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I can name three advantages to using double (or float) instead of decimal:

  1. Uses less memory.
  2. Faster because floating point math operations are natively supported by processors.
  3. Can represent a larger range of numbers.

But these advantages seem to apply only to calculation intensive operations, such as those found in modeling software. Of course, doubles should not be used when precision is required, such as financial calculations. So are there any practical reasons to ever choose double (or float) instead of decimal in "normal" applications?

Edited to add: Thanks for all the great responses, I learned from them.

One further question: A few people made the point that doubles can more precisely represent real numbers. When declared I would think that they usually more accurately represent them as well. But is it a true statement that the accuracy may decrease (sometimes significantly) when floating point operations are performed?

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see also… – Ian Ringrose Mar 30 '10 at 13:59
This gets upvoted pretty regularly and I still struggle with it. For example, I'm working on an application that does financial calculations so I'm using decimal throughout. But the Math and VisualBasic.Financial functions use double so there's a lot of converting which has me constantly second guessing the use of decimal. – Jamie Ide Sep 22 '14 at 14:45
@JamieIde that's crazy the Financial functions use double, money should always be in decimal. – Chris Marisic Apr 22 '15 at 19:45

10 Answers 10

up vote 229 down vote accepted

I think you've summarised the advantages quite well. You are however missing one point. The decimal type is only more accurate at representing base 10 numbers (e.g. those used in currency/financial calculations). In general, the double type is going to offer at least as great precision (someone correct me if I'm wrong) and definitely greater speed for arbitrary real numbers. The simple conclusion is: when considering which to use, always use double unless you need the base 10 accuracy that decimal offers.


Regarding your additional question about the decrease in accuracy of floating-point numbers after operations, this is a slightly more subtle issue. Indeed, precision (I use the term interchangeably for accuracy here) will steadily decrease after each operation is performed. This is due to two reasons: a) the fact that certain numbers (most obviously decimals) can't be truly represented in floating point form, b) rounding errors occur, just as if you were doing the calculation by hand. It depends greatly on the context (how many operations you're performing) whether these errors are significant enough to warrant much thought however. In all cases, if you want to compare two floating-point numbers that should in theory be equivalent (but were arrived at using different calculations), you need to allow a certain degree of tolerance (how much varies, but is typically very small).

For a more detailed overview of the particular cases where errors in accuracies can be introduced, see the Accuracy section of the Wikipedia article. Finally, if you want a seriously in-depth (and mathematical) discussion of floating-point numbers/operations at machine level, try reading the oft-quoted article What Every Computer Scientist Should Know About Floating-Point Arithmetic.

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Thanks. I'll take that as compliment enough. :) – Noldorin Apr 29 '09 at 18:28
Can you provide an examp,e of a base 10 number with which precision is lost when converting to base 2? – Mark Cidade Apr 29 '09 at 20:14
@Mark: 1.000001 is one example, at least according to Jon Skeet. (See question 3 of this page: – Noldorin Apr 29 '09 at 20:31
@Mark: very simple example: 0.1 is a periodic fraction in base 2 so it cannot be expressed precisely in a double. Modern computers will still print the correct value but only because they “guess” at the result – not because it really is expressed correctly. – Konrad Rudolph May 2 '09 at 14:07
+1 Well explained! – Stevo3000 Jul 8 '09 at 15:15

You seem spot on with the benefits of using a floating point type. I tend to design for decimals in all cases, and rely on a profiler to let me know if operations on decimal is causing bottlenecks or slow-downs. In those cases, I will "down cast" to double or float, but only do it internally, and carefully try to manage precision loss by limiting the number of significant digits in the mathematical operation being performed.

In general, if your value is transient (not reused), you're safe to use a floating point type. The real problem with floating point types is the following three scenarios.

  1. You are aggregating floating point values (in which case the precision errors compound)
  2. You build values based on the floating point value (for example in a recursive algorithm)
  3. You are doing math with a very wide number of significant digits (for example, 123456789.1 * .000000000000000987654321)


According to the reference documentation on C# decimals:

The decimal keyword denotes a 128-bit data type. Compared to floating-point types, the decimal type has a greater precision and a smaller range, which makes it suitable for financial and monetary calculations.

