SOPC design is one of hotspots in embedded system fields. Using a mature MCU soft core is a crosscut to enter this field.
可编程片上系统(SOPC)是近期嵌入式系统设计的热点之一,利用成熟的处理器软核是进入这一领域的捷径。
User-defined logic can be added conveniently into SOPC design and it is the flexibility, tight coupling, high efficiency and low power consuming of user.
在SOPC设计中可方便地加入用户自定义逻辑,而用户自定义逻辑具有灵活性、紧耦合性、高效率、低功耗等特性,使SOPC设计的优越性得以充分体现。
Introduce the technique of SOPC with softcore processor NIOS II. Analyze the traditional design and the SOPC design in a Direction-Sequence Spread-Spectrum Receiver and Transmitter system.
介绍了基于NIOSII软核处理器的SOPC技术,分析了传统方法和基于SOPC技术的方法实现扩频收发机的优劣,详细说明了嵌有双nios II的SOPC技术的方案设计。
Finally, the design and implementation of security Ethernet chip based on SOPC are described in detail, which ensures the higher security and better control of networks.
最后本文基于SOPC技术设计并实现了一块安全以太网芯片,从根本上保证了网络的高安全性和强可控性。
The tremendous development of semiconductor technology and electronic design automation (EDA) made the system on a programmable chip (SOPC) possible.
随着半导体技术和电子设计自动化(EDA)的迅猛发展,使系统级可编程芯片(SOPC)成为可能。
This paper realizes the design of enhanced Bluetooth baseband system based on SOPC.
论文采用SOPC方案完成了增强型蓝牙基带系统的设计和实现。
The design of dielectric loss test system based on SOPC is carried out in the paper, according to the analysis of existing systems and the development and application of SOPC.
本文首先介绍了介质损耗测试的原理并对现有的介质损耗测量技术进行了分析对比,以谐波分析法作为基于SOPC技术的设计方案的理论基础。
SOPC (system on a Programmable Chip) and embedded system is the most popular conception in the electronic design field.
SOPC片上可编程系统和嵌入式系统是当前电子设计领域中最热门的概念。
It puts forward the design flow and design issue of embedded systems based on system-on-a-programmable chip (SOPC).
提出基于可编程片上系统(SOPC)的嵌入式系统设计流程及其所涉及的主要设计问题。
How to use modern DSP technology and advanced EDA software to design a System On Programmable Chip (SOPC) is discussed mainly in software design.
软件方面则主要讨论了如何应用现代DSP技术和先进的EDA设计软件进行SOPC设计。
This design provides feasible and effective implementations for embedding USB host controller in the SOPC system, expands the peripheral interfaces of SOPC system. It is of higher application value.
本设计为SOPC系统中嵌入usb主机控制器提供了有效可行的实现方案,拓展了SOPC系统的外设接口,具有较高的应用价值。
The most major characteristic of this platform is the user can completes the SOPC correlation study and the research through the simple design or the direct transfer way.
该平台最大的特点是使用者能通过简单设计或直接调用方式的完成SOPC相关学习及研究工作。
This article focuses on design a CMOS IP core have the image acquisition and processing and tracking module, and how to add it to form a complete SOPC system.
本文重点是CMOSIP核中图像采集处理和跟踪模块的设计,如何添加使其形成完整的SOPC系统。
As a result of SOPC technology and reconfigurable technology this design has the characteristics of design Flexibility, high processing speed and flexibility to algorithm upgrade.
由于采用SOPC技术和可重构技术,此设计具有设计灵活、处理速度快和算法可灵活升级等特点。
As a result of SOPC technology and reconfigurable technology this design has the characteristics of design Flexibility, high processing speed and flexibility to algorithm upgrade.
由于采用SOPC技术和可重构技术,此设计具有设计灵活、处理速度快和算法可灵活升级等特点。
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