I need a unique identifier in .NET (cannot use GUID as it is too long for this case).

Do people think that the algorithm used here is a good candidate or do you have any other suggestions?

  • 6
    How short? And how unique? GUID is guaranteed to be unique if based on the hardware address of an ethernet adapter; anything produced purely mathematically can never be provably unique -- just probably unique (with an astronomically high probability). – Jon Feb 14 '12 at 14:50
  • 15 in length, and as unique (probably) as possible – Noel Feb 14 '12 at 14:55
  • 4
    var random = 4; //good enough – KristoferA Feb 14 '12 at 14:56
  • 5
    15 what in length? 15 bytes? If so, why not just strip a byte off a guid..? – KristoferA Feb 14 '12 at 14:57
  • 3
    @KristoferA stripping off a byte in a guid astronomically raises your chances of key collisions. If you strip off the wrong ordered byte it might make it certain to collide. – Chris Marisic Aug 25 '16 at 18:00

23 Answers 23


This one a good one - http://www.singular.co.nz/blog/archive/2007/12/20/shortguid-a-shorter-and-url-friendly-guid-in-c-sharp.aspx

and also here YouTube-like GUID

You could use Base64:

string base64Guid = Convert.ToBase64String(Guid.NewGuid().ToByteArray());

That generates a string like E1HKfn68Pkms5zsZsvKONw==. Since a GUID is always 128 bits, you can omit the == that you know will always be present at the end and that will give you a 22 character string. This isn't as short as YouTube though.

  • 12
    A short note: if this is needed for URL's, whoever uses this might want to sanitize the '+' and the '/' characters as well – tkit Aug 8 '16 at 11:08
  • 3
    madskristensen's blog – user3613932 Aug 6 '18 at 23:05
  • 1
    I wanted a max 23 char long unique id for UnnyNet in Unity, and I was stuck with my big dumb GUIDs, and you made me so happy :) – nipunasudha Aug 27 '19 at 19:34
  • Interestingly (if you're working with the Zoom API), this is almost certainly how they generate their UUIDs. They're 22 characters long and are base64 encoded. – vgel Sep 16 '20 at 17:11

I use a similar approach as Dor Cohen's but removing some special characters:

var uid = Regex.Replace(Convert.ToBase64String(Guid.NewGuid().ToByteArray()), "[/+=]", "");     

This will output just alphanumeric characters. The UIDs are not guaranteed to have always the same length. Here is a sample run:

  • 7
    You will loose some properties guaranteed by GUIDs by throwing away information like this. I would recommend replacing the characters you are not comfortable with by different characters while preserving bijection between GUIDs and their serialization format. – Lukáš Lánský Dec 7 '17 at 13:14
  • 3
    This is a nice one to use if you DONT want to convert back to a GUID but just need random characters for something else.. for example tracking workers in multi threads, or Logging Prefix for threaded objects, etc. – Piotr Kula Dec 19 '17 at 13:24
var ticks = new DateTime(2016,1,1).Ticks;
var ans = DateTime.Now.Ticks - ticks;
var uniqueId = ans.ToString("x");

Keep a baseline date (which in this case is 1st Jan 2016) from when you will start generating these ids. This will make your ids smaller.

Generated Number: 3af3c14996e54

  • milliseconds is always 0 for that DateTime object – Teejay May 23 '17 at 8:43
  • Also remove the last sentence. – Teejay May 24 '17 at 16:01
  • 1
    oneliner: var uniqueId = (DateTime.Now.Ticks - new DateTime(2016, 1, 1).Ticks).ToString("x"); – Sgedda May 17 '19 at 9:04
  • 7
    No good for generation of ids almost at the same time like in a for-loop.e.g. dotnetfiddle.net/L3MIgZ – Jaider Nov 19 '19 at 1:40

Simple usable package. I use it for temporal request id generator.



Uses System.Random

string id = ShortId.Generate();
// id = KXTR_VzGVUoOY

(from the github page)

If you want to control the type of id generated by specifying whether you want numbers, special characters and the length, call the Generate method and pass three parameters, the first a boolean stating whether you want numbers, the second a boolean stating whether you want special characters, the last a number indicating your length preference.

string id = ShortId.Generate(true, false, 12);
// id = VvoCDPazES_w

As far as I know, just stripping off a part of a GUID isn't guaranteed to be unique - in fact, it's far from being unique.

The shortest thing that I know that guarantees global uniqueness is featured in this blog post by Jeff Atwood. In the linked post, he discusses multiple ways to shorten a GUID, and in the end gets it down to 20 bytes via Ascii85 encoding.

