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While running benchmark tests this morning, my colleagues and I discovered some strange things concerning performance of C# code vs. VB.NET code.

We started out comparing C# vs. Delphi Prism calculating prime numbers, and found that Prism was about 30% faster. I figured CodeGear optimized code more when generating IL (the exe was about twice as big as C#'s and had all sorts of different IL in it.)

I decided to write a test in VB.NET as well, assuming that Microsoft's compilers would end up writing essentially the same IL for each language. However, the result there was more shocking: the code ran more than three times slower on C# than VB with the same operation!

The generated IL was different, but not extremely so, and I'm not good enough at reading it to understand the differences.


I've included the code for each below. On my machine, VB finds 348513 primes in about 6.36 seconds. C# finds the same number of primes in 21.76 seconds.

Computer Specs and Notes

  • Intel Core 2 Quad 6600 @ 2.4Ghz

Every machine I've tested on there is a noticeable difference in the benchmark results between C# and VB.NET.

Both of the console applications were compiled in Release mode, but otherwise no project settings were changed from the defaults generated by Visual Studio 2008.

VB.NET code

Imports System.Diagnostics

Module Module1

    Private temp As List(Of Int32)
    Private sw As Stopwatch
    Private totalSeconds As Double

    Sub Main()
    End Sub

    Private Sub serialCalc()
        temp = New List(Of Int32)()
        sw = Stopwatch.StartNew()
        For i As Int32 = 2 To 5000000
        totalSeconds = sw.Elapsed.TotalSeconds
        Console.WriteLine(String.Format("{0} seconds elapsed.", totalSeconds))
        Console.WriteLine(String.Format("{0} primes found.", temp.Count))
    End Sub

    Private Sub testIfPrimeSerial(ByVal suspectPrime As Int32)
        For i As Int32 = 2 To Math.Sqrt(suspectPrime)
            If (suspectPrime Mod i = 0) Then
                Exit Sub
            End If
    End Sub

End Module

C# Code

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Diagnostics;

namespace FindPrimesCSharp {
    class Program {
        List<Int32> temp = new List<Int32>();
        Stopwatch sw;
        double totalSeconds;

        static void Main(string[] args) {

            new Program().serialCalc();


        private void serialCalc() {
            temp = new List<Int32>();
            sw = Stopwatch.StartNew();
            for (Int32 i = 2; i <= 5000000; i++) {
            totalSeconds = sw.Elapsed.TotalSeconds;
            Console.WriteLine(string.Format("{0} seconds elapsed.", totalSeconds));
            Console.WriteLine(string.Format("{0} primes found.", temp.Count));

        private void testIfPrimeSerial(Int32 suspectPrime) {
            for (Int32 i = 2; i <= Math.Sqrt(suspectPrime); i++) {
                if (suspectPrime % i == 0)


Why is C#'s execution of Math.Sqrt() slower than VB.NET?

share|improve this question
what does troll mean? – l--''''''---------'''''''''''' Jun 11 '10 at 20:51
The two code examples are highly different on one little point, rendering this benchmark completely false. – Dykam Jun 11 '10 at 20:51
@I__: – Dykam Jun 11 '10 at 20:56
@I__: I see what you did there. – Matt Winckler Jun 11 '10 at 22:19
@matt I don't see what l_ did there. – MarkJ Jun 12 '10 at 17:51
up vote 81 down vote accepted

The C# implementation is recalculating Math.Sqrt(suspectPrime) each time through the loop, while VB only calculates it at the beginning of the loop. This is just due to the nature of the control structure. In C#, for is just a fancy while loop, while in VB it's a separate construct.

Using this loop will even up the score:

        Int32 sqrt = (int)Math.Sqrt(suspectPrime)
        for (Int32 i = 2; i <= sqrt; i++) { 
            if (suspectPrime % i == 0) 
share|improve this answer
kjack: I don't know about VB6, but in VB.Net the terminating value is only evaluated at the beginning of the loop (according to the section 10.9.2 of the spec), so there's no need to use a temporary variable. – Gabe Jun 11 '10 at 20:43
@kjack BASIC and (IIRC) FORTRAN calculate for bounds once only. You need to check your implementation, but to do so would be trivial (have a bounds which is a function that prints something) – Pete Kirkham Jun 11 '10 at 20:44
This is very surprising to me. suspectPrime is a loop invariant, so shouldn't the optimizer hoist the calculation out of the loop? – Peter Ruderman Jun 11 '10 at 20:48
@Peter. What if you were to use for(..) like a foreach(...). It is possible to do for(; iterator.MoveNext();) currently but it wouldn't be if it only evaluated the condition once. the For in VB.Net is a range evaluation while the for in C# is a conditional loop. – Matthew Whited Jun 11 '10 at 20:52
Peter Ruderman: Yes, it's a loop invariant, but the optimizer needs to know that Math.Sqrt is a pure function (no side effects and always returns the same value), which may be beyond its ken. – Gabe Jun 11 '10 at 21:11

I agree with the statement that the C# code is computing sqrt on every iteration and here is the proof straight out of Reflector:

