2013年11月11日 星期一

Older posts Leveraging upgrades in processing power


The need for improved performance is evidenced by continuous new product introductions by processor manufacturers such as Intel, AMD, and others. Whether it is better threading, more cores, better graphics, lower power, or higher clock speeds, these companies continuously respond to demand for more and faster computing across the board – whether on the desktop or in embedded industrial systems. But replacing a complete subassembly or subsystem each time a compelling new generation of technology becomes available is time-consuming, expensive, and risky. And yet the need to leverage greater levels of processor power and performance is an imperative. Separating the processor module from the underlying carrier means that technology upgrade is painless and affordable.

Beyond this, the modular COM Express approach allows users the flexibility to deliver application-specific performance and power at an appropriate price level (Figure 1). For instance, a quad core i7-based processor module can be used on a specific carrier board for a high-value, high-criticality, high-performance application – while the same carrier board, with the same features and I/O functionality, can be deployed for a lower value, less critical, less demanding application with a lower-performance VIA Nano processor-based COM Express module; this results in lower development cost and faster time to market.

refer to:http://industrial-embedded.com/articles/rugged-increasingly-connected-world/

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