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2

I think you could get the answer through a statistical analysis of enough runs of the following system: Run one thread per processor that clears a terminate flag, then runs a loop for a fixed number of iterations or until a terminate flag is set, whichever comes first. These threads record whether they terminated due to running all the iterations, or due ...


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I'm not sure how accurate it would be, but this might work: Make sure your computer is idle (or as idle as you can make it) Spawn off 2N threads (where N is the number of cores in your computer). All of these threads should be set to run at the same priority as each other. Each of the threads should be running an infinite loop where it does nothing but ...


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For what its worth it. I can produce a simple example where it is clear that the goroutines are not ran one by one: package main import ( "fmt" "runtime" ) func sum_up(name string, count_to int, print_every int, done chan bool) { my_sum := 0 for i := 0; i < count_to; i++ { if i % print_every == 0 { fmt.Printf("%s ...


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Well, let's say runtime.GOMAXPROCS is 1. The goroutines run concurrently one at a time. Go's scheduler just gives the upper hand to one of the spawned goroutines for a certain time, then to another, etc until all are finished. So, you never know which goroutine is running at a given time, that's why you need to synchronize your variables. From your example, ...


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Spring has the TaskScheduler abstraction that you can use: http://docs.spring.io/spring/docs/current/spring-framework-reference/html/scheduling.html#scheduling-task-scheduler It has a method to schedule execution of a Runnable at a certain Date: ScheduledFuture schedule(Runnable task, Date startTime); A little off-topic maybe: If JobController is a ...


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This is a real problem, and Kubernetes doesn't have Pod QoS guarantees yet. To be completely safe, your cluster should be big enough to handle any expected cluster shrinkage, but that's not always practical. At the moment, manually shrinking the competing, lower-priority deployments would probably be the easiest way to get a cluster back working. There is ...


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you need to add a cron job. On ubuntu use the command crontab -e to open your cron job file, then add * * * * * php /var/www/stockhit/artisan schedule:run 1>> /dev/null 2>&1


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See Task Scheduling: Here is the only Cron entry you need to add to your server: * * * * * php /path/to/artisan schedule:run >> /dev/null 2>&1 This Cron will call the Laravel command scheduler every minute. Then, Laravel evaluates your scheduled tasks and runs the tasks that are due. Laravel's task scheduler does not stay in ...


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It seems, that actually in the screenshot it has been the Average waiting time that has been calculated. And I did it completely wrong for the fallowing example the answers would be as fallows: Average waiting time=0(as the first process does not wait) + (25-1 the process arrived 1 second later and started only at 25)+(30-2 the last process arrived 2 second ...


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Systems running an OS with preemptive schedulers, (ie. all those in common use), are, IME, all provided with a hardware timer interrupt that causes a driver to run and can change the set of running threads. Such a timer interrupt is very useful for providing timeouts for system calls, sleep() functionality and other time-related functions. It can also ...


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First of all, this answer concerns the x86 architecture only. There are different kinds of schedulers: preemptive and non-preemptive (cooperative). Preemptive schedulers preempt the execution of a process, that is, initiate a context switch using a TSS (Task State Segment), which then performs a jump to another process. The process is stopped and another ...


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I came up with this solution and I hope it is easier to understand than the one with cumulative constraint. array[Facilities, 0..max(d)] of var 0..max(C): facilityUsageAtTime; constraint forall(i in Facilities) ( forall(tt in 0..max(d)) ( facilityUsageAtTime[i,tt] = sum(j in Tasks where x[j] == i /\ s[j] <= tt /\ tt < s[j] + p[x[j], ...


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Even though you mentioned that you've found a solution, here's a version that use cumulative (opt version in "cumulative_opt.mzn"). include "globals.mzn"; % includes the file "cumulative_opt.mzn" % .... constraint forall(i in Facilities)( cumulative( % [s[j] | j in Tasks where x[j] == i], % original % [p[i,j] | j in Tasks where x[j] == i], % ...



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