New-Tech Europe | Oct 2016 | Special Edition For Electronica 2016

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performance of large-scale data systems. Stratix 10 FPGAs provide the optimal flexibility and performance- per-watt acceleration to address the data center needs of the future. When used as a high-performance, multifunction accelerator in the data center, Stratix 10 FPGAs are capable of performing both the acceleration and high-performance networking capabilities. And as a user’s system demands or hardware requirements change, the FPGA can be reconfigured in milliseconds to accelerate individual tasks, which translates into significant improvements in system-level performance and power efficiency. The need for more bandwidth and lower latency in our networks, the need for flexibility of our data centers to react to new and changing workloads, and the need to manage performance per watt are all key value drivers for the Stratix 10 FPGA. The Explosive Need for Faster, Higher Bandwidth Networks The growing number of bandwidth-intensive applications is creating a massive increase in customer demand and straining current network infrastructure. Cisco* forecasts that by 2020, nearly a million minutes of video content will cross the network each second2, and that

by 2020, the number of devices connected to IP networks will be three times the global population2. A smart and connected world requires a highly connected, flexible, efficient, bandwidth-rich infrastructure that enables a seamless connection from the data center to the edge. Stratix 10 FPGAs enable network innovations across the access, transmission and networking equipment arenas to aggregate, transport and deliver the triple-play traffic over The Stratix 10 is an excellent example of the FPGA innovation that Intel is delivering to customers. We are delivering samples of the Stratix 10 FPGAs to customers today, and I personally look forward to seeing the innovations our customers will be able to deliver to market with this game-changing technology. Dan McNamara is a corporate vice president and general manager of the Programmable Solutions Group at Intel Corporation. Additional Materials: Stratix 10 Overview Video converged multiservice networks. Intel FPGA Innovation at its Finest

Stratix 10 Architecture Video Stratix 10 FPGA White Paper Stratix 10 SiP DRAM White Paper

F-Cell technology from Nokia Bell Labs revolutionizes small cell deployment by cutting wires, costs and time

F-Cell re-imagines architecture to support truly “wireless wireless” networking, removing the power and backhaul wires required by current small cell deployments Massive capacity is deployed on demand with no pre-planning or civil works required, allowing for drone-based delivery of self- building wireless networks Technology breakthrough wins CTIA Emerging Technology 2016 Award for transforming Wide Area Networks (5G, 4G and LTE 4.5)

the creation of the high capacity and low latency network that will form the digital fabric of the future for humans and machines. “F-Cell” technology eliminates the costly power and backhaul wires and fibers currently required for small cell installation to enable “drop and forget” small cell deployments anywhere. Bell Labs recently demonstrated the world’s first drone-based delivery of an F-Cell to a Nokia

office rooftop in Sunnyvale, CA. (captured in photo). The F-Cell wirelessly self-powered, self-configured and auto- connected to the network and instantly began to stream high-definition video.

Murray Hill, NJ – Nokia Bell Labs announces a breakthrough in small cell technology that offers greater flexibility, efficiency and optimized deployment economics to expedite

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