#include "surf_routing_private.hpp"
#include "surf_routing_cluster.hpp"
#include "surf_routing_cluster_torus.hpp"
-
+#include "surf_routing_cluster_fat_tree.hpp"
#include "simgrid/platf_interface.h" // platform creation API internal interface
#include "simgrid/sg_config.h"
SURF_MODEL_VIVALDI,
SURF_MODEL_CLUSTER,
SURF_MODEL_TORUS_CLUSTER,
-
+ SURF_MODEL_FAT_TREE_CLUSTER,
} e_routing_types;
struct s_model_type routing_models[] = {
model_vivaldi_create, NULL},
{"Cluster", "Cluster routing",
model_cluster_create, NULL},
- {"Torus_Cluster", "Torus Cluster routing",
- model_torus_cluster_create, NULL},
+ {"Torus_Cluster", "Torus Cluster routing",
+ model_torus_cluster_create, NULL},
+ {"Fat_Tree_Cluster", "Fat Tree Cluster routing",
+ model_fat_tree_cluster_create, NULL},
{NULL, NULL, NULL, NULL}
};
/* search the routing model */
switch(AS->routing){
- case A_surfxml_AS_routing_Cluster: model = &routing_models[SURF_MODEL_CLUSTER];break;
- case A_surfxml_AS_routing_Cluster___torus: model = &routing_models[SURF_MODEL_TORUS_CLUSTER];break;
- case A_surfxml_AS_routing_Dijkstra: model = &routing_models[SURF_MODEL_DIJKSTRA];break;
- case A_surfxml_AS_routing_DijkstraCache: model = &routing_models[SURF_MODEL_DIJKSTRACACHE];break;
- case A_surfxml_AS_routing_Floyd: model = &routing_models[SURF_MODEL_FLOYD];break;
- case A_surfxml_AS_routing_Full: model = &routing_models[SURF_MODEL_FULL];break;
- case A_surfxml_AS_routing_None: model = &routing_models[SURF_MODEL_NONE];break;
- case A_surfxml_AS_routing_Vivaldi: model = &routing_models[SURF_MODEL_VIVALDI];break;
+ case A_surfxml_AS_routing_Cluster: model = &routing_models[SURF_MODEL_CLUSTER];break;
+ case A_surfxml_AS_routing_Cluster___torus: model = &routing_models[SURF_MODEL_TORUS_CLUSTER];break;
+ case A_surfxml_AS_routing_Cluster___fat___tree: model = &routing_models[SURF_MODEL_FAT_TREE_CLUSTER]; break;
+ case A_surfxml_AS_routing_Dijkstra: model = &routing_models[SURF_MODEL_DIJKSTRA];break;
+ case A_surfxml_AS_routing_DijkstraCache: model = &routing_models[SURF_MODEL_DIJKSTRACACHE];break;
+ case A_surfxml_AS_routing_Floyd: model = &routing_models[SURF_MODEL_FLOYD];break;
+ case A_surfxml_AS_routing_Full: model = &routing_models[SURF_MODEL_FULL];break;
+ case A_surfxml_AS_routing_None: model = &routing_models[SURF_MODEL_NONE];break;
+ case A_surfxml_AS_routing_Vivaldi: model = &routing_models[SURF_MODEL_VIVALDI];break;
default: xbt_die("Not a valid model!!!");
break;
}
/* add to the father element list */
info->setId(current_routing->parseAS(info));
} else {
- THROWF(arg_error, 0, "All defined components must be belong to a AS");
+ THROWF(arg_error, 0, "All defined components must belong to a AS");
}
xbt_lib_set(as_router_lib, info->getName(), ROUTING_ASR_LEVEL,
AS.routing = A_surfxml_AS_routing_Cluster___torus;
sg_platf_new_AS_begin(&AS);
((AsClusterTorusPtr)current_routing)->parse_specific_arguments(cluster);
- }else{
+ }
+ else if (cluster->topology == SURF_CLUSTER_FAT_TREE) {
+ XBT_DEBUG("<AS id=\"%s\"\trouting=\"Fat_Tree_Cluster\">", cluster->id);
+ AS.routing = A_surfxml_AS_routing_Cluster___fat___tree;
+ sg_platf_new_AS_begin(&AS);
+ ((AsClusterFatTree*)current_routing)->parse_specific_arguments(cluster);
+ }
+
+ else{
XBT_DEBUG("<AS id=\"%s\"\trouting=\"Cluster\">", cluster->id);
AS.routing = A_surfxml_AS_routing_Cluster;
sg_platf_new_AS_begin(&AS);
} else {
XBT_DEBUG("\tstate_file=\"\"");
}
-
+
xbt_dynar_t power_state_list = xbt_dynar_new(sizeof(double), NULL);
xbt_dynar_push(power_state_list,&cluster->power);
host.power_peak = power_state_list;
//call the cluster function that adds the others links
-
+ if (cluster->topology == SURF_CLUSTER_FAT_TREE) {
+ ((AsClusterFatTree*) current_routing)->addComputeNode(i);
+ }
+ else {
((AsClusterPtr)current_routing)->create_links_for_node(cluster, i, rankId, rankId*
((AsClusterPtr)current_routing)->p_nb_links_per_node
+ ((AsClusterPtr)current_routing)->p_has_loopback
+ ((AsClusterPtr)current_routing)->p_has_limiter );
-
+ }
xbt_free(link_id);
xbt_free(host_id);
rankId++;
xbt_dynar_free(&radical_ends);
}
xbt_dynar_free(&radical_elements);
-
+
+ // For fat trees, the links must be created once all nodes have been added
+ if(cluster->topology == SURF_CLUSTER_FAT_TREE) {
+ ((AsClusterFatTree*)current_routing)->create_links(cluster);
+ }
// Add a router. It is magically used thanks to the way in which surf_routing_cluster is written,
// and it's very useful to connect clusters together
XBT_DEBUG(" ");
StoragePtr storage = static_cast<StoragePtr>(xbt_lib_get_level(xbt_lib_get_elm_or_null(storage_lib, key), SURF_STORAGE_LEVEL));
host_elm = sg_routing_edge_by_name_or_null(storage->p_attach);
if(!host_elm)
- surf_parse_error("Enable to attach storage %s: host %s doesn't exist.", storage->getName(), storage->p_attach);
+ surf_parse_error("Unable to attach storage %s: host %s doesn't exist.", storage->getName(), storage->p_attach);
}
}
}
return as->p_name;
}
+static AsPtr surf_AS_recursive_get_by_name(AsPtr current, const char * name) {
+ xbt_dict_cursor_t cursor = NULL;
+ char *key;
+ AS_t elem;
+ AsPtr tmp = NULL;
+
+ if(!strcmp(current->p_name, name))
+ return current;
+
+ xbt_dict_foreach(current->p_routingSons, cursor, key, elem) {
+ tmp = surf_AS_recursive_get_by_name(elem, name);
+ if(tmp != NULL ) {
+ break;
+ }
+ }
+ return tmp;
+}
+
+
+AsPtr surf_AS_get_by_name(const char * name) {
+ AsPtr as = surf_AS_recursive_get_by_name(routing_platf->p_root, name);
+ if(as == NULL)
+ XBT_WARN("Impossible to find an AS with name %s, please check your input", name);
+ return as;
+}
+
xbt_dict_t surf_AS_get_routing_sons(AsPtr as) {
return as->p_routingSons;
}