IW_VU47P_QSFPX20
The IW_VU47P_QSFPX20 utilizes two DDR4 connectors, model 90411-151231, mounted on the XCVU47P to form two DDR4 channels, each with a 64-bit data bus width. In addition, the module integrates two 2 Gbit NOR FLASH chips for storing boot configurations and system files. It also features an extensive array of peripheral interfaces, including 20 QSFP ports, one J30J port, one Gigabit Ethernet port, and eight GPIO input ports along with eight GPIO output ports.
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Virtex UltraScale+ Development Board
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- Commodity name: IW_VU47P_QSFPX20
The IW_VU47P_QSFPX20 utilizes two DDR4 connectors, model 90411-151231, mounted on the XCVU47P to form two DDR4 channels, each with a 64-bit data bus width. In addition, the module integrates two 2 Gbit NOR FLASH chips for storing boot configurations and system files. It also features an extensive array of peripheral interfaces, including 20 QSFP ports, one J30J port, one Gigabit Ethernet port, and eight GPIO input ports along with eight GPIO output ports.
The IW_VU47P_QSFPX20 utilizes two DDR4 connectors, model 90411-151231, mounted on the XCVU47P to form two DDR4 channels, each with a 64-bit data bus width. In addition, the module integrates two 2 Gbit NOR FLASH chips for storing boot configurations and system files. It also features an extensive array of peripheral interfaces, including 20 QSFP ports, one J30J port, one Gigabit Ethernet port, and eight GPIO input ports along with eight GPIO output ports.
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Product Features
The XCVU47P FPGA is an FPGA designed for high‑bandwidth data processing. By integrating HBM on‑chip, it overcomes the external bandwidth limitations that have traditionally constrained conventional FPGAs when handling large volumes of data, making it ideally suited for applications such as data center acceleration, network processing, radar systems, and high‑performance computing.
- Abundant materials and resources: We provide comprehensive board‑level documentation and design resources, offer guidance for secondary development, and continuously gather customer feedback to refine our support over the long term.
- Low-cost and high value for money : It offers a lower price and more extensive features compared to similar products.
- Highly integrated: By leveraging the advantages of MPSoCs, complex and heterogeneous tasks can be executed on-chip, significantly shortening the debugging and development cycle compared to traditional multi-chip heterogeneous architectures.
Product Applications
- Network and Security Acceleration
Combining HBM with high‑end programmable logic delivers significant advantages for many networking and security applications. The Virtex UltraScale+ HBM FPGA‑based network acceleration card eliminates the need to accommodate multiple DIMMs on the board, enabling the same functionality within a single device—while offering equivalent memory capacity, lower power consumption, and higher performance. By leveraging a Virtex UltraScale+ HBM FPGA equipped with an HBM stack, lookup rates can be improved by up to five times, and the number of searchable entries reaches 80 times that of commercial TCAMs, thanks to HBM’s superior bandwidth. Beyond these intrinsic benefits to the end solution, HBM‑based implementations also streamline the design flow, reducing PCB complexity and minimizing risks by simplifying the memory subsystem. - Database Acceleration and Data Analytics
The explosive growth of data in modern applications is putting immense pressure on database infrastructure, driving rapid increases in bandwidth demands while power constraints remain a persistent challenge. With performance reaching up to 28 TOPs (INT8) and memory bandwidth of 460 GB/s, the platform delivers both throughput and capacity for a wide range of database and data‑analytics workloads, including lookups, queries, compression, and decompression. In addition, AMD offers a comprehensive suite of development tools—from the Vivado™ design suite to the Vitis unified software platform and pre‑optimized partner solutions—enabling users to select the optimal solution based on their specific needs. - Adaptable Artificial Intelligence
The Virtex UltraScale+ HBM FPGA delivers programmable capabilities ideally suited to evolving machine learning (ML) and artificial intelligence (AI) architectures. This FPGA accesses HBM memory via AMD’s pioneering Chip-on-Wafer-Substrate (CoWoS) technology, enabling the transmission of thousands of signals. The integrated HBM allows AI inference applications to process large datasets at peak speeds while reducing power consumption. With 460 Gb/s of memory bandwidth, the Virtex UltraScale+ HBM FPGA provides ample memory to store and access entire models without relying on external memory resources. - Video and Image Processing
Video streaming now accounts for the majority of internet traffic. Streaming in social media, gaming, marketing, and broadcasting demands consistently high‑quality video and images that play smoothly without interruption. Service providers must simultaneously manage both data center infrastructure and customer experience. FPGA‑based video acceleration simplifies infrastructure, enabling users to deliver reliable, low‑latency critical services within constrained budgets. The Virtex UltraScale+ HBM FPGA offers a range of serial interfaces, including 58G PAM4, and comes in form factors designed for high performance, specifically tailored for compute‑intensive video and image processing applications.
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