XQ7V585T-L2RF1157E_XCV100-4C/BG680 Looking for [Aerospace Military Industry] Guide

In order to better adapt to the new world of intelligent interconnection, Xilinx continues to take "flexible platform" as the core of its products, seizes new industrial opportunities, and formulates three major development strategies to support wider market applications. Victor Peng pointed out that the first strategy is "data center first." In the data center space, it is important to realize that Xilinx can support not only compute acceleration and data center applications, but also value-creating storage and networking.

Streaming-based architecture provides high performance and low power consumption, chained image processing functions reduce external memory accesses, video-optimized line and window caches are simpler and more efficient than processor caches, and easier to use VivadoHLS in FPGAs Parts are implemented using data flow optimization.

XQ7V585T-L2RF1157E_XCV100-4C/BG680 looking for [Aerospace Military Industry]

XQ7Z020-1CLG400Q

At the same time, single-chip integration can both reduce BOM cost and enable scalability across different product families. In addition, such platforms have a solid technical foundation and are customizable, thereby shortening product development cycles and accelerating time-to-market for new applications.

DRAGEN Complete Suite - Ultra-Fast Analysis of Next Generation Sequencing - Exome The DRAGEN Complete Suite (Exome) enables next generation sequencing (NGS) data on large datasets such as whole exomes and target groups.

The VivadoHLS video library is used to replace many basic OpenCV functions. It has similar interfaces and algorithms to OpenCV. It is mainly aimed at image processing functions implemented in the FPGA architecture, and includes FPGA-specific optimizations, such as fixed-point operations instead of floating-point operations. (Not necessarily accurate to bits), on-chip line buffer (line buffer) and window buffer (window buffer). Figure 2.1 shows the system architecture for implementing video processing on a Xilinx Zynq AP SoC device.

”. The Smart NIC platform provided by Xilinx is easy to deploy, with one-stop application acceleration and out-of-the-box capabilities that go far beyond basic networking, which can help users easily meet the challenges brought about by growing networking requirements. Donna Yasay, Vice President of Marketing, Data Center Business Unit, Linx, said: "Current cloud infrastructures suffer from critical data bottlenecks caused by server I/O. Up to 30%_ of data center computing resources are allocated for networked I/O processing, and the overhead continues to grow with the number of CPU cores.

XQ7V585T-L2RF1157E_XCV100-4C/BG680 looking for [Aerospace Military Industry]

XCV100E-7CSG144I looking for [Aerospace Military Industry]

XCV2004FG456C XCV200-4FG456 XCV200-4FG256I XCV200-4FG256C XCV2004FG256C XCV200-4FG256 XCV200-4BGG352I XCV200-4BGG352C XCV200-4BGG256I XCV200-4BGG256C XCV200-4BG432C XCV200-4BG356C XCV200-4BG352I XCV200-4BG352C XCV200-4BG256I XCV200-4BG256C XCV200-4BG256 。

XCV200-6BG256AF XCV200-5PQG240I XCV200-5PQG240C XCV200-5PQ240I XCV200-5PQ240C XCV2005PQ240C XCV200-5FGG456I XCV200-5FGG456C XCV200-5FGG256I XCV200-5FGG256C XCV200-5FG456I XCV200-5FG456C XCV200-5FG456 XCV200-5FG256I XCV200-5FG256C XCV200-5BGG352I XCV200-5BGG352C 。

XCV100E-6BG352 XCV100E-6BG240I XCV100E-6BG240C XCV100E-6HQ240C XCV100E-6FG256C XCV100E-5Q240I XCV100E-5FG256C XCV100E-5BG352C XCV100E-4CS144I XCV100E-4CS144C XCV100E-2PQ240 XCV100E-2FG256 。

XCV100-5BGG256I XCV100-5BGG256C XCV100-5BG256I XCV100-5BG256C XCV100-5BF256C XCV100-4TQG144I XCV100-4TQG144C XCV100-4TQ144I XCV100-4TQ144C XCV100-4TQ144AFP XCV100-4TQ144 XCV100-4TQ144 XCV100-4PQG240C XCV1004PQG240C XCV100-4PQ240I 。

XQ7V585T-L2RF1157E_XCV100-4C/BG680 looking for [Aerospace Military Industry]

Flexibility is one of the core selling points of acap. In the face of competitors such as Intel and Nvidia, we should focus on the core competitiveness of sales, that is, the hardware level can be very flexible and adaptable according to different workloads and efforts, rather than competing with them in the traditional field. Since larger competitor altera has fallen into Intel's pocket in 2015, new competitors in sales have become Intel, nvida, and others. Especially in the era of artificial intelligence, Xilinx also hopes to use this advantage to achieve the inheritance of Intel and Invida. The introduction of acap will help salespeople compete with higher-level competitors in new markets. Obviously, this is for Intel and Nvidia. This equates to a successful promotion of sales, which will compete on a higher level with the likes of Intel and Nvidia.

In July 2016, Xilinx said it would become an all-programmable company within the next five years, using its strengths to help customers differentiate and target emerging areas such as cloud computing, Internet of Things, 5G wireless and embedded vision. Cyrus defines it as a new product different from CPU, GPU and FPGA. This is an adaptive computing acceleration platform. At present, the main series of FPGA products include high-performance virtex series, mid-range kintex series and low-cost artix and spartan series. In fact, in 2014, Xilinx began work on a new generation of products that debuted in early 2018.