So to clarify my above statement:

I tend to design for decimals in all cases, and rely on a profiler to let me know if operations on decimal is causing bottlenecks or slow-downs.

I have only ever worked in industries where decimals are favorable. If you're working on phsyics or graphics engines, it's probably much more beneficial to design for a floating point type (float or double).

Decimal is not infinitely precise (it is impossible to represent infinite precision for non-integral in a primitive data type), but it is far more precise than double:

  • decimal = 28-29 significant digits
  • double = 15-16 significant digits
  • float = 7 significant digits


In response to Konrad Rudolph's comment, item # 1 (above) is definitely correct. Aggregation of imprecision does indeed compound. See the below code for an example:

private const float THREE_FIFTHS = 3f / 5f;
private const int ONE_MILLION = 1000000;

public static void Main(string[] args)
    Console.WriteLine("Three Fifths: {0}", THREE_FIFTHS.ToString("F10"));
    float asSingle = 0f;
    double asDouble = 0d;
    decimal asDecimal = 0M;

    for (int i = 0; i < ONE_MILLION; i++)
        asSingle += THREE_FIFTHS;
        asDouble += THREE_FIFTHS;
        asDecimal += (decimal) THREE_FIFTHS;
    Console.WriteLine("Six Hundred Thousand: {0:F10}", THREE_FIFTHS * ONE_MILLION);
    Console.WriteLine("Single: {0}", asSingle.ToString("F10"));
    Console.WriteLine("Double: {0}", asDouble.ToString("F10"));
    Console.WriteLine("Decimal: {0}", asDecimal.ToString("F10"));

This outputs the following:

Three Fifths: 0.6000000000
Six Hundred Thousand: 600000.0000000000
Single: 599093.4000000000
Double: 599999.9999886850
Decimal: 600000.0000000000

As you can see, even though we are adding from the same source constant, the results of the double is less precise (although probably will round correctly), and the float is far less precise, to the point where it has been reduced to only two significant digits.

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Point 1 is incorrect. Precision/rounding errors only occur in casting, not in calculations. It is of course correct that most mathematical operations are unstable, thus multiplying the error. But this is another issue and it applies the same for all data types of limited precision, so in particular for decimal. – Konrad Rudolph May 2 '09 at 14:03
@Konrad Rudolph, see the example in "EDIT 2" as evidence of the point I was trying to make in item # 1. Often, this problem doesn't manifest itself because the positive imprecision balances with the negative imprecision, and they wash in the aggregate, but aggregating the same number (as I did in the example) highlights the problem. – Michael Meadows May 4 '09 at 14:25
Great example. Just shown it to my junior developers, the kids were amazed. – Machado Jan 19 '12 at 11:50
Now can you do the same thing with 2/3rds instead of 3/5ths... You should learn about the sexagesimal number system which handles 2/3rds perfectly fine. – gnasher729 May 15 '15 at 23:10
@gnasher729, using 2/3rds instead of 3/5ths was not handled perfectly fine for the different types. Interestingly, the float value yielded Single: 667660.400000000000 while the decimal value yielded Decimal: 666666.7000000000. The float value is a little less than one thousand over the correct value. – jhenninger24 Jun 12 '15 at 15:44

Use decimal for base 10 values, e.g. financial calculations, as others have suggested.

But double is generally more accurate for arbitrary calculated values.

For example if you want to calculate the weight of each line in a portfolio, use double as the result will more nearly add up to 100%.

In the following example, doubleResult is closer to 1 than decimalResult:

// Add one third + one third + one third with decimal
decimal decimalValue = 1M / 3M;
decimal decimalResult = decimalValue + decimalValue + decimalValue;
// Add one third + one third + one third with double
double doubleValue = 1D / 3D;
double doubleResult = doubleValue + doubleValue + doubleValue;

So again taking the example of a portfolio:

  • The market value of each line in the portfolio is a monetary value and would probably be best represented as decimal.

  • The weight of each line in the portfolio (= Market Value / SUM(Market Value)) is usually better represented as double.

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+1 Simple and easy example! – KMån Dec 8 '09 at 9:48

Use a double or a float when you don't need precision, for example, in a platformer game I wrote, I used a float to store the player velocities. Obviously I don't need super precision here because I eventually round to an Int for drawing on the screen.

