XCS30XL-4PC280I_XQ2V3000-4CG717M Introduction

However, in fact, the human eye itself is a "miracle creation". It can perceive every light and dark part between a square inch through the enlargement and reduction of the pupil, while the real world follows the natural illumination and has different details of the light and dark parts. . The five factors that affect image quality include resolution, bit depth, frame rate, color gamut, and brightness. In recent years, 4K/8K 60Hz/120Hz display panels have gradually become familiar to everyone. Domain and brightness are also put forward new requirements. Since the birth of video recording, restoring every inch of the realistic world has always been the ultimate pursuit of the industry.

Since joining Xilinx in 2008, the company has won the championship for three consecutive times in the 28 nm, 20 nm and 16 nm three-generation process products, and won the first place in the industry. Broad application field development. Recently, as the head of the CEO, Peng Rongkui introduced Cylinth's future vision and strategic blueprint for the first time, and released a new breakthrough product that surpasses FPGA-ACAP (AdaptiveCompute Acceleration Platform, AdaptiveCompute Acceleration Platform), which enables Cylinth Inspiration goes beyond the limitations of FPGAs to support the rapid innovation of many different technologies from end-to-edge to cloud.

XCS30XL-4PC280I_XQ2V3000-4CG717M

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Go language to FPGA platform builds custom, reprogrammable, low-latency accelerators using software-defined chips. GraphSim is a graph-based ArtSim SSSP algorithm. The GZIP accelerator provides hardware-accelerated gzip compression up to 25 times faster than CPU compression. The resulting archive conforms to the RFC 1952 GZIP file format specification. It is a preconfigured, ready-to-run image for executing Dijkstra's shortest path search algorithm on Amazon's FGPA-accelerated F1.

Unlike standard chips, they can be reprogrammed after production. This makes them highly valuable in rapid prototyping and rapidly emerging technologies. In the FPGA space, Intel is another major player, having established itself in the space with its 2015 acquisition of Altera. Xilinx, mostly known as microchips called Field Programmable Gate Arrays (FPGAs), is the leading company in this field.

Some industry analysts pointed out that if AMD succeeds in winning Xilinx, it will bring a new competitive landscape to the global semiconductor industry. Xilinx once revealed to the media that because Intel acquired Altera, many potential customers will hand over more orders to Xilinx for the sake of neutrality, so Xilinx's share in the FPGA market has increased significantly in the past two years. Like the outside world's neutral view of Arm, once AMD successfully acquires Xilinx, downstream customers will only have two choices when purchasing FPGA chips and related solutions, which will increase the concerns of downstream companies.

According to the report data released by IC Insights, a third-party analysis agency on September 29, the total value of global semiconductor mergers and acquisitions soared to US$63.1 billion in the first nine months of 2020, of which the two transactions of Nvidia-Arm and ADI-Maxim accounted for about 97% of total M&A in 2020. These two transactions have made the global semiconductor landscape go through a new round of mergers and acquisitions and reshuffles. If AMD reaches an acquisition agreement with Xilinx, the value of semiconductor M&A transactions in 2020 may also rise to $93.1 billion, making it the third largest merger and acquisition year in the history of the semiconductor industry. In the first quarter of this year, the value of semiconductor M&A transactions was $1.8 billion, and it only reached $165 million in the second quarter. In fact, 2020 was supposed to be a sluggish year for mergers and acquisitions in the semiconductor market, affected by the new crown epidemic and Sino-US relations. However, in the third quarter, the demand for the semiconductor market has recovered significantly, and the cost expenditure has increased, and a new wave of mergers and acquisitions has emerged.

XCS30XL-4PC280I_XQ2V3000-4CG717M

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XCS30XL-6BG256C XCS30XL-5VQG100I XCS30XL-5VQG100C XCS30XL-5VQ84I XCS30XL-5VQ84C XCS30XL-5VQ280I XCS30XL-5VQ280C XCS30XL-5VQ256I XCS30XL-5VQ256C XCS30XL-5VQ240I XCS30XL-5VQ240C XCS30XL-5VQ208I XCS30XL-5VQ208C XCS30XL-5VQ144I XCS30XL-5VQ144C XCS30XL-5VQ100I 。

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XCS30XL-4PC280I_XQ2V3000-4CG717M

We use the example of fast corners to illustrate the process of implementing OpenCV with VivadoHLS. Finally, the functions in the rewritten OpenCV design are replaced with video functions of the corresponding functions provided by HLS, and synthesized using VivadoHLS, implemented in FPGA programmable logic or as a Zynq SoC hardware accelerator under the Xilinx development environment. Next, establish the OpenCV processing algorithm based on the video data stream chain, and rewrite the usual design of the previous OpenCV. This rewrite is to be the same as the HLS video library processing mechanism, which is convenient for the function replacement in the following steps. Of course, these synthesizable codes can also run on a processor or ARM. First, develop an OpenCV-based fast corner algorithm design and validate this algorithm using OpenCV-based test-inspired simulations.

The company's dominant brands: XILINX, ALTERA, SAMSUNG, MICRON, HYNIX, NANYA, ISSI, INTEL, TI, MAXIM, ADI, POWER, DAVICOM, PLX, CYPRESS, MARVELL, AOS, ON, ST, NXP, IR, FREESCALE, NS, AVAGO, TOSHIBA, DIODES, RENESAS, ATMEL, etc...predominant brands. Introduction to Xilinx Agent After more than ten years of unremitting efforts, Aerospace Military Semiconductor Co., Ltd. has established good business relations with many well-known IC manufacturers and agents and OEMs in the United States, Britain, Germany, Japan, South Korea, and China. , Acting for the distribution of many well-known brand IC products in the world and domestic, customers all over the world.