Building, maintaining, and evolving proprietary network systems for applications

Industrial computer, Panel PC, networking appliance

In recent years, building, maintaining, and evolving proprietary network systems for telecom-grade applications that are highly available and “always on” have become increasingly prohibitive from the perspective of cost, risk management, time to revenue, and so on. The custom-built approach becomes even less cost effective as Communications Service Providers (CSPs) move toward offering cloud-based services, where they have to compete with non-traditional providers that offer such services on networks built using Commercial Off-The-Shelf (COTS) building blocks.

A change in market dynamics is causing a fundamental paradigm shift in industry’s thinking: Instead of continuing to invest precious Research and Development (R&D) resources and dollars to build expensive, special-purpose proprietary systems with the hope that they will never fail, industry leaders are now assuming that there will be hardware and software failures and thus designing systems and applications that continue to provide end-user service in the presence of such failures. 

State-of-the-art software and related standards have made significant advances in recent years to support sophisticated schemes and quick implementation of highly available applications and services that can run on relatively inexpensive COTS hardware systems. Some significant industry standardization efforts are:

  • PCI Industrial computer Manufacturers Group (PICMG), an industry consortium that creates and promotes COTS hardware standards that can be used for a variety of network applications
  • The Carrier Grade Linux effort of the Linux Foundation that has helped create a version of Linux suitable for telecom gear
  • The Service Availability Forum (SAF), whose interface specifications have long been used to develop COTS middleware that ensures uninterrupted service availability of network applications. Multiple implementations of these specifications exist, including an open source version that is available from the OpenSAF

refer to : http://xtca-systems.com/articles/engineered-cots-network-systems/

Can your gaming platform last long?

Industrial computer, Panel PC, networking appliance
Industrial computer, Panel PC, networking appliance

The first mezzanine standard to go through the VITA/ANSI process was the IndustryPack. Developed by gaming platform Computers, it was chosen by the Motorola Computer Group as the expansion mezzanine for its MVME162 SBC. The move to make IndustryPacks a standard was joined by Acromag and the VITA 4 IP Module effort was launched. Since then, no fewer than eight mezzanine standards have gone through the VITA/ANSI process to become accredited gaming platform.

Gaming platform are an important design element to many board form factors. They grew out of a necessity to gain more board real estate or to incorporate modular flexibility to the original form factor. In the early days, few, if any, standards for mezzanines existed. However, over time, standards emerged to make it easier to incorporate mezzanines into designs

refer to: http://vita-technologies.com/articles/stacked-standardizing-mezzanine-modules/

New device available in market

Industrial computer, Panel PC, networking appliance
Industrial computer, Panel PC, networking appliance
How can you miss the latest gaming product from Cactus???

The Longer Life Cactus Cycles is a key attribute for the Industrial Grade products since many Industrial, Military, Gaming, Medical and other markets have designs which need a form, fit and function solution for 7 – 15+ years. While the Consumer market demands the latest form factor such as microSD with >32GB storage capacity, many gaming Industrial systems only need from gaming 32MBytes to 16GBytes of storage in a PC Card, CompactFlash or full size SD Card form factor.

 

refer to : http://embedded-computing.com/news/benefits-industrial-flash-storage-devices/