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Precision being the ONLY advantage of decimals, this is right. You should not be asking when you should use floating point numbers over decimals. That should be your first thought. The question then is when you should use decimals (and the answer is right here... when precision matters). – Instance Hunter Apr 29 '09 at 16:45
@Daniel Straight, It's funny, but I have the opposite opinion. I think using a less precise type because of its performance characteristics amounts to a preoptimization. You will potentially have to pay for that preoptimization many times over before you realize its benefit. – Michael Meadows Apr 29 '09 at 16:49
@Michael Meadows, I can understand this argument. Something to note though is that one of the main complaints with premature optimization is that programmers don't tend to know what's going to be slow. We know without any doubt, though, that decimals are slower than doubles. Nevertheless, I suppose in most cases, the performance improvement won't be noticeable to the user anyway. Of course, in most cases, the precision isn't needed either. Heh. – Instance Hunter Apr 29 '09 at 17:06
Decimal floating-point is actually LESS precise than binary floating-point using the same number of bits. Decimal's advantage is being able to exactly represent DECIMAL fractions like 0.01 which are common in financial calculation. – dan04 Jul 31 '10 at 20:15
Well, this is not quite correct :) - in many games floating-point numbers can be undesireable, because of the fact that they are not consistent. See here – BlueRaja - Danny Pflughoeft Jul 20 '11 at 20:17

If you need to binary interrop with other languages or platforms, then you might need to use float or double, which are standardized.

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In some Accounting, consider the possibility of using integral types instead or in conjunction. For example, let say that the rules you operate under require every calculation result carry forward with at least 6 decimal places and the final result will be rounded to the nearest penny.

A calculation of 1/6th of $100 yields $16.66666666666666..., so the value carried forth in a worksheet will be $16.666667. Both double and decimal should yield that result accurately to 6 decimal places. However, we can avoid any cumulative error by carrying the result forward as an integer 16666667. Each subsequent calculation can be made with the same precision and carried forward similarly. Continuing the example, I calculate Texas sales tax on that amount (16666667 * .0825 = 1375000). Adding the two (it's a short worksheet) 1666667 + 1375000 = 18041667. Moving the decimal point back in gives us 18.041667, or $18.04.

While this short example wouldn't yield a cumulative error using double or decimal, it's fairly easy to show cases where simply calculating the double or decimal and carrying forward would accumulate significant error. If the rules you operate under require a limited number of decimal places, storing each value as an integer by multiplying by 10^(required # of decimal place), and then dividing by 10^(required # of decimal places) to get the actual value will avoid any cumulative error.

In situations where fractions of pennies do not occur (for example, a vending machine), there is no reason to use non-integral types at all. Simply think of it as counting pennies, not dollars. I have seen code where every calculation involved only whole pennies, yet use of double led to errors! Integer only math removed the issue. So my unconventional answer is, when possible, forgo both double and decimal.

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Use floating points if you value performance over correctness.

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Decimal numbers aren't more correct, except in certain limited cases that are sometimes (by no means always) important. – David Thornley Apr 29 '09 at 17:21

Choose the type in function of your application. If you need precision like in financial analysis, you have answered your question. But if your application can settle with an estimate your ok with double.

Is your application in need of a fast calculation or will he have all the time in the world to give you an answer? It really depends on the type of application.

Graphic hungry? float or double is enough. Financial data analysis, meteor striking a planet kind of precision ? Those would need a bit of precision :)

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Decimal numbers are estimates, too. They conform to the conventions of financial arithmetic, but there's no advantage in, say, calculations involving physics. – David Thornley Apr 29 '09 at 17:22

A double values will serialize to scientific notation by default if that notation is shorter than the decimal display. (e.g. .00000003 will be 3e-8) Decimal values will never serialize to scientific notation. When serializing for consumption by an external party, this may be a consideration.

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Decimal has wider bytes, double is natively supported by CPU. Decimal is base-10, so a decimal-to-double conversion is happening while a decimal is computed.

For accounting - decimal
For finance - double
For heavy computation - double

Keep in mind .NET CLR only supports Math.Pow(double,double). Decimal is not supported.

.NET Framework 4

public static extern double Pow(double x, double y);
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