The waiting state of a process occurs when it is ready to execute but is waiting for a resource, such as input/output operation to complete or a signal from another process. While in this state, the process cannot make progress until the required resource becomes available.
Yes, a process can transition from the ready state to the blocked state. This occurs when the process is waiting for an event such as user input or completion of I/O operations. Once the event occurs, the process can then transition back to the ready state to continue execution.
I'm unable to provide a diagram, but I can describe the concept. A process can go through several states during its execution, such as new, ready, running, blocked, and terminated. Initially, it is in the new state, then moves to ready once it has all resources needed, running when the CPU executes its instructions, blocked if it's waiting for an event, and finally terminated upon completion. These states form a cycle as the process progresses through its life cycle.
Evaporation is the process where a liquid state changes from its LIQUID state to a GAS state.
When a female says "waiting to exhale," it typically means that she is feeling overwhelmed or stressed and is waiting for a moment of relief or release. It can signify a state of anticipation for a significant change or moment of clarity.
The process of repairing and restoring a vehicle back to its original state is referred to as automotive restoration. Through this process, one reverts one's vehicle to its original, authentic state, without any updating or upgrades.
Moving from one process state(like Ready state, running state, termination state) to another process state. Process transition may occur due to different purposes like if a process: waiting for I/o operations, waiting for data from disk(moved to blocked state from running state and stays there until data extraction process in not over), or if there left no instruction in the process to be executed....then it moved to termination state from running state, If a process is in running state and at that time it is interrupted by another process, then process move from running state to ready state(join queue again and waiting for its turn again).
yes. ready state in ready queue, waiting state in waiting queue , only one exception is the running state, no queue corresponding to .
In computing, if a processor is running and doing a number of activities, those activities are known as its states. As a processor executes, its state changes. There are number of states like New state i.e. creation of new process, Running state i.e. execution of instructions, Waiting state i.e. its a state where processor is waiting for some activity to occur, Ready state i.e. in this a particular process has acquired the resources and is waiting to be assigned to a processor, Terminated state i.e. the execution of a process has completed.
A process which is Executed by the Process have various States, the State of the Process is also called as the Status of the process, The Status includes whether the Process has Executed or Whether the process is Waiting for Some input and output from the user and whether the Process is Waiting for the CPU to Run the Program after the Completion of the Process.The various States of the Process are as Followings:-1) New State : When a user request for a Service from the System , then the System will first initialize the process or the System will call it an initial Process . So Every new Operation which is Requested to the System is known as the New Born Process.2) Running State : When the Process is Running under the CPU, or When the Program is Executed by the CPU , then this is called as the Running process and when a process is Running then this will also provides us Some Outputs on the Screen.3) Waiting : When a Process is Waiting for Some Input and Output Operations then this is called as the Waiting State. And in this process is not under the Execution instead the Process is Stored out of Memory and when the user will provide the input then this will Again be on ready State.4) Ready State : When the Process is Ready to Execute but he is waiting for the CPU to Execute then this is called as the Ready State. After the Completion of the Input and outputs the Process will be on Ready State means the Process will Wait for the Processor to Execute.5) Terminated State : After the Completion of the Process , the Process will be Automatically terminated by the CPU . So this is also called as the Terminated State of the Process. After Executing the Whole Process the Processor will Also deallocate the Memory which is allocated to the Process. So this is called as the Terminated Process.
A process request request resources ,and if the resources are not available at that time ,teh process enters a waiting state.Sometimes ,a waiting process is never agian able to change state,becoj teh resources it has requsted are held by other waiting process .This situation is called deadlock.
Yes, a process can transition from the ready state to the blocked state. This occurs when the process is waiting for an event such as user input or completion of I/O operations. Once the event occurs, the process can then transition back to the ready state to continue execution.
When a process waits for an input/output operation to complete, it is referred to as being in a "blocked" or "waiting" state. During this time, the process cannot proceed with execution until the I/O operation finishes. This state is critical for managing resources and ensuring that processes do not consume CPU time while waiting for I/O.
Basically,this is a need in case of multiprogramming.For optimum utilization of CPU it should be utilised in the meanwhile time when some process is in waiting state for some I/O or waiting for some event to occur. So,for this many programs should be in memory in waiting state so that CPU can be allocated to some other process for optimum utilization of CPU. A schedule(time table in broad sense) which will decide Cpu will be allocated to which process when some previous process is in waiting state. Now this schedule is designed according to some criteria(algorithm) to decide CPU will be allocated to which process. Some Algorithms: 1.First Come First Serve(FCFS) 2.Shortest Job Scheduling(SJS) 3.RoundRobin Scheduling(RRS)
1 process at most is running. 1 process or multiple are ready. 1 process or multiple are waiting.
It varies state to state. Google "waiting periods to remarry after divorce" and many websites will give you a state to state listing of the waiting periods. Most states have no waiting period but some have a 30 day waiting period up to a 6 month waiting period. See related question link.
A deadlock is a situation in which two or more competing actions are each waiting for the other to finish, and thus neither ever does. In an operating system, a deadlock is a situation which occurs when a process enters a waiting state because a resource requested by it is being held by another waiting process, which in turn is waiting for another resource. If a process is unable to change its state indefinitely because the resources requested by it are being used by another waiting process, then the system is said to be in a deadlock.
Characteristics of a suspended process:The process is not immediately available for execution.The process may or may not be waiting for an event.The process was placed in a suspended state by an agent: either itself, a parent process, or the operating system, for the purpose of preventing its execution.The process may not be removed from this state until the agent explicitly orders the removal.