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Hello.

I can not find documentation, for Core i7 processors 4th Gen, with industrial range temperature.

I have priveleg access but i can find only documentation for mobile or desktop processors.

Why documentation for embeded processors not accessible? Since I was registered in Embeded Design Center.

Next generation medical equipment plays a key role in increasing the quality of healthcare as well as containing the spiraling costs.  Developers are challenged to combine high performance, power efficiency, security and connectivity in a highly competitive market.  Here are links to some community posts on the topic that I think are particularly useful:

Article:  Wireless Multi-Service Controllers Secure Hospital Wards

Fast, secure access to patient data is essential to improving patient outcomes and protecting patient privacy. Discover how you can use wireless multi-service gateways to deliver both connectivity and advanced security to hospital wards. 

Article:  Connected Care in Emerging Economies

In emerging economies, access to healthcare is limited and expensive. Read about a proof-of-concept that shows how connected care can maximize caregiver effectiveness and lead to better outcomes.

White paper:  The Internet of Things (IoT) is Accelerating Connected Health

A network of linked devices, collecting, sending, and receiving data about people, environments and processes without human interaction or input will enable a new model of “connected health,” not only for the chronically ill but for the entire population.

Blog:  Breakthrough Performance for Medical Imaging

Discover how you can boost imaging performance by up to 72% with the The Intel® Xeon® processor E5-2600 v3 product family -- and how you can put this performance to work with solutions that range from motherboards to supercomputer systems.

Blog:  Are 2-in-1 Tablets the Ultimate Healthcare Tool?

2-in-1 tablets have big benefits for provider productivity and data security. Find out how they provide a great user experience, excellent software support, and easy integration into IT systems.

Article:  Bring Mobile Healthcare into the Internet of Things

Mobile healthcare devices have special requirements in areas such as security, usability, and compatibility with existing infrastructure. Learn what to look for when evaluating medical hardware. 

Article:  Enhance Surgeon Precision with 4K Ultra-HD

As operating rooms become more complex, surgical teams need a centralized information system that integrates data from many sources. See how you can simplify surgery with the latest compute and display technology. 

Blog:  Tablets Help Make Healthcare More Personal

Discover specialized tablets using the latest Intel® Atom™ processors and Microsoft Windows* 8 that deliver the performance needs of medical applications and the energy efficiency to support long battery life. 

Blog:  Designing Cardio Equipment to Exercise Bodies and Minds

Check out an integrated open frame fitness console platform powered by an Intel processor and Android* OS that helps OEMS quickly deliver cutting-edge software and services that synch with a variety of user devices to meet fitness customer expectations.

Blog:  Visit the Doctor at Your Neighborhood Kiosk

Read about an Intel-powered healthcare kiosk that could be set up in convenient locations that gives patients immediate access to board-certified doctors via high-definition videoconferencing and interactive, digital telehealth tools.

Have you read any related content that you would recommend to the community?  What other aspects of Medical Applications would you like to see covered? 

Click here to browse for medical computing solutions (including hardware and software elements of a medical system) based on Intel® architecture from Intel’s trusted embedded ecosystem, the Intel® Internet of Things Solutions Alliance.

Felix

J. Felix McNulty

Community Moderator

Intel® Embedded Community

(Intel contractor

Modern Digital Security and Surveillance Systems (DSS) are much more complex than their analog predecessors.  This new equipment must encode, decode and store multiple HD video streams, output to multiple independent displays, and analyze the video image in realtime.  Intel technology addresses each of these challenges.  Here are links to some community posts on the topic that I think are particularly useful:

Article:  Turn Surveillance Video into Actionable Intelligence

Ultra-high-definition (UHD) resolutions improve video analytics’ accuracy, but strain bandwidth, video decoding, and storage. Discover a NVR that uses integrated processor graphics and H.265 to help you improve transcoding and compression.

White paper:  Getting the Most Out of your Next-Generation Digital Security Surveillance System

Learn how an intelligent embedded system utilizing Intel® Core™ processor technology fully optimizes reliability and flexibility while reducing TCO for video-intensive DSS applications.

