Intel® Cyclone® 10 GX FPGA
Intel® Cyclone® 10 GX FPGA
Designers are facing challenges with the need for increasing sensor resolution, local video analytic requirements, high-capacity frame stores, and evolving interface standards to host processors.
In addition to offering faster transceiver speed of up to 12.5 Gbps and supporting evolving camera interfaces, Intel® Cyclone® 10 GX devices provide integration of a wide range of vision functions, such as image capture, scaling, high-performance preprocessing, and communication functions. These features enable machine vision designers a faster time-to-market strategy.
Video Processing and Connectivity
- Deliver stunning HD video resolution with the updated Video and Image Processing Suite. 20 cores featuring a wide range of functions capable of HD video functions include:
- Chroma Resampler
- Gamma Corrector
- 2D FIR
- Interlacer / Deinterlacer
- Color Plane Sequencer
- Color Space Converter
- Implement the latest video connectivity standard with our latest design guidelines for Intel® Cyclone® 10 GX FPGAs
- To use serial digital interface (SDI) on Intel® Cyclone® 10 GX FPGAs with or without an external VCXO
- Get started with Multirate SDI with up to 12.5 Gbps on Intel® Cyclone® 10 GX FPGAs
- Get started with video processing design examples in the Intel® FPGA Design Store.
Learn more about Intel's support for Embedded Vision on the Intelligent Vision and Video web page.
Industrial Fog Computing in SDA Environments
Industrial Fog Computing for Software Defined Automation (SDA) requires scalable compute, acceleration, and flexible connectivity at the Plant Fog, Cell-level Fog, and Machine Fog Nodes (MFNs).
At the plant level, the primary SDA component is orchestration of the resources below it. This imposes requirements on cell-level fog nodes and MFNs to change persona based on the requirements dictated by the Orchestration software like the Wind River Titanium server. Therefore, hardware re-configurability is an emerging requirement.
Off-load and acceleration of processor workloads are required both to address performance, latency, and total controller power requirements. For example, crypto acceleration, machine learning (classification and training), and accelerated processing of streaming data (Apache Spark).
Finally, while OPC Unified Architecture (OPCUA) over Time-Sensitive Networking (TSN) is the solution for interoperability and networking, it also supports legacy industrial Ethernet with the ability to swap different industrial Ethernet interfaces on demand.
The Intel® Cyclone® 10 GX device is the ideal companion chip for Intel® processors to implement hardware re-configurability with partial reconfiguration. It also implements workload acceleration with fast FPGA fabric and flexible connectivity through programmability with significant performance gains and power savings.
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