灵活内核技术把构件技术充分地融入到了操作系统体系结构的设计中,在兼顾了性能和灵活性的同时也引入了安全问题。
The agile kernel technique uses component-based programming model in implementing operating systems, and provides a natural model of operating system architecture.
从理论上说,可以使用任何操作系统平台和体系结构的机器作为引导服务器或安装服务器,只要它实现了所需的协议。
Theoretically, you can use a machine of any OS platform and architecture, as long as it implements the required protocols, as a boot server or installation server.
不过,您同样可以将所有的思想应用到任意的机器体系结构、操作系统和编译器组合。
However, you can apply the overall concepts equally well to any machine architecture, operating system, and compiler combinations.
您可以对很多操作系统和硬件体系结构应用这些方法和策略。
You can apply these methods and strategies to many operating systems and hardware architectures.
每一个目录都应该明确对应于一种特定的操作系统、体系结构和版本编号(如果变化显著的话)。
Each directory will be specific to a particular operating system, architecture, and, if the changes are significant, the version Numbers.
“resources”标记使您能够保护资源,从而只有特定的操作系统和体系结构能够使用该资源。
The resources tag allows you to protect resources for use only by a particular operating system and architecture.
核心Linux操作系统本身的微内核体系结构相当简单。
The core Linux operating system itself has a fairly simple micro-kernel architecture.
诸如Windows之类的Intel操作系统,使用基于线程的体系结构以达到性能最大化。
Intel operating systems, such as Windows, use an architecture based on threads to maximize performance.
本文简要阐述了在Windows 2000 操作系统上使用并置服务器成功配置企业体系结构所需的设置步骤。
This article outlines the setup steps required to successfully configure an enterprise architecture that uses a collocated server on a Windows 2000 system..
介绍了实时操作系统SACOS的特点、体系结构和目标机系统的内存映射。
The features, architecture and target system's memory map of Real-Time Operating System SACOS are introduced.
技术及其操作系统家族(主要是基于WIN32体系结构)的POS规范实现。
X technology and POS norm of the operating system family (mainly on the basis of WIN32 system structure) are realized.
栈和队列常常被视为数据结构中的面包和黄油,广泛应用在体系结构、分析、操作系统和离散事件等领域。
Stacks and Queues are often considered the bread and butter of data structures and find use in architecture, parsing, operating systems, and discrete event simulation.
另一方面各种网络的体系结构以及相应的网络操作系统,网络应用软件非常丰富复杂,变化也很大。
On the other hand, the architectures of networks, corresponding network operating systems and network application software are very plentiful, complex, and vary greatly.
这种异构性即表现在计算机体系结构的异构,也表现在基础操作系统的异构,还体现在DBMS本身的异构。
This heterogeneity is reflected not only in the heterogeneous computer architecture, but also on the basis of heterogeneous operating systems, also reflected in their heterogeneous DBMS.
在嵌入式系统实验中,了解ARM的体系结构、熟悉嵌入式操作系统是关键。
In the embedded system experiment, it is crucial to be familiar with architecture of ARM and embedded operating system.
熟悉CC 2540BLE的软件体系结构,包括OSAL操作系统抽象层、HAL硬件抽象层、BLE协议栈、配置文件、应用,以及这些模块如何一起工作。
Become familiar with the architecture of CC2540 BLE software, including the OSAL, HAL, BLE stack, profiles, application, and how all of the pieces work together.
模块化的WDM体系结构,灵活统一的接口使操作系统可以动态的配置不同的设备驱动程序模块来支持特定的设备。
WDM's structure, the unique interface causes operating system may be dynamic to layout difference equipment driver program module to back special device.
当今操作系统的发展趋势是采用微内核体系结构。
The recent trend in operating system development is adopting microkernel architecture which holds such advantages as microminiaturization, modularity, portability and extendibility.
这些业务范围从设计的力学、传感器系统、能源系统、计算机体系结构的机器人、控制和导航算法到适当的操作系统和用户界面。
These tasks range from design of the mechanics, sensor system, energy system, computer architecture of the robot, control and navigation algorithms to an adequate operating system and user interface.
操作系统内核体系结构的设计采用了建立在纳核层上的微内核结构,并在微内核的构建中融合了基于对象技术,克服了传统微内核结构消息传递机制效率低下的缺点。
The architecture of the kernel is a micro-kernel developed with objects and based on a nano-kernel. It overcomes the shortcoming of inefficiency of traditional micro-kernel.
介绍了智能家庭网络的功能和体系结构,分析了系统中的关键技术,包括嵌入式网络操作系统和通信协议,并且指出了智能家庭网络今后的研究方向。
Some key technologies such as Embedded Network Operating System and communication protocol are discussed in detail. The research trend is pointed out at the end of this paper.
介绍了智能家庭网络的功能和体系结构,分析了系统中的关键技术,包括嵌入式网络操作系统和通信协议,并且指出了智能家庭网络今后的研究方向。
Some key technologies such as Embedded Network Operating System and communication protocol are discussed in detail. The research trend is pointed out at the end of this paper.
应用推荐