” model aimed at applying tech nology to address issues related to education, poverty, and healthcare in developing countries. While I am proud of the many recognitions that we have received—including our number one spot on Corporate Responsibility Officer magazine’s 100 Best Corporate Citizens list for At the heart of our commitment to corporate responsibility are Intel’s more than 80,000 2008—we continue to push ourselves to do more.