Recently, I've been running some tests with C++ and VB.NET to compare execution speeds. In the last thread I posted, I talked about how I had encountered the fact that C++ was executing just as fast as VB, but got that issue resolved. Now I'm hitting my head against another wall:
I had made a DLL for VB.NET to test out this theory and compare in just one program side by side execution time of identical VB.NET and C++ code. But the interesting thing? VB.NET's execution time improved such that it was now exactly identical to the execution time of C++. Spending some time with the problem, I discovered that the "Target CPU" option in advanced compile options in Visual Studio 2008 was the culprit!
Since I'm running 64-bit Windows 7, I figured making the target CPU x64 would yield the best execution time. Wrong. Here are the results in execution time of a Windows Forms application for VB.NET, calculating all the prime numbers up to 10,000,000 and getting their sum.
Any CPU: 15.231 seconds
x86: 10.858 seconds
x64: 15.236 seconds
Below is the code I'm using, feel free to test it yourself:
Public Class Form1 Private Sub Form1_Load(ByVal sender As System.Object, ByVal e As System.EventArgs) Handles MyBase.Load Dim watch As New Stopwatch watch.Start() Dim maxVal As Long = 10000000 Dim sumOfPrimes As Long = 0 For i As Integer = 2 To maxVal If (isPrime(i) = True) Then sumOfPrimes += i End If Next watch.Stop() Console.WriteLine(watch.ElapsedMilliseconds) Console.WriteLine("The sum of all the prime numbers below " & maxVal & " is " & sumOfPrimes) End Sub Function isPrime(ByVal NumToCheck As Integer) As Boolean For i As Integer = 2 To (Math.Sqrt(CDbl(NumToCheck))) If (NumToCheck Mod i = 0) Then Return False End If Next Return True End Function End Class
Why would selecting the target CPU as 32-bit when I'm running 64-bit cause a performance increase? Any help with this problem would be much appreciated.