I need help in enhancing a thread scheduling strategy I am working on.
To set the context, I have a couple (20-30 thousand) "tasks" that needs to be executed. Each task can execute independently. In reality, the range of execution time varies between 40ms and 5mins across tasks. Also, each individual task when re-run takes the same amount of time.
I need options to control the way these tasks are executed, so I have come up with a scheduling engine that schedules these tasks based on various strategies. The most basic strategy is FCFS, i.e. my tasks get executed sequentially, one by one. The second one is a batch strategy, the scheduler has a bucket size "b" which controls how many threads can run in parallel. The scheduler will kick off non-blocking threads for the frist "b" tasks it gets, then waits for those started tasks to complete, then proceed with the next "b" tasks, starting them in parallel and then waiting for completion. Each "b" set of tasks processed at a time is termed a batch and hence batch scheduling.
Now, with batch scheduling, activity begins to increase at the beginning of the batch, when threads start getting created, then peaks in the middle, when most of the threads would be running, and then wanes down as we block and wait for the threads to join back in. Batch scheduling becomes FCFS scheduling when batch size "b" = 1.
One way to improve on batch scheduling is what I will term as parallel scheduling - the scheduler will ensure, if sufficient number of tasks are present, that "b" number of threads will keep running at any point in time. The number of threads initially will ramp up to "b", then maintain the count at "b" running threads, until the last set of tasks finish execution. To maintain execution of "b" threads at any time, we need to start a new thread the moment an old thread finishes execution. This approach can reduce the amount of time taken to finish processing all the tasks compared to batch scheduling (average case scenario).
Part where I need help
The logic I have to implement parallel scheduling follows. I would be obliged if anyone can help me on:
- Can we avoid the use of the startedTasks list? I am using that because I need to be sure that when the Commit() exits, all tasks have completed execution, so I just loop through all startedTasks and block until they are complete. One current problem is that list will be long.
- Is there a better way to do parallel scheduling?
(Any other suggestions/strategies are also welcome - main goal here is to shorten overall execution duration within the constraints of the batch size "b")
// assume all variable access/updates are thread safe Semaphore S: with an initial capacity of "b" Queue<Task> tasks List<Task> startedTasks bool allTasksCompleted = false; // The following method is called by a callee // that wishes to start tasks, it can be called any number of times // passing various task items METHOD void ScheduleTask( Task t ) if the PollerThread not started yet then start it // starting PollerThead will call PollerThread_Action // set up the task so that when it is completed, it releases 1 // on semaphore S // assume OnCompleted is executed when the task t completes // execution after a call to t.Start() t.OnCompleted() ==> S.Release(1) tasks.Enqueue ( t ) // This method is called when the callee // wishes to notify that no more tasks are present that needs // a ScheduleTask call. METHOD void Commit() // assume that the following assignment is thread safe stopPolling = true; // assume that the following check is done efficiently wait until allTasksCompleted is set to true // this is the method the poller thread once started will execute METHOD void PollerThread_Action while ( !stopPolling ) if ( tasks.Count > 0 ) Task nextTask = tasks.Deque() // wait on the semaphore to relase one unit if ( S.WaitOne() ) // start the task in a new thread nextTask.Start() startedTasks.Add( nextTask ) // we have been asked to start polling // this means no more tasks are going to be added // to the queue // finish off the remaining tasks while ( tasks.Count > 0 ) Task nextTask = tasks.Dequeue() if ( S.WaitOne() ) nextTask.Start() startedTasks.Add ( nextTask ) // at this point, there are no more tasks in the queue // each task would have already been started at some // point for every Task t in startedTasks t.WaitUntilComplete() // this will block if a task is running, else exit immediately // now all tasks are complete allTasksCompleted = true