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引用次数: 1
摘要
数字视频压缩技术对于在带宽和存储空间有限的环境下高效传输和存储多媒体内容具有重要作用。本文介绍了采用FPGA编码器架构进行3D视频编码的更新、更可靠的多媒体技术,以推动行业在娱乐营销领域提高服务水平,鼓励3D视频内容、配套设备3D能力和3D应用的普及。作为一种现象,智能手机、平板电脑和其他移动设备的销售额已经超过了PC。随着3D视频的日益普及和在移动设备上的应用,产生了对存储、数据传输、显示都需要高效编码的需求。该设计用VHDL语言描述,并合成到zynq7000 AP SoC FPGA上。FPGA架构的吞吐量达到666 MHz的处理,RAM频率为533 MHz,允许其用于针对HDTV的H.265/HEVC标准。为了提高编码器过程中的可靠性,可以通过在zynq7000 AP SoC上实现代码HEVC来实现。
3D video coding development based on FPGA platform Xilinx Zynq-7000
Digital video compression techniques have an important role that makes transmission and storage of multimedia content in bandwidth and storage space limited environment efficient. This paper describes 3D video coding using FPGA encoder architecture for newer and more reliable multimedia technologies to drive the industry to improve services in the field of entertainment marketing, to encourage the popularization of 3D video content, supporting devices 3D capabilities, and 3D applications. As a phenomenon that occurs at this time, smartphones, tablets, and other mobile devices has surpassed the value of PC sales. Along with the growing popularity of 3D video and be applied to the mobile device, resulting in the need for storage, data transmission, and display requires an efficient coding. The design is described in VHDL and synthesized to Zynq 7000 AP SoC FPGA. The throughput of the FPGA architecture reaches a processing at 666 MHz, RAM frequency 533 MHz permitting its use in H.265/HEVC standard directed to HDTV. To improve reliability in the process of encoder, one of which can be done by implementing a code HEVC to Zynq 7000 AP SoC.
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