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I'm writing a financial application in C# where performance (i.e. speed) is critical. Because it's a financial app I have to use the Decimal datatype intensively.

I've optimized the code as much as I could with the help of a profiler. Before using Decimal, everything was done with the Double datatype and the speed was several times faster. However, Double is not an option because of its binary nature, causing a lot of precision errors over the course of multiple operations.

Is there any decimal library that I can interface with C# that could give me a performance improvement over the native Decimal datatype in .NET?

Based on the answers I already got, I noticed I was not clear enough, so here are some additional details:

  • The app has to be as fast as it can possibly go (i.e. as fast as it was when using Double instead of Decimal would be a dream). Double was about 15x faster than Decimal, as the operations are hardware based.
  • The hardware is already top-notch (I'm running on a Dual Xenon Quad-Core) and the application uses threads, so CPU utilization is always 100% on the machine. Additionally, the app is running in 64bit mode, which gives it a mensurable performance advantage over 32bit.
  • I've optimized past the point of sanity (more than one month and a half optimizing; believe it or not, it now takes approx. 1/5000 of what it took to do the same calculations I used as a reference initially); this optimization involved everything: string processing, I/O, database access and indexes, memory, loops, changing the way some things were made, and even using "switch" over "if" everywhere it made a difference. The profiler is now clearly showing that the remaining performance culprit is on the Decimal datatype operators. Nothing else is adding up a considerable amount of time.
  • You have to believe me here: I've gone as far as I could possibly go in the realm of C#.NET to optimize the application, and I'm really amazed at its current performance. I'm now looking for a good idea in order to improve Decimal performance to something close to Double. I know it's only a dream, but just wanted to check I thought of everything possible. :)


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You are on the verge of premature optimization, just code the app correctly, then tweak after the fact –  TravisO Dec 14 '08 at 19:30
You've done all the low level C# optimizations. There may be some algorithmic improvements left (e.g. doing fewer operations on the decimals). –  Brian May 21 '09 at 13:34
Database operations in a time-sensitive Financial application sounds bad... –  Mike Brown Apr 12 '13 at 14:05

7 Answers 7

The problem is basically that double/float are supported in hardware, while Decimal and the like are not. I.e. you have to choose between speed + limited precision and greater precision + poorer performance.

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You say it needs to be fast, but do you have concrete speed requirements? If not, you may well optimise past the point of sanity :)

As a friend sitting next to me has just suggested, can you upgrade your hardware instead? That's likely to be cheaper than rewriting code.

The most obvious option is to use integers instead of decimals - where one "unit" is something like "a thousandth of a cent" (or whatever you want - you get the idea). Whether that's feasible or not will depend on the operations you're performing on the decimal values to start with. You'll need to be very careful when handling this - it's easy to make mistakes (at least if you're like me).

Did the profiler show particular hotspots in your application that you could optimise individually? For instance, if you need to do a lot of calculations in one small area of code, you could convert from decimal to an integer format, do the calculations and then convert back. That could keep the API in terms of decimals for the bulk of the code, which may well make it easier to maintain. However, if you don't have pronounced hotspots, that may not be feasible.

+1 for profiling and telling us that speed is a definite requirement, btw :)

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@Downvoter: Care to comment? –  Jon Skeet Sep 29 '10 at 17:35

you can use the long datatype. Sure, you won't be able to store fractions in there, but if you code your app to store pennies instead of pounds, you'll be ok. Accuracy is 100% for long datatypes, and unless you're working with vast numbers (use a 64-bit long type) you'll be ok.

If you can't mandate storing pennies, then wrap an integer in a class and use that.

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This is definitely the way to go. Use long or int, and store pennies, or fractions of pennies depending on what precision you require. Many operations will now be as fast or faster than using doubles. –  Chris Dec 15 '08 at 9:20
Wrapping it in a class will incur heap overheads, and even a struct will slow things down, due to operator overloading or function calls being required, so raw long/int storage is best for performance. –  Chris Dec 15 '08 at 9:22
This is actually what the decimal type does, except the scaling factor is variable and the type uses an 96 bit representation for the digits (and 128 bit total); that's why it's slower than the suggested version using long (64 bit). (These comment fields are way too short.) –  ILoveFortran Jan 4 '09 at 22:21
@Vilx: Ngen will not speed up a program. All Ngen will do is speed up how fast the program starts up. –  Brian May 21 '09 at 13:32
Keep in mind that when using integral types integer division will occur and values get truncated instead of rounded. –  Aidiakapi Mar 5 '12 at 15:13

I cannot give a comment or vote down yet since I just started on stack overflow. My comment on alexsmart (posted 23 Dec 2008 12:31) is that the expression Round(n/precision, precision), where n is int and precisions is long will not do what he thinks:

1) n/precision will return an integer-division, i.e. it will already be rounded but you won't be able to use any decimals. The rounding behavior is also different from Math.Round(...).

