媒体处理器的出现解决了这一问题。
TMDSP是一个可编程多媒体处理器。
媒体处理器IP核重用成为可编程媒体系统芯片设计的重点和难点。
The reuse of multimedia processor IP core is the key and difficulty of programmable media SOC design.
该系统由嵌入式多媒体处理器模块,RF接收模块,存储模块和LCD显示模块等部分组成。
It is composed of multimedia media processor module, RF module, memory module and LCD module.
基于SIMD技术的媒体处理器在多媒体处理领域凭借着其良好的可编程性和高性能而备受关注。
SIMD media processors have been widely known and used in the area of multimedia processing because of their good programmability and high performance.
本文围绕媒体处理器IP核在媒体系统芯片中的重用,对数据通路设计及控制信息通信机制进行研究。
The paper studies the design of data paths and the communication mechanism of control information, focusing on the reuse of media processor IP core in media SOC.
TMS320 DM 642数字媒体处理器(DM 642)是德州仪器一款性能很好的定点DSP。
The TMS320DM642 Digital Media Processor (DM642) is a high-performance fixed-point DSP from Texas Instruments.
本课题提出并实现了使用单片媒体处理器全软件实现系统解复用、音视频解码的高清晰度有线电视机顶盒的方案。
In this project, a solution of realizing a completely programmable HDTV STB based on a single media processor is presented.
DM 642的性能在已推向市场的各种媒体处理器中位于领先地位,将会广泛应用在网络多媒体开发平台的设计中。
DM642 makes a leading performance among all the media processors introduced into market, and will be widely used in network multimedia develop platform designs.
根据其体系结构,媒体处理器可以分为专用可编程处理器、通用可编程处理器、专用处理器和可重配置处理器几大类。
Media processors can be classified into two pieces, special purpose programmable processor and general purpose programmable processor, or dedicated processor and reconfigurable processor.
帮忙翻一段摘要本文主要研究基于数字媒体处理器TMS320C 6000系列系统的研发,并算法实现图像灰度变换。
This paper mainly studies TMS320C6000 processor based on digital media research, and the series system image gray-scale transform algorithm.
该台电脑拥有一个2.5 -GHz的英特尔酷睿2四核处理器、6gb的内存和英特尔gma(图形媒体加速器)3100显卡。
This PC is powered by a 2.5-ghz Intel Core 2 Quad processor and has 6gbs of RAM and an Intel GMA (graphics Media Accelerator) 3100 for graphics.
DSP和CPU处理器是目前电子工业领域增长最迅速的产品之一,它们被广泛地应用于通信、消费和多媒体等诸多领域。
DSP and CPU processor are among the product that develops fastest in the electronic industry field, they are applied widely in the field of communication, consumption and multimedia.
随着计算机应用领域不断拓展,流媒体应用及科学计算正成为微处理器的一种重要负载。
With the expanding area of computer application, stream media application and scientific computing are becoming an important kind of application of processor.
DSP处理器是目前电子工业领域增长最迅速的产品之一,其广泛应用于通信、消费类、多媒体等领域。
The increasing use of Digitial Signal Processors (DSPs) is a clear trend in the telecommunications, multimedia, and consumer electronics industries.
在英特尔公司推出这款产品前,已有T2060型号处理器的笔记本电脑出现在市场上,部分网络媒体对此作了专门报道,并作了种种揣测和分析。
Before Intel releases this product, notebook PCs with T2060 processors have been available in the market. Some web media made special reports on this and had much speculation over the cause.
针对处理器与存储器之间日益增长的性能间隙问题,分析了传统微处理器对媒体处理应用的通讯瓶颈;
The growing processor-memory performance gap was solved. The communication bottlenecks of traditional microprocessor, which is used for media processing application, were discussed.
传统微处理器体系结构不能很好地匹配媒体处理应用的特点。
The characteristics of media processing applications are poorly matched to conventional microprocessor architectures.
本论文基于可重构计算系统提出了针对多媒体图像处理的可重构阵列协处理器模型RAC。
Based on the reconfigurable computing system, the thesis proposes RAC, a reconfigurable array coprocessor model, targeted at multimedia image applications.
硬件方面,检测系统由声学传感器,前置处理器,多媒体声卡和计算机四部分组成;
For hardware, it is composed of an acoustic probe, a preprocessor, a multimedia auditocard and a computer.
多媒体应用处理器简称MAP,是一种适用于便携式数字音视频设备的新型嵌入式应用处理器。
Multimedia application processor, in brief called MAP, is a new embedded application processor which is used in the area of portable digital AV equipment design.
具有了多媒体处理标准和多媒体DSP处理器之后并不能完成多媒体通讯,最重要的一部分就是代码的编写。
With the multimedia standard and multimedia DSP processor, multimedia communication has not been accomplished, the most important part is coding.
为此,结合嵌入式多媒体信号处理与系统控制特点而设计了32位可配置媒体增强RISC微处理器核RISC32(包括RISC3201和RISC3202)。
According to that, a 32bit configurable media-enhanced RISC microprocessor RISC32 (RISC3201 and RISC3202) is designed for media processing and system controlling.
为了用于实现多媒体数据处理,针对音视频的DSP处理器结构经过了特别优化设计,且提供了丰富的多媒体处理指令集。
The hardware structure of DSP processor core is especially designed for multimedia data processing, and plentiful multimedia data processing instructions are available.
本文将详细介绍PA7100LC微处理器的结构设计及其特征,并讨论它对多媒体处理的支持。
In this paper, PA7100LC's architecture design and its features are introduced in detail, and the supports for multimedia processing are also discussed.
重点阐述了OMAP5910处理器在第三代无线终端领域的多媒体应用,最后给出了OMAP5910在嵌入式语音系统中的应用实例。
The application for multimedia in3Gwireless terminal is described in detail, with the application field discussed. Finally, the paper introduces an applied example for speech based on OMAP5910.
其中高灵活性、低成本和相对较高的性价比的DSP处理器,在媒体处理领域得到广泛应用。
DSP with high flexibility and good cost-performance ratio is especially suitable for multimedia processing fields.
一个快速处理器能快速处理需要存储并生成多媒体的大量数字数据。
A fast processor can quickly handle the huge amount of digital data that is required to store and produce multimedia.
一个快速处理器能快速处理需要存储并生成多媒体的大量数字数据。
A fast processor can quickly handle the huge amount of digital data that is required to store and produce multimedia.
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