Time Wars: Confrontation in Time Keeping
This article explores the concept of keeping time and how
human measurement of time is at odds with that of a computer.
Time
is certainly a concept most of us take for granted, it passes us by and we only
notice it when we catch a glimpse of a grey hair in the mirror or arrive late
for that important meeting. Yet keeping track of the time has occupied mankind
for millennia.
From
early sundials and water timers to modern digital watches and atomic clocks,
humans have found more and more accurate and innovative ways of telling the
time.
Computers
also need to know the correct time. Accuracy is essential in keeping the Internet
and computer networks communicating with each other but to a computer the
passing of time is a simple equation based on the accumulation of discrete
moments added to a base time, normally the number of seconds from that point in
time.
Humans
on the other hand have a variety of different notions
about how to measure time. We separate it in
to seconds, minutes, days, weeks, months, years, decades centuries and even
millennia.
And this is wehere the problem lies as historically we have forced
time to correspond with the orbit and rotation of the Earth, called solar time,
which as it turns out is not that precise, well not enough for a computer
anyway.
Computer networks use Network Time Protocol (NTP),
the time synchronization standard used by on the Internet to keep at the same
time. NTP lets machines query regional time servers that get the Universal
Coordinated Time UTC from highly accurate reference clocks either from the
Internet or through radio or GPS receiver.
However,
UTC is based on atomic time and it differs from the Earth’s rotational time (solar
system) because the day is slowly lengthening. The moon’s gravity lengthens the
global turn by roughly 1.4 milliseconds — that is, thousandths of a second —
per day per century. Since 1820, what we think of as a 24- hour period has
gotten 2 milliseconds longer.
As a result, atomic time differs from solar time by one
second about every 500 days. To adjust leap seconds are added every year or so.
However as computers become more reliant on accuracy this leap second can cause
problems as a second can be a vasrt
amount in some time sensitive applications.
Some suggest to combat this problem leap seconds should be
eliminated and the world should stick with just atomic time even though that would
result in sun at midnight and dark during the day (albeit in 43,000 years time).
Others argue that having a time scale
based on the Earth’s rotation is primitive and not needed in the modern age,
although many farmers and astronomers are keen to argue the opposite.
However , as atomic clocks and computers become
increasingly more accurate and precise it seems that humans and our spinning
world are not going to be able to keep up.
ABOUT THE AUTHOR
Richard N Williams is a technical author and a
specialist in the telecommunications and network time synchronisation industry
helping to develop dedicated time server products. Please visit us for
more information about a GPS NTP server or other Network
time server
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