Blog:  Smart Cities Require Smart Video Storage Solutions

Check out an interesting very large scale Digital Security Surveillance solution linking eight inter-cities containing more than three million people and covering 200+ square miles around a major U.S. metropolitan area.    

Blog:  Ready-to-Go NVR Solutions for Small Business

Small business DSS solutions involving multiple cameras need a NVR to collect, process, and store the video.  Learn how NVRs powered by the 4th and 5th generation Intel® Core™ i5/i7 processors can benefit from powerful integrated HD graphics capabilities and high performance.

Blog:  On-the-Move DSS with 5th Generation Intel® Core™ Processors

Onboard digital security surveillance (DSS) systems help authorities monitor passenger safety and respond quickly to incidents.   Read how designers of railway DSS systems have overcome a number of performance and environmental challenges.   

Blog:  Small Boxes Make Big Gateway and Surveillance Solutions

Many businesses are enhancing security operations by integrating physical security gateway control solutions with digital security surveillance (DSS) systems within the same box.  Check out one of the latest solutions in this new arena.

Article:  Integrating Surveillance into IT Infrastructure

Learn about a new technology bundle that helps IT managers integrate IP-based video surveillance into IT infrastructure.

Blog:  Open Platform DSS Leader Reinvents the NVR with Intel® Core™ i5/i7 Processors

Check out a new family of completely integrated Network Video Recorders (NVR) introduced by Milestone Systems, a leader in DSS software.  

Blog:  Video Surveillance Evolves Thanks to New Processors and Design Continuity

Extended lifecycle of Intel embedded processors and boards incorporating them are vital to a long term sustainable, upgradeable DSS platform.  Read this case study.  

Technology Guide:  Building Digital Security and Surveillance Systems Based on Intel Technology

Gain a comprehensive overview of DSS solutions, usage models in various markets, and technology drivers; and learn why Intel technology is an ideal match for complex DSS workloads.   

Have you read any related content that you would recommend to the community?  What other aspects of DSS Applications would you like to see covered? 

Click here to browse for DSS solutions (including hardware and software elements of a DSS system) based on Intel® architecture from Intel’s trusted embedded ecosystem, the Intel® Internet of Things Solutions Alliance. 

Felix

J. Felix McNulty

Community Moderator

Intel® Embedded Community

(Intel contractor)

I210 reference design schematics shows interface with SFP. Can we have interface with 1000BASE-SX duplex ST/SC transceiver module operates with multi-mode fiber. 

Hello,

Where I can find a test application from Intel® Atom™ Processor E3800 Image Signal Processor: User Guide ?

Best Regards,

Anteja

I'm trying to setup a system with two I210 controllers. The 2nd one operates in Flash-less mode

and I have problems to get it working.

I have successfully programmed the INVM using the eeupdate64e tool with:

eeupdate64e /nic=2 /invmupdate /file=I210_Invm_Copper_NoAPM_v0.6.txt

It now reports:

Using: Intel (R) PRO Network Connections SDK v2.25.20

EEUPDATE v5.25.20.03

Copyright (C) 1995 - 2015 Intel Corporation

Intel (R) Confidential and not for general distribution.

Driverless Mode

Warning: No Adapter Selected

NIC Bus Dev Fun Vendor-Device  Branding string

=== === === === ============= =================================================

  1   1  00  00   8086-1533    Intel(R) I210 Gigabit Network Connection

  2   3  00  00   8086-157B    Intel(R) I210 Gigabit Network Connection

The 2nd NIC is the one without flash.

However, when I try to program the MAC address, it fails:

eeupdate64e /nic=2 /mac=001395160935

NIC Bus Dev Fun Vendor-Device  Branding string

=== === === === ============= =================================================

  1   1  00  00   8086-1533    Intel(R) I210 Gigabit Network Connection

  2   3  00  00   8086-157B    Intel(R) I210 Gigabit Network Connection

2:  Updating Mac Address to 001395160935...Failed!

