* should certainly be checked for)
*/
+/* TODO : limiter link ? Loopback?
+ *
+ */
+class FatTreeNode;
+class FatTreeLink;
+
class FatTreeNode {
public:
- int id; // ID as given by the user
- int level; // The 0th level represents the leafs of the PGFT
- int position; // Position in the level
-
+ int id;
+ unsigned int level; // The 0th level represents the leafs of the PGFT
+ unsigned int position; // Position in the level
+ std::vector<int> label;
/* We can see the sizes sum of the two following vectors as the device
* ports number. If we use the notations used in Zahavi's paper,
* children.size() = m_level and parents.size() = w_(level+1)
*
*/
- std::vector<FatTreeNode*> children; // m, apply from lvl 0 to levels - 1
- std::vector<FatTreeNode*> parents; // w, apply from lvl 1 to levels
+ std::vector<FatTreeLink*> children; // m, apply from lvl 0 to levels - 1
+ std::vector<FatTreeLink*> parents; // w, apply from lvl 1 to levels
FatTreeNode(int id, int level=-1, int position=-1);
};
class FatTreeLink {
-private:
- unsigned int ports;
- std::vector<NetworkLink> linksUp; // From source to destination
- std::vector<NetworkLink> linksDown; // From destination to source
- FatTreeNode source;
- FatTreeNode destination;
public:
- FatTreeLink(int source, int destination, unsigned int ports = 0);
- NetworkLink getLink(int number = 0) const;
+ FatTreeLink(sg_platf_cluster_cbarg_t cluster, FatTreeNode *source,
+ FatTreeNode *destination);
+ // unsigned int ports;
+ /* Links are dependant of the chosen network model, but must implement
+ * NetworkLink
+ */
+ NetworkLink* linkUp; // From source to destination
+ NetworkLink* linkDown; // From destination to source
+ /* As it is symetric, it might as well be first / second instead
+ * of source / destination
+ */
+ FatTreeNode *source;
+ FatTreeNode *destination;
};
class AsClusterFatTree : public AsCluster {
public:
AsClusterFatTree();
~AsClusterFatTree();
- virtual void getRouteAndLatency(RoutingEdgePtr src, RoutingEdgePtr dst, sg_platf_route_cbarg_t into, double *latency) const;
+ virtual void getRouteAndLatency(RoutingEdgePtr src, RoutingEdgePtr dst,
+ sg_platf_route_cbarg_t into,
+ double *latency);
+ // virtual void getRouteAndLatency(const int src, const int dst,
+ // std::vector<NetworkLink> *route,
+ // double *latency) const;
virtual void create_links(sg_platf_cluster_cbarg_t cluster);
void parse_specific_arguments(sg_platf_cluster_cbarg_t cluster);
- void addNodes(std::vector<int> const& id);
- void generateDotFile(string filename = "fatTree.dot");
+ void addComputeNodes(std::vector<int> const& id);
+ void generateDotFile(const string& filename = "fatTree.dot") const;
protected:
//description of a PGFT (TODO : better doc)
unsigned int levels;
- std::vector<int> lowerLevelNodesNumber;
- std::vector<int> upperLevelNodesNumber;
- std::vector<int> lowerLevelPortsNumber;
+ std::vector<int> lowerLevelNodesNumber; // number of children by node
+ std::vector<int> upperLevelNodesNumber; // number of parents by node
+ std::vector<int> lowerLevelPortsNumber; // ports between each level l and l-1
std::vector<FatTreeNode*> nodes;
std::map<std::pair<int,int>, FatTreeLink*> links;
-
-};
-
+ std::vector<unsigned int> nodesByLevel;
-
+ void addLink(sg_platf_cluster_cbarg_t cluster,
+ FatTreeNode *parent, unsigned int parentPort,
+ FatTreeNode *child, unsigned int childPort);
+ int getLevelPosition(const unsigned int level);
+ void generateLabels();
+ void generateSwitches();
+ int connectNodeToParents(sg_platf_cluster_cbarg_t cluster, FatTreeNode *node);
+ bool areRelated(FatTreeNode *parent, FatTreeNode *child);
+};
#endif