I have the following powershell script

$list = invoke-sqlcmd 'exec getOneMillionRows' -Server...
$list | % {
    GetData $_ > $_.txt
    ZipTheFile $_.txt $_.txt.zip

How to run the script block ({ GetDatta $_ > $_.txt ....}) in parallel with limited maximum number of job, e.g. at most 8 files can be generated at one time?

8 Answers 8


Same idea as user "Start-Automating" posted, but corrected the bug about forgetting to start the jobs that are held back when hitting the else clause in his example:

$servers = @('a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n')

foreach ($server in $servers) {
    $running = @(Get-Job | Where-Object { $_.State -eq 'Running' })
    if ($running.Count -ge 4) {
        $running | Wait-Job -Any | Out-Null

    Write-Host "Starting job for $server"
    Start-Job {
        # do something with $using:server. Just sleeping for this example.
        Start-Sleep 5
        return "result from $using:server"
    } | Out-Null

# Wait for all jobs to complete and results ready to be received
Wait-Job * | Out-Null

# Process the results
foreach($job in Get-Job)
    $result = Receive-Job $job
    Write-Host $result

Remove-Job -State Completed
  • Thanks for this, its working. First I tried bugged "official" MS solution from their blog which crashed my powershell, even for 3 jobs. So don't use solution from this site: blogs.msdn.microsoft.com/powershell/2011/04/04/…
    – Stritof
    Feb 10, 2016 at 15:29
  • 1
    this is the answer... :) the other one has a logic bug Aug 14, 2017 at 20:17
  • 1
    Get-Job | Receive-job -AutoRemoveJob -Wait to automatically await and remove all jobs (in your example you don't clear up faulted jobs).
    – riezebosch
    Feb 5, 2018 at 13:22

The Start-Job cmdlet allows you to run code in the background. To do what you'd ask, something like the code below should work.

foreach ($server in $servers) {
    $running = @(Get-Job | Where-Object { $_.State -eq 'Running' })
    if ($running.Count -le 8) {
        Start-Job {
             Add-PSSnapin SQL
             $list = invoke-sqlcmd 'exec getOneMillionRows' -Server...
    } else {
         $running | Wait-Job
    Get-Job | Receive-Job

Hope this helps.

  • 1
    In order to throttle the cue at 8 and to keep pushing another job on the stack as another finishes I think you'll need $running | Wait-Job -Any. Jan 9, 2012 at 0:33
  • 3
    Wait-Job -Any: "Displays the command prompt (and returns the job object) when any job completes. By default, Wait-Job waits until all of the specified jobs are complete before displaying the prompt." Jan 9, 2012 at 0:41
  • Not sure what ($server in $server) does here. But I got the ideal.
    – ca9163d9
    Jan 9, 2012 at 5:54
  • BTW, it seems Where-Object { $_.JobStateInfo.State -eq 'Running' } can be Where-Object { $_.State -eq 'Running' }?
    – ca9163d9
    Jan 9, 2012 at 7:38
  • 9
    Fatal flaw: if there are 8 jobs running already, you get into the else clause and never do a start-job for the $server the foreach had come to
    – Allanrbo
    Jun 17, 2014 at 19:24

It should be really easy with the Split-Pipeline cmdlet of the SplitPipeline module. The code will look as simple as this:

Import-Module SplitPipeline
$list = invoke-sqlcmd 'exec getOneMillionRows' -Server...
$list | Split-Pipeline -Count 8 {process{
    GetData $_ > $_.txt
    ZipTheFile $_.txt $_.txt.zip
  • I like this module a lot. But the only external variable available inside the pipeline block is $_; how do you pass other variables into the pipeline block? $a = "foo"; $list | Split-Pipeline {# $a is undefined in here} Jul 2, 2013 at 15:29
  • 1
    Used variables and functions from the current runspace have to be explicitly imported to parallel pipelines using the parameters -Variable and -Function. Eventually, hopefully soon, I will mention this in the cmdlet help or provide an example. Jul 2, 2013 at 16:37
  • Thank you Roman. I figured this out after asking the question, and posted the suggestion in GitHub about mentioning this in the documentation. This is a very useful tool, and it sped up the task I was running tremendously. Thank you. Jul 2, 2013 at 21:00

Old thread but I think this could help:

$List = C:\List.txt
$Jobs = 8

Foreach ($PC in Get-Content $List)
    $Job = (Get-Job -State Running | measure).count
    } Until ($Job -le $Jobs)

Start-Job -Name $PC -ScriptBlock { "Your command here $Using:PC" }
Get-Job -State Completed | Remove-Job

Wait-Job -State Running
Get-Job -State Completed | Remove-Job

The "Do" loop pause the "foreach" when the amount of job "running" exceed the amount of "$jobs" that is allowed to run. Than wait for the remaining to complete and show failed jobs...