Further more when I load the driver "igb" in linux, it reports an

invalid checksum on the 2nd NIC:

Intel(R) Gigabit Ethernet Network Driver - version 5.3.2

Copyright (c) 2007-2015 Intel Corporation.

igb 0000:01:00.0: irq 76 for MSI/MSI-X

igb 0000:01:00.0: irq 77 for MSI/MSI-X

igb 0000:01:00.0: added PHC on eth0

igb 0000:01:00.0: Intel(R) Gigabit Ethernet Network Connection

igb 0000:01:00.0: eth0: (PCIe:2.5GT/s:Width x1)

igb 0000:01:00.0 eth0: MAC: 00:13:95:16:09:34

igb 0000:01:00.0: eth0: PBA No: 000300-000

igb 0000:01:00.0: LRO is disabled

igb 0000:01:00.0: Using MSI-X interrupts. 1 rx queue(s), 1 tx queue(s)

igb 0000:03:00.0: irq 78 for MSI/MSI-X

igb 0000:03:00.0: irq 79 for MSI/MSI-X

igb 0000:03:00.0: The NVM Checksum Is Not Valid

igb: probe of 0000:03:00.0 failed with error -5

Basically I have two questions now:

1. Why does the MAC address programming fail?

2. Why does the driver complain about the checksum? As far as I know there isn't

a checksum in the internal memory.

Regards,

Felix

Several factors are propelling the explosive growth of M2M applications, enticing a new group of suppliers to enter the market.  An ecosystem of software partners has evolved to meet the design challenges and simplify the complexity of the M2M value chain.  Smart service developers can use production-ready, open standards-based platforms to streamline the design of M2M intelligent devices and infrastructure building blocks.

Download the pdf to read the full article from Embedded Computing Design magazine. 

Once again a new generation of Intel® Core™ processor raises the bar for digital signage systems. Retailers and other digital signage users looking to add Ultra HD 4K images and video to their signage systems will find the 6th generation Intel® Core™ processor product family (formerly codenamed “Skylake”) their best option. The processors offer a full line of scalable choices for making immersive Ultra HD 4K experiences the standard in the industry.

In this post, we look at the advantages of these new processors. We also look at two media players already available with them, as well as a selection of boards for developers to use in refreshing their product line.

A Giant Step Up in Graphics and Performance

Early documentation compares the performance of the mobile versions of this processor family to older generation processors in 5-year-old notebook PCs. This comparison works well for the digital signage market as many digital signage players use low-power versions of embedded processors that are 5 years or older. According to a recent Intel Factsheet, the 6th generation Intel Core processors are “setting a new standard of computing with 2.5x better productivity performance, 3x longer battery life, and 30x better 3D graphics performance when compared to a 5-year-old notebook PC.”

For signage applications, the processors’ new Intel® 500 Series graphics – Intel Gen9 Graphics – deliver up to 40% better graphics performance and 20% faster Ultra HD 4K transcode. Their dedicated hardware supports Ultra HD 4K playback for an Ultra HD 4K experience at a fraction of the power of previous generation systems (Figure 1). The dedicated hardware also frees up processor resources, ensuring faster, smoother response on interactive signage systems.

Figure 1. The expanded dedicated hardware of Intel® 500 Series Graphics mean improved Ultra HD 4K performance at lower power.

HEVC/H.265 encoding and decoding capabilities, as well as a better, lower-power H.264 encoder, allow Ultra HD 4K videos to take less bandwidth and storage space (Figure 2). The processors can transcode an Ultra HD 4K video up to 20 percent faster than the prior generation. What’s more, these new processors can drive up to three Ultra HD 4K monitors at once.

Figure 2. Codec support includes hardware acceleration for HEVC/H.265.

The higher performance members of the processor family include Intel® Clear Video HD Technology, an HD version of Intel® Clear Video Technology. The new version improves HD video playback with a suite of image decode and processing technologies built into the integrated processor graphics. You get cleaner, sharper images, more natural, accurate, and vivid colors, more realistic skin tones, and a clear and stable video picture.

The new processor family also supports the latest multimedia and graphcs APIs. This includes Microsoft DirectX 12 and Open GL 4.4.

Look, No Wires – and Faster Wakeup, too

The new processor family also delivers an advanced “no wires” experience based on Intel® Wireless Display (WiDi) and Intel Pro WiDi. For retailers, this means easier setup and fewer wires to try to hide. An integrated image signal processor (ISP) also enables designs incorporating a built-in camera, eliminating the need for adding a camera (and wires) to implement solutions like Intel® RealSense™ technology and Intel® Retail Client Manager.

