PCI Express* I/O reference design details include a block diagram and specs and feature the Intel® Atom™ processor Z510 and FPGA development board.
Details for the PCI Express* I/O reference design featuring the Intel® Atom™ processor Z510 and the Xilinx Spartan-6* SP605 FPGA development board include a block diagram and specifications.
Intel® Xeon® processors make distributed-intelligence possible. Since components are connected, redistributing stored energy is more efficient.
Discusses how the complex motion control of “Shelly” works through virtualization of the four Intel® Core™ processors in one system. (v.1, Nov. 2013)
The creators of the demo robot discuss how the virtualization of four Intel® Core™ processors working together in one system enable the complex motion control of “Shelly” to perform in real time so it can keep the tempo of each song. (v.1, Nov. 2013)Full View >
Multi-core virtualized industrial control systems reference design details include an overview, a block diagram, and specifications.
Details for multi-core, virtualized industrial control systems reference design include an overview, a block diagram, and specifications for the “Rockbot” system.
Solution Brief covers Intel and Ericsson reference design features for standards-based technologies for machine-to-machine platforms.
Discusses how Intel® M2M Reference Design, based on the Intel® Atom™ processor and the Ericsson F5521GW* mobile broadband module, provides a platform that reduces development time and cost.
White paper: Tests show that Intel® Industrial Solutions system consolidation series can deliver interrupt latency under 20 μsec. (v.1, Jul. 2014)
White paper: This paper provides test methodologies and system configuration details to help manufacturers determine whether virtualized industrial platforms have adequate real-time responsiveness for their applications. (v.1, Jul. 2014)
Reference design details for the hexapod robot, evaluating Q-learning and learned-walking, include an interactive block diagram and specifications.
Details for the hexapod robot reference design, for Q-learning algorithm and learned-walking evaluation, include an interactive block diagram and specifications.
Solution Brief: How to combine multiple workloads on one system for industrial consolidation and real-time, deterministic functions. (v.1, Oct. 2013)
Solution Brief: How to achieve industrial consolidation and combine multiple industrial workloads on one system, with real-time, deterministic functions for reduced costs, complexity, and footprint. (v.1, Oct. 2013)