2) The code "return Math.Round(n/precision, precision).ToString()" does not compile due to an ambiguity between Math.Round(double, int) and Math.Round(decimal, int). You will have to cast to decimal (not double since it is a financial app) and therefore can as well go with decimal in the first place.

3) n/precision, where precision is 4 will not truncate to four decimals but divide by 4. E.g., Math.Round( (decimal) (1234567/4), 4) returns 308641. (1234567/4 = 308641.75), while what you probably wanted to to is get 1235000 (rounded to a precision of 4 digits up from the trailing 567). Note that Math.Round allows to round to a fixed point, not a fixed precision.

Update: I can add comments now but there is not enough space to put this one into the comment area.

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What about MMX/SSE/SSE2?

i think it will help... so... decimal is 128bit datatype and SSE2 is 128bit too... and it can add, sub, div, mul decimal in 1 CPU tick...

you can write DLL for SSE2 using VC++ and then use that DLL in your application

e.g //you can do something like this


#include <emmintrin.h>
#include <tmmintrin.h>

extern "C" DllExport __int32* sse2_add(__int32* arr1, __int32* arr2);

extern "C" DllExport __int32* sse2_add(__int32* arr1, __int32* arr2)
    __m128i mi1 = _mm_setr_epi32(arr1[0], arr1[1], arr1[2], arr1[3]);
    __m128i mi2 = _mm_setr_epi32(arr2[0], arr2[1], arr2[2], arr2[3]);

    __m128i mi3 = _mm_add_epi32(mi1, mi2);
    __int32 rarr[4] = { mi3.m128i_i32[0], mi3.m128i_i32[1], mi3.m128i_i32[2], mi3.m128i_i32[3] };
    return rarr;


private unsafe static extern int[] sse2_add(int[] arr1, int[] arr2);

public unsafe static decimal addDec(decimal d1, decimal d2)
    int[] arr1 = decimal.GetBits(d1);
    int[] arr2 = decimal.GetBits(d2);

    int[] resultArr = sse2_add(arr1, arr2);

    return new decimal(resultArr);
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I don't think that SSE2 instructions could easy work with .NET Decimal values. .NET Decimal data type is 128bit decimal floating point type http://en.wikipedia.org/wiki/Decimal128_floating-point_format, SSE2 instructions work with 128bit integer types.

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Old question, still very valid though.

Here are some numbers to support the idea of using Long.

Time taken to perform 100'000'000 additions

Long     231 mS
Double   286 mS
Decimal 2010 mS

in a nutshell, decimal is ~10 times slower that Long or Double.


Sub Main()
    Const TESTS = 100000000
    Dim sw As Stopwatch

    Dim l As Long = 0
    Dim a As Long = 123456
    sw = Stopwatch.StartNew()
    For x As Integer = 1 To TESTS
        l += a
    Console.WriteLine(String.Format("Long    {0} mS", sw.ElapsedMilliseconds))

    Dim d As Double = 0
    Dim b As Double = 123456
    sw = Stopwatch.StartNew()
    For x As Integer = 1 To TESTS
        d += b
    Console.WriteLine(String.Format("Double  {0} mS", sw.ElapsedMilliseconds))

    Dim m As Decimal = 0
    Dim c As Decimal = 123456
    sw = Stopwatch.StartNew()
    For x As Integer = 1 To TESTS
        m += c
    Console.WriteLine(String.Format("Decimal {0} mS", sw.ElapsedMilliseconds))

    Console.WriteLine("Press a key")
End Sub
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2 seconds to do 100 million additions. In what way does this "support the idea of using long"? It may be slower, but you can't just compare speeds, 50 million adds per second is just not worth optimising. –  weston Sep 27 '13 at 13:02
231 milli seconds, not seconds. It isn't slower, it's faster, which is what the OP is seeking. –  smirkingman Sep 29 '13 at 14:17
Talking about 2010 milliseconds for the decimal. In 2 seconds it does 100 million. That is an argument that OP should look elsewhere for bottlenecks. It is not an argument that they should re-write to use long, no matter how much faster long is. –  weston Sep 29 '13 at 15:09
Re-read the OP's question carefully. He first did it with double and when he moved to decimal it was much slower. He wants a faster solution for the arithmetic. It's a financial application. An alternative would be to store the amounts in cents in a Long. –  smirkingman Sep 29 '13 at 15:49
These are ignorant comments. Seriously. There are applications where exactly this is relevant - if you run a HPC application crunching hugh amounts of numbers. I look at the same optimization and I already have nearly 200 computing units in our grid dedicated to run simulations. They pretty much run 24/7. Especially when doing time series analysis performance IS Critical and there are apps doing EXACTLY this all the time. –  TomTom Jun 2 '14 at 9:59

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