#include "simgrid/kernel/routing/TorusZone.hpp"
#include "simgrid/kernel/routing/NetPoint.hpp"
+#include "simgrid/s4u/Host.hpp"
#include "src/surf/network_interface.hpp"
-#include "src/surf/xml/platf_private.hpp"
#include <boost/algorithm/string/classification.hpp>
#include <boost/algorithm/string/split.hpp>
+#include <numeric>
#include <string>
#include <vector>
namespace kernel {
namespace routing {
-void TorusZone::create_links_for_node(ClusterCreationArgs* cluster, int id, int rank, unsigned int position)
+void TorusZone::create_links(int id, int rank, unsigned int position)
{
/* Create all links that exist in the torus. Each rank creates @a dimensions-1 links */
int dim_product = 1; // Needed to calculate the next neighbor_id
? rank - (current_dimension - 1) * dim_product
: rank + dim_product;
// name of neighbor is not right for non contiguous cluster radicals (as id != rank in this case)
- std::string link_id =
- std::string(cluster->id) + "_link_from_" + std::to_string(id) + "_to_" + std::to_string(neighbor_rank_id);
+ std::string link_id = get_name() + "_link_from_" + std::to_string(id) + "_to_" + std::to_string(neighbor_rank_id);
const s4u::Link* linkup;
const s4u::Link* linkdown;
- if (cluster->sharing_policy == s4u::Link::SharingPolicy::SPLITDUPLEX) {
- linkup = create_link(link_id + "_UP", std::vector<double>{cluster->bw})->set_latency(cluster->lat)->seal();
- linkdown = create_link(link_id + "_DOWN", std::vector<double>{cluster->bw})->set_latency(cluster->lat)->seal();
+ if (get_link_sharing_policy() == s4u::Link::SharingPolicy::SPLITDUPLEX) {
+ linkup = create_link(link_id + "_UP", std::vector<double>{get_link_bandwidth()})
+ ->set_latency(get_link_latency())
+ ->seal();
+ linkdown = create_link(link_id + "_DOWN", std::vector<double>{get_link_bandwidth()})
+ ->set_latency(get_link_latency())
+ ->seal();
} else {
- linkup = create_link(link_id, std::vector<double>{cluster->bw})->set_latency(cluster->lat)->seal();
+ linkup = create_link(link_id, std::vector<double>{get_link_bandwidth()})->set_latency(get_link_latency())->seal();
linkdown = linkup;
}
/*
}
}
-void TorusZone::parse_specific_arguments(ClusterCreationArgs* cluster)
+std::vector<unsigned int> TorusZone::parse_topo_parameters(const std::string& topo_parameters)
{
- std::vector<std::string> dimensions;
- boost::split(dimensions, cluster->topo_parameters, boost::is_any_of(","));
+ std::vector<std::string> dimensions_str;
+ boost::split(dimensions_str, topo_parameters, boost::is_any_of(","));
+ std::vector<unsigned int> dimensions;
- if (not dimensions.empty()) {
+ if (not dimensions_str.empty()) {
/* We are in a torus cluster
* Parse attribute dimensions="dim1,dim2,dim3,...,dimN" and save them into a vector.
