操作系统中,进程同步和互斥问题以及与之相关的信号量机制是教学过程中的重点和难点问题。
The process synchronization and process mutual exclusion and semaphore mechanism, which are emphases and difficulty in the Operating System course.
另外,平台在内存控制块的互斥操作采用的是信号量机制,这些都进一步保证了平台的安全性。
Additionally, the mechanism applied in the memory control block of the platform and the mutex is signal mechanism, Such ensures the safety of the platform further.
信号量对于系统的作用就像是十字路口的信号灯:一种保持系统运行顺畅的机制。
A semaphore is to your system what a traffic signal is to an intersection: a mechanism that keeps things running smoothly.
这种策略要求您了解基本操作系统内核提供的机制,并在程序逻辑中利用这些机制设计信号量使用方法。
This tactic requires that you review what the base OS kernel provides or advises in terms of designing the use of semaphores within your program logic.
介绍了该操作系统的内核、存储器管理和分区、分配策略、多任务调度及任务间通过信号量和消息处理进行通信的机制、中断管理等。
Introduce the kernel, memory management and partition, allocation strategy, multi-task scheduling and how to communicate by semaphore and message handling as well as interrupt management.
最后分析了数据处理中应用的ADO和DAO数据访问技术、VBA技术、信号量互斥机制等关键技术。
Finally, the paper describes the key technology used in the data processing such as ADO, DAO, VBA and the mutex of semaphores.
最后分析了数据处理中应用的ADO和DAO数据访问技术、VBA技术、信号量互斥机制等关键技术。
Finally, the paper describes the key technology used in the data processing such as ADO, DAO, VBA and them...
最后分析了数据处理中应用的ADO和DAO数据访问技术、VBA技术、信号量互斥机制等关键技术。
Finally, the paper describes the key technology used in the data processing such as ADO, DAO, VBA and them...
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