Intel's new Agilex 7 FPGAs are in the running with the industry's fastest transceivers
Today, Intel launches the new Intel Agilex 7 FPGAs with F-Tile, which come equipped with what they are today. the fastest field programmable gate array transceivers available on the market. They have been designed to help customers address challenges in the most bandwidth-intensive areas of the data-centric world.
These FPGAs hope to help many industries, including data centers and high-speed networks. Built with cloud, network, and embedded customers in mind, Intel's new F-Tile-enabled Agilex 7 FPGAs offer flexible hardware solutions with industry-leading transceiver performance in the package. They provide up to 116 gigabits per second and 400 gigabit Ethernet IP.
This is the Intel Agilex 7
Network operators, cloud providers, and enterprise organizations must address ever-increasing bandwidth requirements. That is why they are looking for flexible and essential hardware solutions. With Intel Agilex 7 and its F-Tile it is possible to directly satisfy these needs and allow networking, cloud or embedded applications, bandwidth-intensive applications such as IPUs, together with computing-intensive applications.
Bandwidth per channel is doubled compared to previous generation Intel FPGAs. New products can also be created that offer higher data traffic that also reduce power and maintain the strict limitations of the form factor.
Agilex 7 with F-Tile, has been developed with process technology superfin Intel's 10 nanometer This offers a necessary flexibility to create a custom chip design that can be adapted to specific needs according to the clients who demand it. Its multi-protocol features and compatibility, along with faster data rates, allow new connectivity topologies to be realized in a single device. An example that they have given is an Agilex 7 with F-Tile with the latest generation versatility that enables optical network applications from 400 Gbps to 1,6 Tbps. It will also be able to move applications such as 25/50G passive optical networks for high-speed broadband applications or broadcast standards such as HDMI and SDI.
