# VB.NET running sum in nested loop inside Parallel.for Synclock loses information

Below is the best representation I have been able to develop for calculating a running sum inside a loop that's nested inside a Parallel.for loop in VB.NET (Visual Studio 2010, .NET Framework 4). Note that when showing the results in `sum' to the screen, there is a slight difference between the two sums, and hence loss of information in the parallelized variant. So how is the information being lost, and what's happening? Can anyone offer some "microsurgery" on methodology for keeping a running sum in this context? (Note to new users of Parallel.for: I typically don't use zero-based methods, so in the Parallel.for statement the I1 loops up to 101, since the code uses 101-1 as the upper bound. This is because MS developed the parallel code assuming zero-based counters):

``````    Dim sum As Double = 0
Dim lock As New Object
Dim clock As New Stopwatch
Dim i, j As Integer
clock.Start()
sum = 0
For i = 1 To 100
For j = 1 To 100
sum += Math.Log(0.9999)
Next j
Next i
clock.Stop()
MsgBox(sum & "  " & clock.ElapsedMilliseconds)
sum = 0
clock.Reset()
clock.Start()
Parallel.For(1, 101, Sub(i1)
Dim temp As Double = 0
For j1 As Integer = 1 To 100
temp += Math.Log(0.9999)
Next
SyncLock lock
sum += temp
End SyncLock
End Sub)
clock.Stop()
MsgBox(sum & "  " & clock.ElapsedMilliseconds)
``````
-

You are working with doubles and double are simply not accurate. In the non parallel loop, all errors are stored directly in sum. In the parallel loop you have an additional tmp that is later added to sum. Use the same tmp in your non parallel loop (adding to sum after the inner loop has run) and eventually the results wil be equal then.

`````` Dim sum As Double = 0
Dim lock As New Object
Dim clock As New Stopwatch
Dim i, j As Integer
clock.Start()
sum = 0
For i = 1 To 100
For j = 1 To 100
sum += Math.Log(0.9999)
Next j
Next i
clock.Stop()
Console.WriteLine(sum & "  " & clock.ElapsedMilliseconds)
sum = 0
clock.Reset()

clock.Start()
sum = 0
For i = 1 To 100
Dim tmp As Double = 0
For j = 1 To 100
tmp += Math.Log(0.9999)
Next
sum += tmp
Next i
clock.Stop()
Console.WriteLine(sum & "  " & clock.ElapsedMilliseconds)
sum = 0
clock.Reset()

clock.Start()
Parallel.For(1, 101, Sub(i1)
Dim temp As Double = 0
For j1 As Integer = 1 To 100
temp += Math.Log(0.9999)
Next
SyncLock lock
sum += temp
End SyncLock
End Sub)
clock.Stop()
Console.WriteLine(sum & "  " & clock.ElapsedMilliseconds)

End Sub
``````

output:

``````-1,00005000333357  0
-1,00005000333347  0
-1,00005000333347  26
``````

Conclusion: If you work with double, then (a + b) + c is NOT (always) equal to a + (b + c)

UPDATE

an even more simple example:

``````    Dim sum As Double
For i = 1 To 100
sum += 0.1
Next
Console.WriteLine(sum)

sum = 0
For i = 1 To 2
Dim tmp As Double = 0
For j = 1 To 50
tmp += 0.1
Next
sum += tmp
Next
Console.WriteLine(sum)
``````

now the output is

``````9,99999999999998
10
``````
-
Thanks for the suggestions, they worked out nicely. However, the statement about double being inaccurate makes it sound like you know a visual studio variable type that has greater digit precision? What would you use to be more accurate than double? –  LEP Dec 2 '12 at 16:02
@LEP: `Decimal` is more accurate. Of course it takes more memory and is MUCH slower in calculations, because `Decimal` is not supported by the CPU directly. –  igrimpe Dec 3 '12 at 6:05
I have a lot of nested loops containing large segments of codes as well as processing of many matrices inside. Can you recommend the appropriate way to bundle a lot of work inside a parallel.for? (i think there would be a lot of lambda-based issues.) –  LEP Dec 6 '12 at 14:31