This structure is a 64-bit value representing the number
of 100-nanosecond intervals since January 1, 1601.

Reference: http://msdn.microsoft.com/en-us/library/aa915351

Why it is set "since 1601"? Why not unix time 1970 or even 2000? What can I do with the compatibility of so distant in time dates?

Answering to myself.

The ANSI Date defines January 1, 1601 as day 1, and is used as the origin of COBOL integer dates. This epoch is the beginning of the previous 400-year cycle of leap years in the Gregorian calendar, which ended with the year 2000. as you can find in wikipedia under Julian_day entry.



Because 1/1/1601 was the start of the epoch.

Take it from Raymond Chen:

Why is the Win32 epoch January 1, 1601?

The FILETIME structure records time in the form of 100-nanosecond intervals since January 1, 1601. Why was that date chosen?

The Gregorian calendar operates on a 400-year cycle, and 1601 is the first year of the cycle that was active at the time Windows NT was being designed. In other words, it was chosen to make the math come out nicely.

I actually have the email from Dave Cutler confirming this.


Well, 1 January 1601 was the first day of the 17th Century. And pendulum clocks were invented in the 17th century, allowing time to be measured to 1 second accuracy. So (in theory) there might be references in extant literature from that period to timepoints measured with that accuracy.

But in reality the choice is arbitrary. There has to be an "epoch", and provided

  1. the epoch is far enough back that "negative time" values are rare, and

  2. the wrap-around time is far enough in the future to be a few generations away,

any choice will do.

But hey, if it worries you that much, send a letter to Steve Balmer.

I'm inclined to believe Ian Boyd's answer. And the reason therein is that it makes the math easier (for gregorian leap year calculation). Given how tiny that simplification is, and how weak the reasoning behind it, it is (IMO) "essentially" arbitrary. (Not that I'm saying it is wrong ...)

  • But what for this structure cover whole 17th, 18th and 19th century. In 100-nanosecond intervals. – zakrzak Jun 1 '12 at 12:08
  • 2
    So what? It is useful when you want to timestamp some event in the past. – Oleg V. Volkov Jun 1 '12 at 12:18
  • @Oleg -- insurance companies and governments are major users of COBOL. You could have a birthdate going back to 1900 for a living citizen, and would certainly keep records on deceased citizens who were born as far back as 1850. Its not uncommon to have 120 year leases on buildings, so a mortgage or policy on an existing lease would need to record start dates in the 1890s, any history would need dates much further back. – James Anderson Jun 14 '12 at 7:29

Its a pragmatic choice.

The modern western calendar was not consistent until 1752 when Britain (and its colonies) adopted the Gregorian calendar, which had been adopted in most of catholic Europe since 1582.

This is the modern calendar with leap years etc. to keep the 1st of January aligned with the winter solstice.

So why not start from 1st January 1752? Because the basic leap year rule "Its a leap year if the two digit year is divisible by four except if the four digit century is also divisible by four") established a 400 year cycle. The first full cycle starting on 1st January 1601, (at least in Rome).

The leap year and date calculations are painful enough without starting midway through a four hundred year cycle so 1600 is a pretty good start as long as you remeber that any dates before 1752 need to be qualified by a geographic location, as British dates were 10 days out of sync. with Roman dates by this time.


As has already been mentioned I think the popular answer is because the Gregorian calendar operates on a 400-year cycle, and 1601 is the first year of the cycle that was active at the time Windows NT was being designed.

January 1, 1601 is origin of COBOL integer dates.

It is also day 1 by ANSI date format.

And if you speculate further according to ISO8601 which is the format in which it is in, prior to 1583 time was based on the proleptic Gregorian calendar which has 366 days per year. Perhaps they just rounded up to the next century.

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