The evolution of UAV-based image collection has a long mission-critical history for the U.S, military. Today’s hi res image capture technology requires 6,000 Terabyte per flight performance.
New thin/zero client workstations and data center servers running virtual instances of application software are replacing traditional desktop PCs in installations where security must rule, but that’s not the only reason thin is in.
The data breach by Edward Snowden and network penetration by various nation state-sponsored hackersvirtual desktop infrastructure highlight the need for security in the military computing space. President Obama’s budget proposal for 2017 includes $19B for cyber security, an increase of $5B over 2016. The White House is proposing $5.5B in cyber spending for the military for each year for 2016 through 2020.
Driving the military conversion to secure thin and zero client computing, the U.S. Army released a 72-page document, “U.S. Army Thin/Zero Client Computing Reference Architecture, Version 1.0, 14 Mar 2013,” which promotes the conversion away from desktop and laptop computers to centralized servers and thin/zero client architectures.
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SAN DIEGO. Engineers at CP Technologies released their new patent-pending rugged CPZ-156T Rugged Zero Client as part of a partnership with Dell OEM Solutions.The devices leverages a Dell PCoIP ASIC controller in a rugged enclosure designed for use in extreme environments.
Choosing the motherboard for its long-term support requirements can ensure the best performance and lifespan for its extended industrial computer system.
Industrial and military users of servers or workstations based on ATX form factor iX86 motherboards require excellent performance as well as extended life and long-term support. Choosing the right motherboard goes beyond selecting a product for long lifecycle. The selection of the right chipset as well as the processor is key to obtaining the best performance and upgradeability over the lifespan of the system. The following discussion compares various embedded solutions that are available for different motherboards, expected lifespan, and upgradeability.
Commercial computer systems based on available iX86 architecture technology have a lifespan of 6 months before a newer version is available. The industrial or military user that plans to deploy the same architecture for a period of 2 years or longer is expecting long-term availability of all parts to ensure a constant supply of product. All products are eventually going to reach their end of life, but it should be a planned process that allows time for upgrades. Military systems in particular are specified and documented around a particular hardware set. The cost of changing the documentation and requalifying hardware to replace an EOL motherboard can run hundreds and thousands of dollars.
Select processor and chipset for optimum performance
Selection of the processor and the supporting chipset is based on more than just raw performance numbers. The I/O and memory requirements must also be considered. If a design requires only limited I/O or minimal I/O performance, a Pentium solution is fine. However, if multiple channels of x16 PCIe are required, the best solution is a single Xeon or, for the ultimate performance, dual Intel Xeon processors.
By using ruggedized rackmount servers with extended environmental specifications, military system integrators can provide back office capability in the field.