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<p>
<p>This manual is an attempt to assist beginners in understanding the concepts
of RRDtool. It sheds a light on differences between RRDtool and other
databases. With help of an example, it explains the structure of RRDtool
<p>This manual is an attempt to assist beginners in understanding the concepts
of RRDtool. It sheds a light on differences between RRDtool and other
databases. With help of an example, it explains the structure of RRDtool
-database. This is followed by an overview of the ``graph'' feature of RRDtool.
+database. This is followed by an overview of the "graph" feature of RRDtool.
At the end, it has sample scripts that illustrate the
usage/wrapping of RRDtool within Shell or Perl scripts.</p>
<p>
At the end, it has sample scripts that illustrate the
usage/wrapping of RRDtool within Shell or Perl scripts.</p>
<p>
database as the perimeter of a circle. Data is added along the
perimeter. When new data reaches the starting point, it overwrites
existing data. This way, the size of an RRDtool database always
database as the perimeter of a circle. Data is added along the
perimeter. When new data reaches the starting point, it overwrites
existing data. This way, the size of an RRDtool database always
-remains constant. The name ``Round Robin'' stems from this behavior.</p>
+remains constant. The name "Round Robin" stems from this behavior.</p>
</li>
<li>
<p>Other databases store the values as supplied. RRDtool can be configured to
</li>
<li>
<p>Other databases store the values as supplied. RRDtool can be configured to
DS:mem:GAUGE:600:0:671744 \
RRA:AVERAGE:0.5:12:24 \
RRA:AVERAGE:0.5:288:31</pre>
DS:mem:GAUGE:600:0:671744 \
RRA:AVERAGE:0.5:12:24 \
RRA:AVERAGE:0.5:288:31</pre>
-<p>This example creates a database named <em>target.rrd</em>. Start time
+<p>This example creates a database named <em class="file">target.rrd</em>. Start time
(1'023'654'125) is specified in total number of seconds since epoch
(time in seconds since 01-01-1970). While updating the database, the
update time is also specified. This update time MUST be large (later)
(1'023'654'125) is specified in total number of seconds since epoch
(time in seconds since 01-01-1970). While updating the database, the
update time is also specified. This update time MUST be large (later)
</p>
<h2><a name="graphical_magic">Graphical Magic</a></h2>
<p>Another important feature of RRDtool is its ability to create
</p>
<h2><a name="graphical_magic">Graphical Magic</a></h2>
<p>Another important feature of RRDtool is its ability to create
-graphs. The ``graph'' command uses the ``fetch'' command internally to
+graphs. The "graph" command uses the "fetch" command internally to
retrieve values from the database. With the retrieved values it draws
graphs as defined by the parameters supplied on the command line. A
single graph can show different DS (Data Sources) from a database. It
retrieve values from the database. With the retrieved values it draws
graphs as defined by the parameters supplied on the command line. A
single graph can show different DS (Data Sources) from a database. It
its choice. First it makes sure that the RRA covers as much of the
graphing time frame as possible. Second it looks at the resolution of
the RRA compared to the resolution of the graph. It tries to find one
its choice. First it makes sure that the RRA covers as much of the
graphing time frame as possible. Second it looks at the resolution of
the RRA compared to the resolution of the graph. It tries to find one
-which has the same or higher better resolution. With the ``-r'' option
+which has the same or higher better resolution. With the "-r" option
you can force RRDtool to assume a different resolution than the one
calculated from the pixel width of the graph.</p>
<p>Values of different variables can be presented in 5 different shapes
in a graph - AREA, LINE1, LINE2, LINE3, and STACK. AREA is represented
by a solid colored area with values as the boundary of this
area. LINE1/2/3 (increasing width) are just plain lines representing
you can force RRDtool to assume a different resolution than the one
calculated from the pixel width of the graph.</p>
<p>Values of different variables can be presented in 5 different shapes
in a graph - AREA, LINE1, LINE2, LINE3, and STACK. AREA is represented
by a solid colored area with values as the boundary of this
area. LINE1/2/3 (increasing width) are just plain lines representing
-the values. STACK is also an area but it is ``stack''ed on top AREA or
+the values. STACK is also an area but it is "stack"ed on top AREA or
LINE1/2/3. Another important thing to note is that variables are
plotted in the order they are defined in the graph command. Therefore
care must be taken to define STACK only after defining AREA/LINE. It
LINE1/2/3. Another important thing to note is that variables are
plotted in the order they are defined in the graph command. Therefore
care must be taken to define STACK only after defining AREA/LINE. It