Based on Intel’s leading 14nm process, the 6th generation Intel Core processors enable thinner form factors with wake-up times as short as 0.5 seconds when running Microsoft Windows 10 with Modern Standby implemented. That translates into smaller media players that can fit unobtrusively in more places and start up immediately when the doors open and customers come filing in.

Security and Scalability

Security is improved as well. New features include Intel® Software Guard Extensions (Intel® SGX) that add an additional level of hardware-based protection by putting data into a secure container on the platform. Intel® Memory Protection Extensions (Intel® MPX), another security measure, can help prevent buffer flow attacks. (Note: to be fully utilized, Intel SGX and Intel MPX require additional software capabilities which will begin to be delivered by the ecosystem later this year.)

The 6th generation Intel Core processor family is Intel’s most scalable processor family ever, enabling a diverse range of form factors to meet every media player need. Intel plans to deliver more than 48 processors in the 6th Gen Intel Core processor family, including more than 25 products for the Internet of Things (IoT) with up to 7-year long-life supply and error correcting code (ECC) at multiple TDP levels.

Two Players Already Available

Fast out of the gate with two systems is NEXCOM. Their fanless NDiS B535 media player features a choice of the Intel Core i7-6700TE, i5-6500TE and i3-6100TE processors with support for up to 32GB of DDR4 2133 MHz dual-socket memory (Figure 3). For in-store promotions, the NDiS B535 supports creative, video game-like, 4K2K contents with the unified display output of three HDMI 2.0 ports, accelerated media codecs including HEVC, and the latest API support such as Microsoft® DirectX® 12 on Windows® 10. The digital signage player has a range of interfaces to connect to IP cameras, product tags, and ambient detectors.

Figure 3. NEXCOM NDiS B535 media player.

For those looking for OPS-compliant systems, NEXCOM offers the NDiS M535 OPS player (Figure 4). Powered by 6th generation Intel® Core™ processor i5-6440EQ, the quiet NDiS M535 delivers triple independent outputs supporting 4K display. Dual DDR4 memory sockets with up to 32GB at 2133MHz enable high-speed responsiveness while fast USB 3.0 ports facilitate interactive peripherals including touchscreen displays and cameras. Intel® Active Management Technology (Intel® AMT) 11.0 allows the OPS player to be remotely accessed and diagnosed. Software issues can be repaired wirelessly, while failing hardware components can be identified early for preventive maintenance, lowering maintenance costs and on-site visits.

Figure 4. NEXCOM NDiS M525 OPS-compliant media player

Boards, Boards, and More Boards

The following table provides a sampling of available boards and those soon to be released. I’ve selected one example from a number of Intel® Internet of Things Solutions Alliance members, but many of these members offer other choices. In coming months, many more boards based on these processors will be available.

Sign of the Times

To add systems and boards based on 6th generation Intel Core processors to your digital signage solutions, see the full collection of available solutions in our regularly updated Solutions Directory.

ADLINK is a Premier member of the Intel® Internet of Things Solutions Alliance.AAEON, Avalue, Axiomtek, iBASE, IEI Integration Corp, Fijitsu, NEXCOM,and Super Micro Computer are Associate members. MSC Technologies, Protech Systems, and RICOH are Affiliate members.

Mark Scantlebury

Roving Reporter (Intel Contractor), Intel® Internet of Things Solutions Alliance

Editor-in-Chief,Embedded Innovator magazine

Hi,

I am trying to get the i210 to work with the existing driver for the 82574 on VxWorks 5.5.1 which is built on the original 82643 driver.  Everything looks good (to me) but no data is actually transmitted.  The device appears to be able to receive ok as there is evidence in the counters and these match reasonably well with the counters in the Cisco switch for the port it is connected to. We have a link at both ends and auto-negotiation is successful.

The VxWorks driver uses queue 0 only and it creates the context on each send.

Below are the main registers of interest - VxWorks only modifies registers 0, 4 and 9 in the PHY.

