博客
关于我
强烈建议你试试无所不能的chatGPT,快点击我
Context Switch Definition
阅读量:6914 次
发布时间:2019-06-27

本文共 6208 字,大约阅读时间需要 20 分钟。

 

 

context switch (also sometimes referred to as a process switch or a task switch) is the switching of the  (central processing unit) from one  or thread to another.

A process (also sometimes referred to as a task) is an executing (i.e., running)  of a . In , threads are lightweight processes that can run in parallel and share anaddress space (i.e., a range of  locations) and other resources with their parent processes (i.e., the processes that created them).

context is the contents of a CPU's  and program counter at any point in time. A register is a small amount of very fast memory inside of a CPU (as opposed to the slower main memory outside of the CPU) that is used to speed the execution of  programs by providing quick access to commonly used values, generally those in the midst of a calculation. A program counter is a specialized register that indicates the position of the CPU in its instruction sequence and which holds either the address of the instruction being executed or the address of the next instruction to be executed, depending on the specific system.

Context switching can be described in slightly more detail as the  (i.e., the core of the ) performing the following activities with regard to processes (including threads) on the CPU: (1) suspending the progression of one process and storing the CPU's state (i.e., the context) for that process somewhere in memory, (2) retrieving the context of the next process from memory and restoring it in the CPU's registers and (3) returning to the location indicated by the program counter (i.e., returning to the line of code at which the process was interrupted) in order to resume the process.

A context switch is sometimes described as the kernel suspending execution of one process on the CPU and resuming execution of some other process that had previously been suspended. Although this wording can help clarify the concept, it can be confusing in itself because a process is, by definition, an executing instance of a program. Thus the wording suspending progression of a process might be preferable.

Context Switches and Mode Switches

Context switches can occur only in . Kernel mode is a privileged mode of the CPU in which only the kernel runs and which provides access to all memory locations and all other system resources. Other programs, including applications, initially operate in , but they can run portions of the kernel code via . A system call is a request in a operating system by an active process (i.e., a process currently progressing in the CPU) for a service performed by the kernel, such as input/output (I/O) or process creation(i.e., creation of a new process). I/O can be defined as any movement of information to or from the combination of the CPU and main memory (i.e. RAM), that is, communication between this combination and the computer's users (e.g., via the keyboard or mouse), its  devices (e.g., disk or tape drives), or other computers.

The existence of these two modes in Unix-like operating systems means that a similar, but simpler, operation is necessary when a system call causes the CPU to shift to kernel mode. This is referred to as a mode switch rather than a context switch, because it does not change the current process.

Context switching is an essential feature of  operating systems. A multitasking operating system is one in which multiple processes execute on a single CPU seemingly simultaneously and without interfering with each other. This illusion of concurrency is achieved by means of context switches that are occurring in rapid succession (tens or hundreds of times per second). These context switches occur as a result of processes voluntarily relinquishing their time in the CPU or as a result of the scheduler making the switch when a process has used up its CPU time slice.

A context switch can also occur as a result of a hardware interrupt, which is a signal from a hardware device (such as a keyboard, mouse, modem or system clock) to the kernel that anevent (e.g., a key press, mouse movement or arrival of data from a  connection) has occurred.

Intel 80386 and higher CPUs contain hardware support for context switches. However, most modern operating systems perform software context switching, which can be used on any CPU, rather than hardware context switching in an attempt to obtain improved performance. Software context switching was first implemented in Linux for Intel-compatible processors with the 2.4 kernel.

One major advantage claimed for software context switching is that, whereas the hardware mechanism saves almost all of the CPU state, software can be more selective and save only that portion that actually needs to be saved and reloaded. However, there is some question as to how important this really is in increasing the efficiency of context switching. Its advocates also claim that software context switching allows for the possibility of improving the switching code, thereby further enhancing efficiency, and that it permits better control over the validity of the data that is being loaded.

The Cost of Context Switching

Context switching is generally computationally intensive. That is, it requires considerable processor time, which can be on the order of nanoseconds for each of the tens or hundreds of switches per second. Thus, context switching represents a substantial cost to the system in terms of CPU time and can, in fact, be the most costly operation on an operating system.

Consequently, a major focus in the design of operating systems has been to avoid unnecessary context switching to the extent possible. However, this has not been easy to accomplish in practice. In fact, although the cost of context switching has been declining when measured in terms of the absolute amount of CPU time consumed, this appears to be due mainly to increases in CPU clock speeds rather than to improvements in the efficiency of context switching itself.

One of the many advantages claimed for Linux as compared with other operating systems, including some other Unix-like systems, is its extremely low cost of context switching and mode switching.

http://www.linfo.org/context_switch.html

转载于:https://www.cnblogs.com/softidea/p/5873307.html

你可能感兴趣的文章
Nginx配置——用户认证
查看>>
SD卡分区及取消分区
查看>>
创建VLAN、中继链路和参与以太网捆绑的详细配置和截图
查看>>
健康的办公族作息时刻表
查看>>
新博客地址此博客不再更新baishuchao.github.io
查看>>
Git问题Everything up-to-date解决
查看>>
淘宝Tengine安装指南
查看>>
nginx-mysql-php安装配置
查看>>
div加链接 html给div加超链接实现点击div跳转的方法
查看>>
layer 旋转
查看>>
写一个算法计算n的阶乘末尾0的个数
查看>>
Java正则表达式语法大全
查看>>
apache设置自定义header
查看>>
WPS田字格的做法
查看>>
Linux账号登录安全
查看>>
Linux 基础命令 – watch
查看>>
我的友情链接
查看>>
snavigator安装步骤
查看>>
python抓取jenkins slave信息写道mysql并展现到grafana
查看>>
debian 常用的源
查看>>