However, if you absolutely need a solution that's no longer than 15 bytes, I'm afraid you have no other choice than to use something which is not guaranteed to be globally unique.


IDENTITY values should be unique in a database, but you should be aware of the limitations... for example, it makes bulk data inserts basically impossible which will slow you down if you're working with a very large number of records.

You may also be able to use a date/time value. I've seen several databases where they use the date/time to be the PK, and while it's not super clean - it works. If you control the inserts, you can effectively guarantee that the values will be unique in code.


For my local app I'm using this time based approach:

/// <summary>
/// Returns all ticks, milliseconds or seconds since 1970.
/// 1 tick = 100 nanoseconds
/// Samples:
/// Return unit     value decimal           length      value hex       length
/// --------------------------------------------------------------------------
/// ticks           14094017407993061       17          3212786FA068F0  14
/// milliseconds    1409397614940           13          148271D0BC5     11
/// seconds         1409397492              10          5401D2AE        8
/// </summary>
public static string TickIdGet(bool getSecondsNotTicks, bool getMillisecondsNotTicks, bool getHexValue)
    string id = string.Empty;

    DateTime historicalDate = new DateTime(1970, 1, 1, 0, 0, 0);

    if (getSecondsNotTicks || getMillisecondsNotTicks)
        TimeSpan spanTillNow = DateTime.UtcNow.Subtract(historicalDate);

        if (getSecondsNotTicks)
            id = String.Format("{0:0}", spanTillNow.TotalSeconds);
            id = String.Format("{0:0}", spanTillNow.TotalMilliseconds);
        long ticksTillNow = DateTime.UtcNow.Ticks - historicalDate.Ticks;
        id = ticksTillNow.ToString();

    if (getHexValue)
        id = long.Parse(id).ToString("X");

    return id;

here my solution, is not safe for concurrency, no more of 1000 GUID's per seconds and thread safe.

public static class Extensors

    private static object _lockGuidObject;

    public static string GetGuid()

        if (_lockGuidObject == null)
            _lockGuidObject = new object();

        lock (_lockGuidObject)

            var epoch = new DateTime(1970, 1, 1, 0, 0, 0, DateTimeKind.Utc);
            var epochLong = Convert.ToInt64((DateTime.UtcNow - epoch).TotalMilliseconds);

            return epochLong.DecimalToArbitrarySystem(36);



    /// <summary>
    /// Converts the given decimal number to the numeral system with the
    /// specified radix (in the range [2, 36]).
    /// </summary>
    /// <param name="decimalNumber">The number to convert.</param>
    /// <param name="radix">The radix of the destination numeral system (in the range [2, 36]).</param>
    /// <returns></returns>
    public static string DecimalToArbitrarySystem(this long decimalNumber, int radix)
        const int BitsInLong = 64;
        const string Digits = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ";

        if (radix < 2 || radix > Digits.Length)
            throw new ArgumentException("The radix must be >= 2 and <= " + Digits.Length.ToString());

        if (decimalNumber == 0)
            return "0";

        int index = BitsInLong - 1;
        long currentNumber = Math.Abs(decimalNumber);
        char[] charArray = new char[BitsInLong];

        while (currentNumber != 0)
            int remainder = (int)(currentNumber % radix);
            charArray[index--] = Digits[remainder];
            currentNumber = currentNumber / radix;

        string result = new String(charArray, index + 1, BitsInLong - index - 1);
        if (decimalNumber < 0)
            result = "-" + result;

        return result;

code not optimized, just sample!.

  • While an interesting solution, there's no guarantee that UtcNow returns a unique tick value for every millisecond: per the remarks, the resolution depends on the system timer. Additionally, you'd better make sure the system clock doesn't change backward! (Since user13971889's answer bumped this question to the top of my feed, and I critiqued that answer, I figure I should repeat that criticism here.) – Joe Sewell Jul 21 '20 at 20:00

If your app dont have a few MILLIION people, using that generate short unique string at the SAME MILLISECOND, you can think about using below function.

private static readonly Object obj = new Object();
private static readonly Random random = new Random();
private string CreateShortUniqueString()
    string strDate = DateTime.Now.ToString("yyyyMMddhhmmssfff");
    string randomString ;
    lock (obj)
        randomString = RandomString(3);
    return strDate + randomString; // 16 charater
private string RandomString(int length)

    const string chars = "ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789abcdefghijklmnopqrstuvwxy";
    var random = new Random();
    return new string(Enumerable.Repeat(chars, length)
      .Select(s => s[random.Next(s.Length)]).ToArray());

change yyyy to yy if you just need to use your app in next 99 year.
Update 20160511: Correct Random function
- Add Lock object
- Move random variable out of RandomString function

