XCVU9P-L2FLGA2104E
Manufacturer | Xilinx |
Description | FPGA - Field Programmable Gate Array |
Category | Integrated Circuit |
Package | BGA |
Status | New & original |
Ship From | HK/SHENZHEN |
Stocks | 10,000 |
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Description
The XCVU095-2FFVC2104E is a model from the Xilinx Virtex UltraScale+ family of Field-Programmable Gate Array (FPGA) devices. It is designed to provide high-performance and high-capacity logic integration for demanding applications.
Description:
The XCVU095-2FFVC2104E features a large FPGA fabric with 2,586,240 logic cells, 90 Mb of block RAM, and 6,768 DSP slices. It operates at a speed grade of 2, meaning it can handle signals with a maximum frequency of 2 GHz. The “FFVC2104E” package indicates that it comes in a flip-chip fine-pitch ball grid array (FFVC) with 2104 balls.
Application:
The XCVU095-2FFVC2104E can be used in a wide range of applications, including:
1. High-Performance Computing: It can be used in high-performance computing systems to accelerate computationally intensive tasks, such as scientific simulations, data analytics, and machine learning.
2. Communications and Networking: The XCVU095-2FFVC2104E’s high-performance capabilities make it suitable for use in networking equipment, such as routers, switches, and network processing units, to handle high-speed data processing and packet routing tasks.
3. Aerospace and Defense: It can be employed in aerospace and defense systems for tasks like radar processing, secure communications, and electronic warfare.
4. Video and Image Processing: The FPGA fabric can be programmed to implement algorithms for video and image processing applications, such as video compression, image recognition, and computer vision.
5. Test and Measurement: The XCVU095-2FFVC2104E is suitable for test and measurement equipment that requires real-time signal processing, data acquisition, and control capabilities.
Please note that these are just a few examples, and the XCVU095-2FFVC2104E’s versatility allows it to be applied in various other domains depending on the specific requirements and customization of the FPGA fabric.