+
+/** \brief Fat tree representation and routing.
+ *
+ * Generate fat trees according to the topology asked for. Almost everything
+ * is based on the work of Eitan Zahavi in "D-Mod-K Routing Providing
+ * Non-Blocking Traffic for Shift Permutations on Real Life Fat Trees" (2010).
+ *
+ * The exact topology is described in the mandatory topo_parameters
+ * field, and follow the "h ; m_h, ..., m_1 ; w_h, ..., w_1 ; p_h, ..., p_1" format.
+ * h stands for the switches levels number, i.e. the fat tree is of height h,
+ * without the processing nodes. m_i stands for the number of lower level nodes
+ * connected to a node in level i. w_i stands for the number of upper levels
+ * nodes connected to a node in level i-1. p_i stands for the number of
+ * parallel links connecting two nodes between level i and i - 1. Level h is
+ * the topmost switch level, level 1 is the lowest switch level, and level 0
+ * represents the processing nodes. The number of provided nodes must be exactly
+ * the number of processing nodes required to fit the topology, which is the
+ * product of the m_i's.
+ *
+ * Routing is made using a destination-mod-k scheme.
+ */
+class XBT_PRIVATE AsClusterFatTree : public AsCluster {