Linux Kernel Tuning for IP Version 6 Networking
This paper describes the procedure for enhancing the Linux operating system with Internet Protocol version 6 (IPv6) networking feature. This paper also describes the linux kernel with IPV6 networking support, booting linux desktop machines with new IPV6 network supportive kernel, and its graphical representation. This paper lists the procedure to test the IPv6 enabled linux desktop kernel. The resultant IPv6 enabled linux kernels scale over Internet Protocol version 4 linux kernels in terms of built-in security support (IPSEC), efficient routing, address auto configuration, automated network (router) renumbering, and built in mobility support(MIPv6).
Functional Test Automation without Programming
The need for functional test automation is increasing. Many companies have developed 'homegrown' software solutions to meet their automation requirements. Over time, these solutions have expanded to include additional features like data aggregation, analysis, reporting, monitoring, etc. In addition, a number of commercial test automation tools are available. Until recently, there was no single solution that addressed the totality of manufacturers' needs.
Mercury PowerBlock 50 Ultra Compact Embedded System
The PowerBlock 50 system, from Mercury Computer Systems (NASDAQ: MRCY), is a high-performance, ultra-compact embedded computer designed for maximum performance in a minimal footprint, for small platforms in the 6- to 10-pound range. Optimized for real-time image, sensor, and signal processing and ruggedized for harsh environments, it is fully integrated and programmable, with state-of-the-art liquid cooling. The PowerBlock 50 extends Mercury's robust offering of computing solutions available in very small to large form factors to suit a broad range of customer applications.
phyCORE-LPC3250 ARM9 Single Board Computer Subassembly
PHYTEC recently release the phyCORE-LPC3250 Single Board Computer (SBC) subassembly. The phyCORE-LPC3250 is an ARM9 based, small form factor (70×58 mm), OEMable module populated with the NXP LPC3250 microcontroller. The LPC3250 can operate in ultra-low-power mode down to 0.9V. The State-of-the-art power management, Floating Point Unit, and rich peripherals such as SD/SDIO, USB OTG, Ethernet, SDRAM, NOR and NAND Flash memory, and integrated LCD controller make this module the ideal candidate for embedded applications requiring feature-rich high performance and low power consumption. The phyCORE-LPC3250 is particularly suitable for consumer, industrial, medical, and automotive applications. The on-board MMU supports major operating systems, including Linux and Windows Embedded CE R2.
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