Why is the minimum resolution of a
DateTime based on Ticks (100-nanosecond units) rather than on Milliseconds?
DateTimeuse the same
Ticksmaking operations like adding a
More precision is good. Mainly useful for
TimeSpan, but above reason transfers that to
StopWatchmeasures short time intervals often shorter than a millisecond. It can return a
In one of my projects I used
TimeSpanto address audio samples. 100ns is short enough for that, milliseconds wouldn't be.
Even using milliseconds ticks you need an Int64 to represent
DateTime. But then you're wasting most of the range, since years outside 0 to 9999 aren't really useful. So they chose ticks as small as possible while allowing
DateTimeto represent the year 9999.
There are about 261.5 ticks with 100ns. Since
DateTimeneeds two bits for timezone related tagging, 100ns ticks are the smallest power-of-ten interval that fits an Int64.
So using longer ticks would decrease precision, without gaining anything. Using shorter ticks wouldn't fit 64 bits. => 100ns is the optimal value given the constraints.
A single tick represents one hundred nanoseconds or one ten-millionth of a second. There are 10,000 ticks in a millisecond.
A tick represents the total number of ticks in local time, which is midnight on January 1st in the year 0001. But a tick is also smallest unit for
TimeSpan also. Since ticks are
Int64, so if miliseconds used instead of ticks, there can be a information losing.
Also could be a default
Just for the information:
1 millisecond = 10 000 ticks
1 second = 10 000 000 ticks
Using difference (delta) of two ticks you can get more granular precision (later converting them to millisecond or seconds)
In a C# DateTime context, ticks starts from
0 (DateTime.MinValue.Ticks) up until
new DateTime(0) //numbers between 0 and (864*10^9-1) produces same date 01/01/0001 new DateTime(DateTime.MaxValue.Ticks) //MaxValue tick generates 12/31/9999
System time ticks are incremented by 864 billion ticks per day.