10:02:38 gei82543EndStart:Link is up

10:02:38 phy  reg 0: 00001000

10:02:38 phy  reg 1: 0000796d

10:02:38 phy  reg 2: 00000141

10:02:38 phy  reg 3: 00000c00

10:02:38 phy  reg 4: 00000de1

10:02:38 phy  reg 5: 000043e1

10:02:38 phy  reg 6: 00000005

10:02:38 phy  reg 7: 00002001

10:02:38 phy  reg 8: 00000000

10:02:38 phy  reg 9: 00000300

10:02:38 phy  reg 10: 00004000

10:02:38 phy  reg 15: 00003000

10:02:38 phy  reg 17: 00007c08

10:02:38 gei82543EndStart: TCTL is: a40400fa

10:02:38 gei82543EndStart: STATUS is: 00280743

10:02:38 gei82543EndStart: CTRL_EXT is: 101c0000

10:02:38 gei82543EndStart: CTRL is: 00001941

10:02:38 gei82543EndStart: IPCNFG is: 0000000f

10:02:38 gei82543EndStart: PHPM is: 0000019d

10:02:38 gei82543EndStart: TXDCTL is: 02010000

I would appreciate any ideas as to what may cause this behaviour.

Thank you.

Working on tablet management solutions and require Win7 on a tablet (i.e. Dell Venue 11).  It appears that most tablets currently available use I2C for touchscreen.

Is there a Win7 I2C driver available?

Computerized systems are increasingly used in all forms of transportation- providing a wide range of functions to improve safety and enhance passenger experience from positive train control in railways, in-vehicle-infotainment (IVI) in personal auto, taxis, and public buses, and fleet management to name just a few.  I am providing links to some community posts on this topic that I think are particularly useful:

White paper:  The Internet of Trains: Building Secure Intelligent Networks for Safety and Performance

Rapid rail modernization is driving passenger experience and safety. Onboard and cloud-connected intelligent devices are transforming communication and control systems to revolutionize performance.

Blog:  Meeting Fleet Management and Compliance Needs with the IoT

A commercial IoT fleet management solution blueprint outlines an end-to-end solution complete with big data analytics. Find out how Intel® IoT Gateways go onboard to collect and transmit vehicle data, plus handle video surveillance and driver assistance duties.

White paper:  The Importance of Computing Health Management in Transportation Systems

Learn how computing health management can improve long-term reliability and customer satisfaction while helping railway operators manage costs from intelligent real-time data access.

Blog:  Reinventing the Transit Ticket Kiosk

With the right system onboard, today’s transit ticket kiosks can do a lot more than dispense tickets. See how an Intel® Atom™ processor-based system can enable designs that provide schedule information and real-time arrival times, plus earn advertising revenue.

White paper:  Connected Car Brings Intelligence to Transportation

Heavy urban traffic is daunting. Learn how in-vehicle terminals turn passenger vehicles into connected cars, which make driving safer and more enjoyable, and capable of supporting connection to intelligent transportation systems (ITS).

Blog:  Transforming IoT Fleet Management with 5th Generation Intel® Core™ Processors

Imagine achieving a 6% increase in fuel efficiency and $15 million in savings. Learn about two compact, rugged in-vehicle computers that use advanced processors to enable trucks to sense, think, advise drivers, and report back to headquarters.

Article:  Turbo Charge Infotainment System Design

The new Intel® In-Vehicle Solutions integrate an automotive-grade compute module and Linux*-based software. Read how you can use this platform to speed infotainment system design. 

Article:  High-Performance Infotainment: The Next Generation IVI

Car buyers want infotainment systems with the features they enjoy outside the car. Check out an innovative solution using the latest Intel® Atom™ processors and the Tizen IVI platform. 

Blog:  IoT Keeps Trains on Track

See how the Internet of Things (IoT) connects railroads with real-time information that improves safety, efficiency, and customer satisfaction- enabled by some new products targeting Positive Train Control, Passenger Information Systems, and Network Video Recorders.

Article:  IoT Takes Mass Transit to a New Level

Bus Rapid Transit (BRT) deliver efficient public transportation at a fraction of the cost of rail. Discover how you can use the IoT to create BRT systems with advanced fleet management, scheduling, ticketing, safety, and advertising.