  • 2
    I found this approach to be the best listed. With one adjustment; Do{ $Job = (Get-Job -State Running | measure).count } Until (($Job -le 4) -or (Wait-Job -State Running -Any)) Adding the -or (Wait-Job -State Running -Any)) was more efficient than the busy loop method. Jun 5, 2020 at 18:35

Background jobs is the answer. You can also throttle the jobs in the run queue using [System.Collection.Queue]. There is a blog post from PowerShell team on this topic: https://devblogs.microsoft.com/powershell/scaling-and-queuing-powershell-background-jobs/

Using queuing method is probably the best answer to throttling background jobs.

  • The example in the link seems only run three jobs.
    – ca9163d9
    Jan 10, 2012 at 23:41
  • Yeah, that is an example. You can modify it to your needs.
    – ravikanth
    Jan 11, 2012 at 3:24
  • It actually will run all the tasks. Comparing with @start-automating's method, it doesn't need a polling loop.
    – ca9163d9
    Jan 11, 2012 at 19:49

I use and improove a multithread Function, you can use it like :

$Script = {
    get-process -Computername $Computername

@('Srv1','Srv2') | Run-Parallel -ScriptBlock $Script

include this code in your script

function Run-Parallel {
            This is a quick and open-ended script multi-threader searcher
            Improove by Alban LOPEZ 2016

            This script will allow any general, external script to be multithreaded by providing a single
            argument to that script and opening it in a seperate thread.  It works as a filter in the
            pipeline, or as a standalone script.  It will read the argument either from the pipeline
            or from a filename provided.  It will send the results of the child script down the pipeline,
            so it is best to use a script that returns some sort of object.

        .PARAMETER ScriptBlock
            This is where you provide the PowerShell ScriptBlock that you want to multithread.

        .PARAMETER ItemObj
            The ItemObj represents the arguments that are provided to the child script.  This is an open ended
            argument and can take a single object from the pipeline, an array, a collection, or a file name.  The
            multithreading script does it's best to find out which you have provided and handle it as such.
            If you would like to provide a file, then the file is read with one object on each line and will
            be provided as is to the script you are running as a string.  If this is not desired, then use an array.

        .PARAMETER InputParam
            This allows you to specify the parameter for which your input objects are to be evaluated.  As an example,
            if you were to provide a computer name to the Get-Process cmdlet as just an argument, it would attempt to
            find all processes where the name was the provided computername and fail.  You need to specify that the
            parameter that you are providing is the "ComputerName".

        .PARAMETER AddParam
            This allows you to specify additional parameters to the running command.  For instance, if you are trying
            to find the status of the "BITS" service on all servers in your list, you will need to specify the "Name"
            parameter.  This command takes a hash pair formatted as follows:

            @{"key" = "Value"}
            @{"key1" = "Value"; "key2" = 321; "key3" = 1..9}

        .PARAMETER AddSwitch
            This allows you to add additional switches to the command you are running.  For instance, you may want
            to include "RequiredServices" to the "Get-Service" cmdlet.  This parameter will take a single string, or
            an aray of strings as follows:

            @("RequiredServices", "DependentServices")

        .PARAMETER MaxThreads
            This is the maximum number of threads to run at any given time.  If ressources are too congested try lowering
            this number.  The default value is 20.

        .PARAMETER SleepTimer_ms
            This is the time between cycles of the child process detection cycle.  The default value is 200ms.  If CPU
            utilization is high then you can consider increasing this delay.  If the child script takes a long time to
            run, then you might increase this value to around 1000 (or 1 second in the detection cycle).

