In this case, the nano-kernel abstracts the hardware from the real-time and non-real-time kernels.
使用这种方法的情况下,超微内核在实时和非实时内核中对硬件进行抽象。
Where the thin kernel approach relies on a minimized kernel that includes task management, the nano-kernel approach goes a step further by minimizing the kernel even more.
这里瘦内核方法依赖于包含任务管理的最小内核,而超微内核法对内核进行更进一步的缩减。
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.
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。
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