* Additionally, we need to know how many ranks we have in total
*/
- for (auto const& group : dimensions)
- dimensions_.push_back(surf_parse_get_int(group));
-
- set_num_links_per_node(dimensions_.size());
+ std::transform(begin(dimensions_str), end(dimensions_str), std::back_inserter(dimensions),
+ [](const std::string& s) { return std::stoi(s); });
}
+ return dimensions;
}
-void TorusZone::get_local_route(NetPoint* src, NetPoint* dst, RouteCreationArgs* route, double* lat)
+void TorusZone::set_topology(const std::vector<unsigned int>& dimensions)
+{
+ xbt_assert(not dimensions.empty(), "Torus dimensions cannot be empty");
+ dimensions_ = dimensions;
+ set_num_links_per_node(dimensions_.size());
+}
+
+void TorusZone::get_local_route(NetPoint* src, NetPoint* dst, Route* route, double* lat)
{
XBT_VERB("torus getLocalRoute from '%s'[%u] to '%s'[%u]", src->get_cname(), src->id(), dst->get_cname(), dst->id());
if (src->id() == dst->id() && has_loopback()) {
resource::LinkImpl* uplink = get_uplink_from(node_pos(src->id()));
- route->link_list.push_back(uplink);
+ route->link_list_.push_back(uplink);
if (lat)
*lat += uplink->get_latency();
return;
* linkOffset describes the offset where the link we want to use is stored(+1 is added because each node has a link
* from itself to itself, which can only be the case if src->m_id == dst->m_id -- see above for this special case)
*/
- int nodeOffset = (dsize + 1) * src->id();
+ int linkOffset = (dsize + 1) * src->id();
- int linkOffset = nodeOffset;
bool use_lnk_up = false; // Is this link of the form "cur -> next" or "next -> cur"? false means: next -> cur
unsigned int current_node = src->id();
while (current_node != dst->id()) {
next_node = (current_node + dim_product);
// HERE: We use *CURRENT* node for calculation (as opposed to next_node)
- nodeOffset = node_pos(current_node);
linkOffset = node_pos_with_loopback_limiter(current_node) + j;
use_lnk_up = true;
assert(linkOffset >= 0);
next_node = (current_node - dim_product);
// HERE: We use *next* node for calculation (as opposed to current_node!)
- nodeOffset = node_pos(next_node);
linkOffset = node_pos_with_loopback_limiter(next_node) + j;
use_lnk_up = false;
}
if (has_limiter()) { // limiter for sender
- route->link_list.push_back(get_uplink_from(node_pos_with_loopback(nodeOffset)));
+ route->link_list_.push_back(get_uplink_from(node_pos_with_loopback(current_node)));
}
resource::LinkImpl* lnk;
else
lnk = get_downlink_to(linkOffset);
- route->link_list.push_back(lnk);
+ route->link_list_.push_back(lnk);
if (lat)
*lat += lnk->get_latency();
current_node = next_node;
}
+ if (has_limiter()) { // limiter for receiver/destination
+ route->link_list_.push_back(get_downlink_to(node_pos_with_loopback(dst->id())));
+ }
+ // set gateways (if any)
+ route->gw_src_ = get_gateway(src->id());
+ route->gw_dst_ = get_gateway(dst->id());
}
+
} // namespace routing
} // namespace kernel
namespace s4u {
-NetZone* create_torus_zone(const std::string& name)
+
+NetZone* create_torus_zone(const std::string& name, const NetZone* parent, const std::vector<unsigned int>& dimensions,
+ const ClusterCallbacks& set_callbacks, double bandwidth, double latency,
+ Link::SharingPolicy sharing_policy)
{
- return (new kernel::routing::TorusZone(name))->get_iface();
+ int tot_elements = std::accumulate(dimensions.begin(), dimensions.end(), 1, std::multiplies<>());
+ if (dimensions.empty() || tot_elements <= 0)
+ throw std::invalid_argument("TorusZone: incorrect dimensions parameter, each value must be > 0");
+ if (bandwidth <= 0)
+ throw std::invalid_argument("TorusZone: incorrect bandwidth for internode communication, bw=" +
+ std::to_string(bandwidth));
+ if (latency < 0)
+ throw std::invalid_argument("TorusZone: incorrect latency for internode communication, lat=" +
+ std::to_string(latency));
+
+ auto* zone = new kernel::routing::TorusZone(name);
+ zone->set_topology(dimensions);
+ if (parent)
+ zone->set_parent(parent->get_impl());
+
+ zone->set_link_characteristics(bandwidth, latency, sharing_policy);
+
+ for (int i = 0; i < tot_elements; i++) {
+ kernel::routing::NetPoint* netpoint;
+ Link* limiter;
+ Link* loopback;
+ zone->fill_leaf_from_cb(i, dimensions, set_callbacks, &netpoint, &loopback, &limiter);
+
+ zone->create_links(netpoint->id(), i, zone->node_pos_with_loopback_limiter(netpoint->id()));
+ }
+
+ return zone->get_iface();
}
} // namespace s4u