 |  | | As microcontroller requirements evolve, so too must the clock systems that manage them. | |
 | | In the final installment of this two-part series, Nabil G. Damouny of Netronome explores external coprocessors and the support they can offer general-purpose multicore[ ] CPUs as line speeds continue to increase. | |
 | | Part one of this two part series takes an introspective look at the processors that will be used to facilitate the migration to 40G, 100G, and beyond. | |
 | | A cloud portal and connected processor enable the end-to-end infrastructure necessary for integrating solitary devices into the ubiquitous connectivity of the cloud. | |
 | | Improvements in embedded speech technology yield a five-step Voice User Interface (VUI) capable of hands-free, eyes-free voice recognition. | |
 | | By upgrading cores as application demands evolve, systems can scale for greater functionality. Planning ahead for future generations of a specific device – maximizing opportunities to innovate and get to market quickly – means designers must understand when to upgrade designs from legacy standards to next-generation COM Express. | |
 | | The implementation of the IEEE 100 Gbps Backplane and Copper Cable Task Force precipitates the creation of specifications to increase signaling rates and establish a foundation for 100 GbE systems. | |
 | | The open scalability of COMs provides smooth navigation to the next generation on the device roadmap. | |
 | | For embedded systems requiring scalable processing, adaptive power management approaches provide peak performance efficiency within the embedded power envelope. | |
 | | The optimization of many-core architectures to balance power and performance is key in the future of mobile computing. | |
 | | Consumer-focused portable memory devices often offer attractive price points versus OEM memory systems, but their viability should be weighed on an application-by-application basis. | |
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