VB version:

private static void testIfPrimeSerial(int suspectPrime)
    int VB$t_i4$L0 = (int) Math.Round(Math.Sqrt((double) suspectPrime));
    for (int i = 2; i <= VB$t_i4$L0; i++)
        if ((suspectPrime % i) == 0)

C# version:

 private void testIfPrimeSerial(int suspectPrime)
    for (int i = 2; i <= Math.Sqrt((double) suspectPrime); i++)
        if ((suspectPrime % i) == 0)

Which kinda points to VB generating code that performs better even if the developer is naive enough to have the call to sqrt in the loop definition.

share|improve this answer
I wonder what kind of analysis they perform to make sure there are no side effects caused by the expression. – ChaosPandion Jun 11 '10 at 20:37
@ChaosPandion - I agree and have some uneasiness about it. For me it has not been a problem because I instinctively never put function call in the loop control. – Otávio Décio Jun 11 '10 at 20:38
Their for doesn't actually say it has to evaluate the expression on every run. You just say, go from x to y and for every cycle assign the incremented value to variable i. It doesn't say, I continue untill i is higher/equal to the expression. The semantics are highly different from the C# one. – Dykam Jun 11 '10 at 20:54
VB's for loop is actually defined to evaluate the expressions exactly once at the beginning of the loop. Using a complex expression as the terminating condition is perfectly safe because it's guaranteed to only run once. – Gabe Jun 12 '10 at 3:23
@ChaosPandion, I have worked with several other languages having this construct instead of the C-way. – Dykam Jun 12 '10 at 7:00

Here is the decompiled IL from the for loops. If you compare the two you will see VB.Net only does the Math.Sqrt(...) onces while C# checks it on each pass. To fix this you would need to do something like var sqrt = (int)Math.Sqrt(suspectPrime); as other have suggested.

... VB ...

.method private static void CheckPrime(int32 suspectPrime) cil managed
    // Code size       34 (0x22)
    .maxstack  2
    .locals init ([0] int32 i,
         [1] int32 VB$t_i4$L0)
    IL_0000:  ldc.i4.2
    IL_0001:  ldarg.0
    IL_0002:  conv.r8
    IL_0003:  call       float64 [mscorlib]System.Math::Sqrt(float64)
    IL_0008:  call       float64 [mscorlib]System.Math::Round(float64)
    IL_000d:  conv.ovf.i4
    IL_000e:  stloc.1
    IL_000f:  stloc.0
    IL_0010:  br.s       IL_001d

    IL_0012:  ldarg.0
    IL_0013:  ldloc.0
    IL_0014:  rem
    IL_0015:  ldc.i4.0
    IL_0016:  bne.un.s   IL_0019

    IL_0018:  ret

    IL_0019:  ldloc.0
    IL_001a:  ldc.i4.1
    IL_001b:  add.ovf
    IL_001c:  stloc.0
    IL_001d:  ldloc.0
    IL_001e:  ldloc.1
    IL_001f:  ble.s      IL_0012

    IL_0021:  ret
} // end of method Module1::testIfPrimeSerial

... C# ...

.method private hidebysig static void CheckPrime(int32 suspectPrime) cil managed
    // Code size       26 (0x1a)
    .maxstack  2
    .locals init ([0] int32 i)
    IL_0000:  ldc.i4.2
    IL_0001:  stloc.0
    IL_0002:  br.s       IL_000e

    IL_0004:  ldarg.0
    IL_0005:  ldloc.0
    IL_0006:  rem
    IL_0007:  brtrue.s   IL_000a

    IL_0009:  ret

    IL_000a:  ldloc.0
    IL_000b:  ldc.i4.1
    IL_000c:  add
    IL_000d:  stloc.0
    IL_000e:  ldloc.0
    IL_000f:  conv.r8
    IL_0010:  ldarg.0
    IL_0011:  conv.r8
    IL_0012:  call       float64 [mscorlib]System.Math::Sqrt(float64)
    IL_0017:  ble.s      IL_0004

    IL_0019:  ret
} // end of method Program::testIfPrimeSerial
share|improve this answer

Off on a tangent, if you're up and running with VS2010, you can take advantage of PLINQ and make C# (probably VB.Net as well) faster.

Change that for loop to...

var range = Enumerable.Range(2, 5000000);

    .ForAll(i => testIfPrimeSerial(i));

I went from 7.4 -> 4.6 seconds on my machine. Moving it to release mode shaves a little more time on top of that.

share|improve this answer
A good tangent - the parallel features were actually part of the benchmarks we were running earlier, and they are impressive indeed! – Matt Winckler Jun 11 '10 at 21:30
How many CPUs did you run this on? – Gabe Jun 13 '10 at 13:38
@Gabe: I've got a pokey dual-core laptop. I don't know what make the CPU is. – 48klocs Jun 13 '10 at 18:49

The difference is in the loop; your C# code is computing the square root on every iteration. Changing that one line from:

for (Int32 i = 2; i <= Math.Sqrt(suspectPrime); i++) {


var lim = Math.Sqrt(suspectPrime);
for (Int32 i = 2; i <= lim; i++) {

dropped the time on my machine from 26 seconds to 7.something.

share|improve this answer

Generally no. They both compile to CLR (Common Language Runtime) byte-code. This is similar to a JVM (Java Virtual Machine).

share|improve this answer

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