  • 2
    This is great although you shouldn't initialise a new Random every time - the reason for the lock is to allow you to re-use the same Random instance. I think you forgot to delete that line! – NibblyPig May 6 '17 at 19:19

I know it's quite far from posted date... :)

I have a generator which produces only 9 Hexa characters, eg: C9D6F7FF3, C9D6FB52C

public class SlimHexIdGenerator : IIdGenerator
    private readonly DateTime _baseDate = new DateTime(2016, 1, 1);
    private readonly IDictionary<long, IList<long>> _cache = new Dictionary<long, IList<long>>();

    public string NewId()
        var now = DateTime.Now.ToString("HHmmssfff");
        var daysDiff = (DateTime.Today - _baseDate).Days;
        var current = long.Parse(string.Format("{0}{1}", daysDiff, now));
        return IdGeneratorHelper.NewId(_cache, current);

static class IdGeneratorHelper
    public static string NewId(IDictionary<long, IList<long>> cache, long current)
        if (cache.Any() && cache.Keys.Max() < current)

        if (!cache.Any())
            cache.Add(current, new List<long>());

        string secondPart;
        if (cache[current].Any())
            var maxValue = cache[current].Max();
            cache[current].Add(maxValue + 1);
            secondPart = maxValue.ToString(CultureInfo.InvariantCulture);
            secondPart = string.Empty;

        var nextValueFormatted = string.Format("{0}{1}", current, secondPart);
        return UInt64.Parse(nextValueFormatted).ToString("X");

Based on @dorcohen's answer and @pootzko's comment. You can use this. It is safe over the wire.

var errorId = System.Web.HttpServerUtility.UrlTokenEncode(Guid.NewGuid().ToByteArray());

Based on some others, here is my solution which provides a different encoded guid which is URL (and Docker) safe and does not loose any information:

Convert.ToBase64String(Guid.NewGuid().ToByteArray()).Replace("=", "").Replace("+", "-").Replace("/", "_");

Example outputs are:

  • It replaces some characters with alternatives that work in a scenario that the value is neede for URLs or Docker names. As it replaces, you do not loose any information. – Roemer Nov 19 '20 at 10:37

In C# a long value has 64 bits, which if encoded with Base64, there will be 12 characters, including 1 padding =. If we trim the padding =, there will be 11 characters.

One crazy idea here is we could use a combination of Unix Epoch and a counter for one epoch value to form a long value. The Unix Epoch in C# DateTimeOffset.ToUnixEpochMilliseconds is in long format, but the first 2 bytes of the 8 bytes are always 0, because otherwise the date time value will be greater than the maximum date time value. So that gives us 2 bytes to place an ushort counter in.

So, in total, as long as the number of ID generation does not exceed 65536 per millisecond, we can have an unique ID:

// This is the counter for current epoch. Counter should reset in next millisecond
ushort currentCounter = 123;

var epoch = DateTimeOffset.UtcNow.ToUnixTimeMilliseconds();
// Because epoch is 64bit long, so we should have 8 bytes
var epochBytes = BitConverter.GetBytes(epoch);
if (BitConverter.IsLittleEndian)
    // Use big endian
    epochBytes = epochBytes.Reverse().ToArray();

// The first two bytes are always 0, because if not, the DateTime.UtcNow is greater 
// than DateTime.Max, which is not possible
var counterBytes = BitConverter.GetBytes(currentCounter);
if (BitConverter.IsLittleEndian)
    // Use big endian
    counterBytes = counterBytes.Reverse().ToArray();

// Copy counter bytes to the first 2 bytes of the epoch bytes
Array.Copy(counterBytes, 0, epochBytes, 0, 2);

// Encode the byte array and trim padding '='
// e.g. AAsBcTCCVlg
var shortUid = Convert.ToBase64String(epochBytes).TrimEnd('=');
    public static string ToTinyUuid(this Guid guid)
        return Convert.ToBase64String(guid.ToByteArray())[0..^2]  // remove trailing == padding 
            .Replace('+', '-')                          // escape (for filepath)
            .Replace('/', '_');                         // escape (for filepath)



It's not rocket science to convert back, so I'll leave you that much.


