DSP RTOS is an important part of complex DSP applications.
DSP操作系统是实现复杂DSP应用的关键技术。
Embedded real time operation system (RTOS) is used in this thesis.
本文中主要应用了其中的嵌入式实时操作系统(RTOS)技术。
This is a core concept to building real-time systems using an RTOS.
这在构建实时系统是一个关键概念。
In most RTOS, the timer interrupt service routine (ISR) executes at every time tick.
在一般的嵌入式实时操作系统中,时钟中断服务程序在每个时钟节拍工作。
Briefly introduced the concept and technology of Embedded RTOS (Real-Time Operating System).
简要介绍了嵌入式实时操作系统(RTOS)的概念和技术特点。
Thus, the realization of this control structure on multi-DSP system and RTOS platform is done.
这样,就完成了该控制结构在多DSP系统和RTOS平台上的实现。
The core of the RTOS takes charge of task scheduler and switch to ensure the real-time of task.
嵌入式实时操作系统的内核负责各个任务之间的调度和切换来保证任务的实时性。
On the side of software design, we choose RTOS instead of traditional software programming method.
在软件设计方面,系统采用了RTOS的设计思路取代传统的前后台的软件设计方法。
The author offered relevant knowledge in the selection of RTOS according the practical experience.
同时根据实际在操作系统的选型过程,提出了如何选择操作系统的相关知识。
There are mainly two structures of CNC'S RTOS. They are foreground-background type and interrupt type.
计算机数控的操作系统目前主要有前后台型及中断型二种结构。
P51XA is a MCS-51 compatible 16-bit MCU which runs fast, has a large memory capacity and supports RTOS.
P 51XA是一种与MCS - 51兼容的16位单片机,运行速度快,存储器空间大,支持实时多任务操作系统。
This scheme involves hardware platform, RTOS, browser and application software, supports the output of h.
该方案涉及底层硬件平台、嵌入式操作系统、浏览器和上层软件系统,能够支持H。
Such an approach ensures a higher reliability (predictability) with the RTOS time than Linux is capable of providing.
这样的方式保证了RTOS时间能比Linux提供更高的可靠性(可预见性)。
And also, a good RTOS should provide sufficient API and friendly development environment for application development.
RTOS还应该为应用开发提供丰富的应用程序接口和良好的开发环境。
It is one of the main targets of the RTOS standardize that RTOS application program interface standardize occasionally.
RTOS的应用编程接口的标准化是RTOS标准化的主要目标之一。
In the development and application of the embedded system, using the embedded RTOS is inevitable tendency and app hotspot.
在嵌入式系统的开发应用中,使用嵌入式rtos是一个必然趋势和应用热点。
More and more engineers use the RTOS(real time operating system) and software toolkit to develop embedded real time system.
基于RTOS以及各种软件包来开发嵌入式实时系统已经成为主流。
Chapter 3 presents the design and implementation of memory management of RTOS for the HDTV integrated source decoder chip.
第三章具体描述应用于HD TV信源解码芯片的实时操作系统存储管理策略的设计及实现。
A kind of design method of low voltage power quality monitor based on real time operation system (RTOS) is introduced in this paper.
介绍了一种基于实时操作系统(RTOS)的低压电能质量监测器的设计方法。
Both priority inheritance protocol and priority ceiling protocol are common solutions to priority inversion in real-time system (RTOS).
优先级继承协议和天花板优先级协议都可在一定程度上解决实时系统(RTOS)中的优先级倒置。
A kind of design method of microprocessor protection relay apparatus based on real time operating system (RTOS) was introduced in this paper.
介绍了一种基于实时操作系统的微机继电保护装置的设计方法。
After studying on GUI software research and development of embedded system, a GUI software framework is proposed based on RTOS of embedded system.
在对嵌入式系统GUI软件开发研究的基础上,提出了一种基于嵌入式系统RTOS上GUI的软件框架。
An embedded system using RTOS has higher reliability, higher stability and higher speed, so porting RTOS to MCU is a necessary work of development MCU.
在嵌入式系统中使用实时操作系统,可以提高系统的稳定性、可靠性和实时性,因此为单片机移植操作系统是单片机开发的必要工作。
First, It introduces the feature of embedded system, then analysis the importance of RTOS in developing embedded system and how to select a proper RTOS.
文章首先介绍了嵌入式系统的基本特点,然后分析了RTOS在嵌入式系统开发中的作用,以及系统设计人员如何为嵌入式系统选择合适的RTOS。
The software part, which is also as firmware, mainly includes real time operating system (RTOS), MAC application program and C code for interface modules.
软件设计主要是嵌入式系统的固件设计,包括实时操作系统(RTOS),实现MAC功能的程序,接口硬件C程序三部分。
And then describe the importance of developing embedded real time system based upon RTOS and the principle of adopting RTOS, and introduces some popular RTOS.
接着论述了基于RTOS开发嵌入式实时系统的重要性以及选用RTOS的原则,介绍了几种热门的RTOS。
Meanwhile, the software framework can decouple the embedded GUI software system and RTOS, to improve the maintainability, understandability and extensibility.
同时,该软件框架降低了GUI软件系统与RTOS的耦合性,提高了嵌入式GUI软件的可维护性、可理解性和可扩展性。
Meanwhile, the software framework can decouple the embedded GUI software system and RTOS, to improve the maintainability, understandability and extensibility.
同时,该软件框架降低了GUI软件系统与RTOS的耦合性,提高了嵌入式GUI软件的可维护性、可理解性和可扩展性。
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