        .PARAMETER TimeOutGlobal
            this is the TimeOut in second for listen the last thread, after this timeOut All thread are closed, only each other are returned

        .PARAMETER TimeOutThread
            this is the TimeOut in second for each thread, the thread are aborted at this time

        .PARAMETER PSModules
            List of PSModule name to include for use in ScriptBlock

        .PARAMETER PSSapins
            List of PSSapin name to include for use in ScriptBlock

            1..20 | Run-Parallel -ScriptBlock {param($i) Start-Sleep $i; "> $i sec <"} -TimeOutGlobal 15 -TimeOutThread 5
            Both of these will execute the scriptBlock and provide each of the server names in AllServers.txt
            while providing the results to GridView.  The results will be the output of the child script.

            gc AllServers.txt | Run-Parallel $ScriptBlock_GetTSUsers -MaxThreads $findOut_AD.ActiveDirectory.Servers.count -PSModules 'PSTerminalServices' | out-gridview
        [ScriptBlock]$ScriptBlock = $null,
        $InputParam = $Null,
        [HashTable] $AddParam = @{},
        [Array] $AddSwitch = @(),
        $MaxThreads = 20,
        $SleepTimer_ms = 100,
        $TimeOutGlobal = 300,
        $TimeOutThread = 100,
        [string[]]$PSSapins = $null,
        [string[]]$PSModules = $null,
        $Modedebug = $true
        $ISS = [system.management.automation.runspaces.initialsessionstate]::CreateDefault()
        ForEach ($Snapin in $PSSapins){
            [void]$ISS.ImportPSSnapIn($Snapin, [ref]$null)
        ForEach ($Module in $PSModules){
        $RunspacePool = [runspacefactory]::CreateRunspacePool(1, $MaxThreads, $ISS, $Host)

        $Jobs = @()
        #ForEach ($Object in $ItemObj){
            if ($ItemObj){
                Write-Host $ItemObj -ForegroundColor Yellow
                $PowershellThread = [powershell]::Create().AddScript($ScriptBlock)

                If ($InputParam -ne $Null){
                    $PowershellThread.AddParameter($InputParam, $ItemObj.ToString()) | out-null
                    $PowershellThread.AddArgument($ItemObj.ToString()) | out-null
                ForEach($Key in $AddParam.Keys){
                    $PowershellThread.AddParameter($Key, $AddParam.$key) | out-null
                ForEach($Switch in $AddSwitch){
                    $PowershellThread.AddParameter($Switch) | out-null
                $PowershellThread.RunspacePool = $RunspacePool
                $Handle = $PowershellThread.BeginInvoke()
                $Job =  [pscustomobject][ordered]@{
                    Handle = $Handle
                    Thread = $PowershellThread
                    object = $ItemObj.ToString()
                    Started = Get-Date
                $Jobs += $Job
        $GlobalStartTime = Get-Date
        $continue = $true
        While (@($Jobs | Where-Object {$_.Handle -ne $Null}).count -gt 0 -and $continue)  {
            ForEach ($Job in $($Jobs | Where-Object {$_.Handle.IsCompleted -eq $True})){
                $out = $Job.Thread.EndInvoke($Job.Handle)
                $out # return vers la sortie srandard
                #Write-Host $out -ForegroundColor green
                $Job.Thread.Dispose() | Out-Null
                $Job.Thread = $Null
                $Job.Handle = $Null
            foreach ($InProgress in $($Jobs | Where-Object {$_.Handle})) {
                if ($TimeOutGlobal -and (($(Get-Date) - $GlobalStartTime).totalseconds -gt $TimeOutGlobal)){
                    $Continue = $false
                    #Write-Host $InProgress -ForegroundColor magenta
                if (!$Continue -or ($TimeOutThread -and (($(Get-Date) - $InProgress.Started).totalseconds -gt $TimeOutThread))) {
                    $InProgress.thread.Stop() | Out-Null
                    $InProgress.thread.Dispose() | Out-Null
                    $InProgress.Thread = $Null
                    $InProgress.Handle = $Null
                    #Write-Host $InProgress -ForegroundColor red
            Start-Sleep -Milliseconds $SleepTimer_ms
        $RunspacePool.Close() | Out-Null
        $RunspacePool.Dispose() | Out-Null

Old thread, but my contribution to it, is the part where you count the running jobs. Some of the answers above do not work for 0 or 1 running job. A little trick I use is to throw the results in a forced array, and then count it:

[array]$JobCount = Get-job -state Running



This is the 2023 answer:

$list = invoke-sqlcmd 'exec getOneMillionRows' -Server...
$list | % -Parallel -ThrottleLimit 8 {
    GetData $_ > $_.txt
    ZipTheFile $_.txt $_.txt.zip

The ForEach-Object cmdlet gained the ability to launch multiple processes in parallel in Powershell 7.0. See https://learn.microsoft.com/en-us/powershell/module/microsoft.powershell.core/foreach-object?view=powershell-7.3

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