1) nanokernel
超微内核
1.
In this paper, we present a design method of an object-based nanokernel embedded real-time operating system .
本文提出了一种基于对象的超微内核嵌入式实时操作系统的设计方法。
2.
This paper focuses on the real-time IDC in the nanokernel operating systems, through the research on IPCs, we investigate the properties of IDCs in real-time operating systems, as well as how to complete efficient IDC for a real-time systems.
通过对实时FIFO的设计、实现过程,应用软件工程的方法,完成一个超微内核架构下的先进先出队列,用于在超微内核架构的操作系统上完成不同域间的通信,对其性能进行测试,对不同策略对其造成的影响进行评估。
2) Real-time Nanokernel
实时超微内核
3) ultra-kernel
超内核
1.
In this paper,we propose ultra-kernel model to make dedicated system tolerant code bugs and improve the security of system.
提出一种新的计算机体系结构模型——超内核系统模型,使专用系统可以容忍代码错误,提高可生存性。
4) micro-kernel
微内核
1.
Design of hard real-time micro-kernel in embedded operating system;
嵌入式操作系统的硬实时微内核设计
2.
Management Strategy of the Real-Time Database based on the Micro-kernel;
基于微内核的实时数据库数据管理策略
3.
Implementation of Request Processing in Micro-kernel ORB;
一种基于微内核ORB的请求处理实现机制
5) microkernel
微内核
1.
Design and implementation of microkernel-based architecture;
一种基于微内核的系统结构的设计与实现
2.
Real-Time Satellite Operating System Design Based on Microkernel Architecture;
采用微内核结构的实时卫星操作系统设计
6) micro kernel
微内核
1.
This paper describes what kind of OS satellite software required and presents a micro kernel structure for satellite embedded system with the characteristics of satellite application oriented,small size,software reconfigurable,high real-time and stability.
该文分析星载软件所需的实时操作系统,根据星载软件的实际任务要求,提出一个适合于星上嵌入式系统的软件微内核设计架构,具有面向卫星、占固存少、可在轨软件重构、实时性强、可靠性高等特点。
2.
First,this paper analyses how micro kernel and monolithic kernel influence device drivers in the aspects of kernel performance and security.
论文首先从内核性能和安全性的角度分析驱动程序对微内核与单体内核的影响;然后讨论硬件抽象层对驱动抽象能力的影响以及与移植性及内核大小的关系;分析传统UNIX系列与Windows NT操作系统内核结构以及驱动模型优缺点;最后介绍一个构件化驱动模型的特点。
补充资料:LF型内藏分级立式超微粉碎机
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条