Blog:  Intel® Atom™ Processor Facilitates Rearview Camera Integration into IVI Systems

See how the Intel® Atom™ processor E3800 product family with built-in Gen 7 Intel® Graphics Technology enables 3D visual performance for interactive content combined with the computing power for image processing needed in advanced vehicle camera systems.   

Blog:  Bringing the Value of the Internet of Things to Transportation Systems

Read how the recently introduced Intel® Gateway Solutions for IoT helps enable even legacy transportation systems to be connected to next-generation infrastructure in a efficient manner.  

Click here to browse for IVI and transportation solutions based on Intel® architecture from Intel’s trusted embedded ecosystem, the Intel® Internet of Things Solutions Alliance. 

Felix

J. Felix McNulty

Community Moderator

Intel® Embedded Community

(Intel contractor)

Armed forces around the globe are looking for systems with high performance, low size, weight, and power (SWaP), excellent interoperabilty and cost containment, and strong reliability and security.  Suppliers to military, aerospace, and government face increased challenges to deliver such advanced systems on time and within budget.   I am providing links to some community posts on this topic that I think are particularly useful:

Article:  Highly Parallel HPEC Platforms

Read about overcoming the challenges in optimizing I/O throughput for high performance in Mil/Aero applications.  

White paper:  Transforming the Military Embedded Computing Landscape

Learn how the military is increasingly embracing technologies and building blocks from the commercial world to increase operational capabilities within the SWaP constraints of today’s most demanding programs.  

Blog:  Expanding ISR Across the Battlefield

Radar, signals intelligence, and electro optical/infrared capabilities of sophisticated intelligence, surveillance and reconnaissance (ISR) systems require abundant, high throughput, low latency real-time processing power.  Learn how Intel® processor-based systems meet these needs.  

White paper:  The Internet of Things for Defense

The Internet of Things (IoT) is today’s commercial effort to integrate technical and commercial information-generating components to provide device and system intelligence. Learn about the new opportunities in the defense sector from the commercialization of IoT.

Blog:  Optimizing Mil/Aero Image and Signal Processing

Mil/Aero applications have computationally intensive image and signal processing requirements calling for high levels of floating-point data precision. Learn about the Intel® Advanced Vector Extensions 2 instruction set feature of the Intel® Xeon® processor E5 v3 family.

White paper:  AdvancedMC: The “New” Long-Established Small Form Factor Architecture

Many applications require small form factor solutions for networking/communications, control, and MIL systems. Read about a proven, long-established open standard architecture for these requirements.

Blog:  Sub-Second Boots for Mil/Aero Applications

See how an Intel® processor boots in half-second by combining the Intel® Firmware Support Package with an optimization of coreboot*, an open source extended firmware platform, and SeaBIOS, an open source implementation of a 16-bit X86 BIOS.

Blog:Extended Temperature Solutions for SFF Mil/Aero

Check out boards that deliver on extended temperature, vibration and shock, as well as size, weight and power (SWaP)- based on the Intel® Atom™ processor E3800 product family, with 1-4 cores, power from 3 to 10 watts and operating temperature range from -40º C to +85º C.

Article:  Scalable Standards for Mil-Aero Design

Find out why Intel® processor-based commercial off-the-shelf (COTS) hardware is being deployed everywhere from handheld devices to high-performance computing centers and how to take advantage of this trend.

Article:  Optimizing Unmanned Vehicle Thermal Performance

Unmanned vehicles need a leap in efficiency for next-generation missions. Check out a solution that uses the 4th generation Intel® Core™ processor family to boost throughput up to 4x without increasing thermal budgets.

Click here to browse for Military, Aerospace and Government computing solutions (including hardware and software elements of a MAG system) based on Intel® architecture from Intel’s trusted embedded ecosystem, the Intel® Internet of Things Solutions Alliance. 

Felix

J. Felix McNulty

Community Moderator

Intel® Embedded Community

(Intel contractor)

Hi

Can you direct me to the location for downloading BSDL files for the following devices.

