title: On Clock and Time
---
-<h2>On Clock and Time</h2>
-
<p>
-Synchronisation in multimedia involves two concepts which are often confused: <strong>clock</strong> (or speed) and <strong>time</strong> (location in time).
+Synchronization in multimedia involves two concepts which are often confused: <strong>clock</strong> (or speed) and <strong>time</strong> (location in time).
</p>
<p>
A <em>clock</em> is the mechanism by which two systems <em>tick</em> simultaneously.
-In the audio world this is generally referred to as <a href="http://en.wikipedia.org/wiki/Word_clock" title="http://en.wikipedia.org/wiki/Word_clock">Word_clock</a>.
+In the audio world this is generally referred to as <a href="http://en.wikipedia.org/wiki/Word_clock" title="http://en.wikipedia.org/wiki/Word_clock">Word Clock</a>.
It does not carry any absolute reference to a point in time: A clock is used to keep a systems sample rate constant, regular and accurate.
-Word clock is usually at the frequency of the sample-rate - ie at 48KHz, its period is about 20μs. Word Clock is the most common 'sample rate' based clock but other clocks do exist such as Black and Burst, Tri-Level and DARS. Sample rates can also be derived from these clocks as well.
-</p>
-
-<p>
-Time – or <em>timecode</em> – on the other hand specifies an absolute relationship or position on a timeline e.g. <code>01:02:03:04</code> (expressed as Hours:Mins:Secs:Frames). It is actual data and not a clock-signal per se.
-The granularity of timecode is <strong>Video Frames</strong> and is an order of magnitude lower than, say, Word Clock which is counted in <strong>samples</strong>. A typical frame-rate is 25 fps with a period of 40ms.
-In the case of 48kHz and 25fps, there are 1920 samples per video frame.
+Word clock is usually at the frequency of the sample rate - ie at 48KHz, its period is about 20μs. Word Clock is the most common 'sample rate' based clock but other clocks do exist such as Black and Burst, Tri-Level and DARS. Sample rates can also be derived from these clocks as well.
</p>
<p>
-An interesting point to note is that LTC (Linear Time Code) is a Manchester Encoded, Frequency Modulated signal that carries both 'Clock' and 'Time'. It is possible to extract absolute position data and speed from it.
+Time – or <em>timecode</em> – on the other hand specifies an absolute relationship or position on a timeline e.g. <code>01:02:03:04</code> (expressed as Hours:Mins:Secs:Frames). It is actual <em>data</em> and not a clock <em>signal</em> per se.
+The granularity of timecode is <strong>Video Frames</strong> and is an order of magnitude lower than, say, Word Clock which is counted in <strong>samples</strong>. A typical frame rate is 25 fps with a period of 40ms.
+In the case of 48KHz and 25fps, there are 1920 audio samples per video frame.
</p>
<p>
</p>
<p>
-JACK provides clock-synchronization and is not concerned with time-code (this is not entirely true, more on jack-transport later).
+JACK provides clock synchronization and is not concerned with time code (this is not entirely true, more on jack-transport later).
Within software, jackd provides sample-accurate synchronization between all JACK applications.
-On the harware side JACK uses the clock of the audio-interface. Synchronization of multiple interfaces requires hardware support to sync the clocks.
+On the hardware side JACK uses the clock of the audio-interface. Synchronization of multiple interfaces requires hardware support to sync the clocks.
If two interfaces run at different clocks the only way to align the signals is via re-sampling (SRC - Sample Rate Conversion) - which decreases fidelity.
</p>
NB. to make things confusing, there are possibilities to synchronize clocks using timecode. e.g. using mechanism called <em>jam-sync</em> and a Phase-Locked-Loop.
</p>
+<p>
+An interesting point to note is that LTC (Linear Time Code) is a Manchester encoded, frequency modulated signal that carries both 'Clock' and 'Time'. It is possible to extract absolute position data and speed from it.
+</p>
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