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  <title>cnm(1) - Find communities using greedy modularity optimisation</title>
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<body id='manpage'>
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  <div class='man-navigation' style='display:none'>
    <a href="#NAME">NAME</a>
    <a href="#SYNOPSIS">SYNOPSIS</a>
    <a href="#DESCRIPTION">DESCRIPTION</a>
    <a href="#PARAMETERS">PARAMETERS</a>
    <a href="#OUTPUT">OUTPUT</a>
    <a href="#EXAMPLES">EXAMPLES</a>
    <a href="#SEE-ALSO">SEE ALSO</a>
    <a href="#REFERENCES">REFERENCES</a>
    <a href="#AUTHORS">AUTHORS</a>
  </div>

  <ol class='man-decor man-head man head'>
    <li class='tl'>cnm(1)</li>
    <li class='tc'>www.complex-networks.net</li>
    <li class='tr'>cnm(1)</li>
  </ol>

  <h2 id="NAME">NAME</h2>
<p class="man-name">
  <code>cnm</code> - <span class="man-whatis">Find communities using greedy modularity optimisation</span>
</p>

<h2 id="SYNOPSIS">SYNOPSIS</h2>

<p><code>cnm</code> <var>graph_in</var></p>

<h2 id="DESCRIPTION">DESCRIPTION</h2>

<p><code>cnm</code> finds the communities in <var>graph_in</var> using the greedy modularity
optimisation algorithm proposed by Clauset, Newman and Moore. The
program prints on STDOUT the partition corresponding to the highest
value of the modularity function, and reports on STDERR the number of
communities and the corresponding value of modularity at each
step. The algorithm is quite eficient and thus suitable to find
communities in large graphs.</p>

<h2 id="PARAMETERS">PARAMETERS</h2>

<dl>
<dt><var>graph_in</var></dt><dd>  undirected input graph (edge list). If is equal to <code>-</code> (dash), read
  the edge list from STDIN.</dd>
</dl>


<h2 id="OUTPUT">OUTPUT</h2>

<p>The program prints on STDOUT the partition corresponding to the
highest value of modularity, in the format:</p>

<pre><code>    ## nc: NUM_COMM Q_max: Q_MAX 
    node_1 comm_1
    node_2 comm_2
    node_3 comm_3
    ... 
</code></pre>

<p>where <code>comm_i</code> is the community to which <code>node_i</code> belongs. The first
output line reports the number of communities <code>NUM_COMM</code> and the
corresponding value of modularity <code>Q_MAX</code> of the partition.</p>

<p>The program prints on STDERR the number of communities and the
corresponding value of modularity at each step, in the format:</p>

<pre><code>    nc_1 Q_1
    nc_2 Q_2
    nc_3 Q_3
    ....
</code></pre>

<p>where <code>nc_i</code> is the number of communities after the i-th marge and
<code>Q_i</code> is the corresponding value of modularity. Since the algorithm
merges two communities at each step, the values <code>nc_1</code>, <code>nc_2</code>,
<code>nc_3</code>, etc.  will be equal to <code>N-1</code>, <code>N-2</code>, <code>N-3</code>, etc.</p>

<h2 id="EXAMPLES">EXAMPLES</h2>

<p>We can use <code>cnm</code> to find communities in the graph
<code>karate_club_unweighted.net</code> (Zachary Karate Club network) with the
command:</p>

<pre><code>    $ cnm karate_club_unweighted.net 2&gt; karate_cnm_trace
    ### nc: 3 Q_max: 0.380671
    0 16
    1 2
    2 2
    3 2
    4 16
    5 16
    6 16
    ...
    30 26
    31 26
    32 26
    33 26
    $ 
</code></pre>

<p>The program has found a partition with 3 communities corrisponding to
a modularity Q=0.380671. Notice that node 0, 4, 5, 6 are in community
16, node 1, 2, 3 are in community 2, and so forth.  In this example,
we have chosen to save the information about number of communities and
modularity at each step in the file <code>karate_cnm_trace</code>.</p>

<h2 id="SEE-ALSO">SEE ALSO</h2>

<p><span class="man-ref">modularity<span class="s">(1)</span></span>, <span class="man-ref">gn<span class="s">(1)</span></span>, <span class="man-ref">label_prop<span class="s">(1)</span></span></p>

<h2 id="REFERENCES">REFERENCES</h2>

<ul>
<li><p>A. Clauset, M. E. J. Newman, and C. Moore. "Finding community
structure in very large networks". Phys. Rev. E 70 (2004), 066111.</p></li>
<li><p>V. Latora, V. Nicosia, G. Russo, "Complex Networks: Principles,
Methods and Applications", Appendix 18, Cambridge University Press
(2017)</p></li>
<li><p>V. Latora, V. Nicosia, G. Russo, "Complex Networks: Principles,
Methods and Applications", Chapter 9, Cambridge University Press
(2017)</p></li>
</ul>


<h2 id="AUTHORS">AUTHORS</h2>

<p>(c) Vincenzo 'KatolaZ' Nicosia 2009-2017 <code>&lt;v.nicosia@qmul.ac.uk&gt;</code>.</p>


  <ol class='man-decor man-foot man foot'>
    <li class='tl'>www.complex-networks.net</li>
    <li class='tc'>September 2017</li>
    <li class='tr'>cnm(1)</li>
  </ol>

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