AV8063801117503_SR0NC              

BD82QM77_SLJ8A                             

WG82579LM_SLHA6                         

WGI210IT_SLJXS                                 

Regards

Davie

Virtualization allows embedded systems to run real-time and non-real-time code on a single hardware platform, to process both critical and non-critical code, and to display graphically rich user interfaces.  Below, I am providing some links to community posts on this topic that I think are particularly useful:

White paper:  Embedded Virtualization and Cyber Security for Industrial Automation

Read about a partitioned platform approach that consolidates firewall and VPN stacks into virtual appliances with multiple, autonomous operating environments without proprietary workloads or extensive para-virtualization.

White paper:  The Benefits of Virtualization for Embedded Systems

Learn how enabling multiple OSs to run on a single hardware platform, virtualization empowers developers to: consolidate previously separate functions to reduce system size, cost, and power; bring innovation to market faster while preserving legacy code; and enhance security, safety, and availability through application isolation and software redundancy

Blog: Extending Intel® Virtualization Technology to the Network

Performance of virtual systems is critical to the success of Network Function Virtualization (NFV).  Check out a new Ethernet controller that extends Intel® Virtualization Technology (Intel® VT) beyond the processor itself and to the MAC.

Article: Cut Automation Cost and Complexity with Virtualization

Industrial environments are full of expensive single-purpose computing systems. Learn how a new virtualization kit can help you cut costs by combining multiple systems on a single platform.

White paper: Achieving Real-time Performance on a Virtualized Industrial Control Platform

Virtualization enables a computing platform to share its resources across multiple workloads-  but can it deliver real-time and deterministic response required by advanced automation processes?   Read about interrupt latency measured in an Intel industrial platform.

White paper:  Embedded Virtualization Enables Consolidated Cyber Security Solution Protecting Windows Clients

Explore a partitioned platform approach that consolidates firewall and VPN stacks into virtual appliances on a single system with multiple, autonomous operating environments without proprietary workloads or extensive para-virtualization. 

White paper:  Using Virtualization to Differentiate Industrial Products

In this Dell OEM paper, read about how Dell PowerEdge VRTX and Intel ® Virtualization Technology extend the benefits of virtualization into industrial automation and process management solutions. 

Blog: Industrial network security from the cloud to the connected edge

Learn how virtualization helps deliver cyber threat prevention through software and middleware solutions that run on Intel silicon with Intel® vPro technology, enabling comprehensive security for Industrial Control Systems (ICSs) from the edge to the cloud, and back again.

White paper:  Leveraging Virtualization in Aerospace & Defense Applications

Review some of the more interesting virtualization usage models and implementation insights arising from real-world projects in Aerospace & Defense.

Blog:  Using Virtualization in Embedded Applications

Check out a new Intel infographic that illustrates virtualization in embedded devices.  See what it gets you, and what are the new challenges and solutions you need to know about when developing embedded solutions that rely on virtualization. 

  Have you read any related content that you would recommend to the community?  What other aspects of Virtualization would you like to see covered?

Felix

J. Felix McNulty

Community Moderator

Intel® Embedded Community

(Intel contractor)

I have 4 i210 device on one board. I want to make sure that the four of them has the exact timer offset (will be used in 1588 setup).

Because they may have different initialization time they may end up with different time offset. I want to use the SDP at boot time to set the four of then on the same time offset.

Thank you

Bassam,

Adding value is all about focusing on your core strengths while leveraging those of others. As the “Internet of Things” becomes more complicated and diverse, it’s important to make a solid business case for attaching all of those things” to the Internet – or to your business systems. From the sensors and actuators at one end of the scale, to the usiness information systems at the other, there’s a huge amount of technology in between. Technology that most companies aren’t equipped to handle. Eurotech and Intel have already built out that infrastructure and made it available to ystem integrators and developers so that they can add value while leveraging the existing (and future) technology. 

Click to read the full paper:   Connecting Business with Machines in the Cloud-Based World of IoT

In intel curie module, which language is used for coding? i need to interface GSM and GPS modules, can i get codes?

Axiomtek COM Express® Type 10 Product - Axiomtek

PDF version download: http://www.axiomtek.com/Download/Article/Download/COM_Express_10_WP.pdf