Key considerations for next-generation high-performance embedded system design
Have you wondered what would it take to implement a modern embedded system design with a system-on-module (SOM) as opposed to building your entire design from scratch? What are some of the clear advantages to designing with a SOM? Are you perennially stuck in the build-vs-buy argument on whether or not to design the most time-consuming and complex compute portions of an embedded system in-house? What's a carrier board and how to design a custom one that can be re-used by new SOMs that come down the line? Is your design going to be obsoleted because of the lack of a microprocessor roadmap and upward/cross-compatibility of your custom carrier boards? Are you missing your market windows and are looking for a solution that addresses time-to-market issues and cost escalations? Download white paper >>>>
Have you hit the limits of your current system's compute horsepower? Would you like to obtain access to high-performance and low-power state-of-the-art Qualcomm® Snapdragon™ processors without the need to license them?
To find out answers to the above questions and kick-start your embedded design with the latest ARMv7 ISA compatible Inforce 6501 Micro SOM, please download a whitepaper on the subject here.
Inforce Computing, Inc.
eSOMiMX6-micro - i.MX6 Micro System on Module is aimed at reducing the time-to-market for our customers by making use of the stabilized and ready-to-market micro iMX6 modules in their product. Form Factor: 54mm X 20mm To know more, Visit: www.e-consystems.com/iMX6-micro-som-system-on-module.asp