If you dont need to type the string you could use the following:

static class GuidConverter
    public static string GuidToString(Guid g)
        var bytes = g.ToByteArray();
        var sb = new StringBuilder();
        for (var j = 0; j < bytes.Length; j++)
            var c = BitConverter.ToChar(bytes, j);
        return sb.ToString();

    public static Guid StringToGuid(string s) 
        => new Guid(s.SelectMany(BitConverter.GetBytes).ToArray());

This will convert the Guid to a 8 character String like this:

{b77a49a5-182b-42fa-83a9-824ebd6ab58d} --> "䦥띺ᠫ䋺ꦃ亂檽趵"

{c5f8f7f5-8a7c-4511-b667-8ad36b446617} --> "엸詼䔑架펊䑫ᝦ"


Here's my small method to generate a random and short unique id. Uses a cryptographic rng for secure random number generation. Add whatever characters you need to the chars string.

private string GenerateRandomId(int length)
    char[] stringChars = new char[length];
    byte[] randomBytes = new byte[length];
    using (RandomNumberGenerator rng = RandomNumberGenerator.Create())

    string chars = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ";           

    for (int i = 0; i < stringChars.Length; i++)
        stringChars[i] = chars[randomBytes[i] % chars.Length];

    return new string(stringChars);

to not lose characters (+ / -) and if you want to use your guid in an url, it must be transformed into base32

for 10 000 000 no duplicate key

    public static List<string> guids = new List<string>();
    static void Main(string[] args)
        for (int i = 0; i < 10000000; i++)
            var guid = Guid.NewGuid();
            string encoded = BytesToBase32(guid.ToByteArray());
        var result = guids.GroupBy(x => x)
                    .Where(group => group.Count() > 1)
                    .Select(group => group.Key);

        foreach (var res in result)
            Console.WriteLine($"Duplicate {res}");

        Console.WriteLine($"*********** end **************");

    public static string BytesToBase32(byte[] bytes)
        const string alphabet = "ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789";
        string output = "";
        for (int bitIndex = 0; bitIndex < bytes.Length * 8; bitIndex += 5)
            int dualbyte = bytes[bitIndex / 8] << 8;
            if (bitIndex / 8 + 1 < bytes.Length)
                dualbyte |= bytes[bitIndex / 8 + 1];
            dualbyte = 0x1f & (dualbyte >> (16 - bitIndex % 8 - 5));
            output += alphabet[dualbyte];

        return output;

You can try with the following library:


22 chars, url safe, and retains Guid uniqueness.

// Our url safe, base 64 alphabet:
const string alphabet = "-_0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ";

// Sanitized Guid string. Preserve the last two hex chars
var guidStr = "929F7C4D4B2644E1A122A379C02D6345";
var lastTwo = guidStr.Substring(30, 2);

string shortGuid = "";

// Iterate over the ten groups of 3 hex chars: 929 F7C 4D4 B26 44E 1A1 22A 379 C02 D63
for (var i = 0; i < 10; i++)
    var hex = guidStr.Substring(i*3, 3);              // Get the next 3 hex chars
    var x = Convert.ToInt32(hex, 16);                 // Convert to int
    shortGuid += $"{alphabet[x/64]}{alphabet[x%64]}"; // Lookup the two-digit base64 value
shortGuid += lastTwo; // Don't forget the last two



  • Not the downvoter, but not sure how this is any different to the accepted answer, it's just a different way without the explicit conversion to Base64. – phuzi Nov 18 '20 at 16:24
  • 1
    My intent was to provide a solution that shows the algorithm. There are ways with fewer lines of code, clearly. But it's always good to know how something works. This solution would be easily portable to any other language. – Didaxis Nov 18 '20 at 16:29

Just in case merely removing hyphens will do for anyone:


This generates perfectly unique strings of 32 characters:


you can use

code = await UserManager.GenerateChangePhoneNumberTokenAsync(input.UserId, input.MobileNumber);

its 6 nice characters only, 599527 ,143354

and when user virify it simply

var result = await UserManager.VerifyChangePhoneNumberTokenAsync(input.UserId, input.Token, input.MobileNumber);

hope this help you

  • I always keep my passwords simple, easy to remember – Toolkit Oct 15 '19 at 12:38
private static readonly object _getUniqueIdLock = new object();
public static string GetUniqueId()
        return DateTime.UtcNow.Ticks.ToString("X");
  • 1
    While an interesting solution, there's no guarantee that UtcNow returns a unique tick value for every millisecond: per the remarks, the resolution depends on the system timer. Additionally, you'd better make sure the system clock doesn't change backward! (ur3an0's answer also have these issues.) – Joe Sewell Jul 21 '20 at 19:53
  • Agreed. This is a poor man's approach and shouldn't be used beyond your own well controlled environment. – user13971889 Jul 22 '20 at 0:09

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