std::vector<sg4::Host*> hosts_;
public:
- explicit Sender(const std::vector<sg4::Host*> hosts) : hosts_{hosts} {}
+ explicit Sender(const std::vector<sg4::Host*>& hosts) : hosts_{hosts} {}
void operator()() const
{
/* Vector in which we store all ongoing communications */
XBT_INFO("Done dispatching all messages");
/* Now that all message exchanges were initiated, wait for their completion in one single call */
- sg4::Comm::wait_all(&pending_comms);
+ sg4::Comm::wait_all(pending_comms);
XBT_INFO("Goodbye now!");
}
* CPU1 ... CPU8
*
* @param zone Cluster netzone being created (usefull to create the hosts/links inside it)
- * @param coord Coordinates in the torus (e.g. "0,0,0", "0,1,0")
+ * @param coord Coordinates in the cluster
* @param id Internal identifier in the torus (for information)
* @return netpoint, gateway: the netpoint to the StarZone and CPU0 as gateway
*/
/* the first CPU is the gateway */
if (i == 0)
gateway = host;
- /* create 2 links for a full-duplex communication */
- sg4::Link* link_up = host_zone->create_link("link-up-" + cpu_name, link_bw)->set_latency(link_lat)->seal();
- sg4::Link* link_down = host_zone->create_link("link-down-" + cpu_name, link_bw)->set_latency(link_lat)->seal();
- /* link UP, connection from CPU to outer world */
- host_zone->add_route(host->get_netpoint(), nullptr, nullptr, nullptr, {link_up}, false);
- /* link DOWN, connection from outer to CPU */
- host_zone->add_route(nullptr, host->get_netpoint(), nullptr, nullptr, {link_down}, false);
+ /* create split-duplex link */
+ sg4::SplitDuplexLink* link = host_zone->create_split_duplex_link("link-" + cpu_name, link_bw);
+ link->set_latency(link_lat)->seal();
+ /* connecting CPU to outer world */
+ host_zone->add_route(host->get_netpoint(), nullptr, nullptr, nullptr, {{link, sg4::LinkInRoute::Direction::UP}},
+ true);
}
+ /* seal newly created netzone */
+ host_zone->seal();
return std::make_pair(host_zone->get_netpoint(), gateway->get_netpoint());
}
/*************************************************************************************************/
/**
* @brief Callback to create limiter link (1Gbs) for each netpoint
+ *
+ * The coord parameter depends on the cluster being created:
+ * - Torus: Direct translation of the Torus' dimensions, e.g. (0, 0, 0) for a 3-D Torus
+ * - Fat-Tree: A pair (level in the tree, id), e.g. (0, 0) for first leaf in the tree and (1,0) for the first switch at
+ * level 1.
+ * - Dragonfly: a tuple (group, chassis, blades/routers, nodes), e.g. (0, 0, 0, 0) for first node in the cluster. To
+ * identify the router inside a (group, chassis, blade), we use MAX_UINT in the last parameter (e.g. 0, 0, 0,
+ * 4294967295).
+ *
* @param zone Torus netzone being created (usefull to create the hosts/links inside it)
- * @param coord Coordinates in the torus (e.g. "0,0,0", "0,1,0")
+ * @param coord Coordinates in the cluster
* @param id Internal identifier in the torus (for information)
* @return Limiter link
*/
* B-----+----C (X-axis=2)
*
* For example, a communication from A to C goes through:
- * <tt> A->limiter(A)->link(A-B)->limiter(B)->link(B-C)->C </tt>
+ * <tt> A->limiter(A)->link(A-B)->limiter(B)->link(B-C)->limiter(C)->C </tt>
*
* More precisely, considering that A and C are StarZones, a
* communication from A-CPU-3 to C-CPU-7 goes through:
* 1) StarZone A: A-CPU-3 -> link-up-A-CPU-3 -> A-CPU-0
- * 2) A-CPU-0->limiter(A)->link(A-B)->limiter(B)->link(B-C)->C-CPU-0
+ * 2) A-CPU-0->limiter(A)->link(A-B)->limiter(B)->link(B-C)->limiter(C)->C-CPU-0
* 3) StarZone C: C-CPU-0-> link-down-C-CPU-7 -> C-CPU-7
*
* Note that we don't have limiter links inside the StarZones(A, B, C),
- * but we have limiters in the Torus that are added to the links in the path (as we can see in "2)"")
+ * but we have limiters in the Torus that are added to the links in the path (as we can see in "2)")
*
* More details in: <a href="https://simgrid.org/doc/latest/Platform_examples.html?highlight=torus#torus-cluster">Torus
* Cluster</a>
*
* Creates a Fat-Tree cluster with 2 levels and 6 nodes
* The following parameters are used to create this cluster:
- * - Levels: 2 - two-level cluster
- * - Down links: 2, 3 - L1 routers is connected to 2 elements, L2 routers to 3 elements
- * - Up links: 1, 2 - Each node (A-F) is connected to 1 L2 router, L2 routers are connected to 2 L1
+ * - Levels: 2 - two-level of switches in the cluster
+ * - Down links: 2, 3 - L2 routers is connected to 2 elements, L1 routers to 3 elements
+ * - Up links: 1, 2 - Each node (A-F) is connected to 1 L1 router, L1 routers are connected to 2 L2
* - Link count: 1, 1 - Use 1 link in each level
*
* The first parameter describes how many levels we have.
* The following ones describe the connection between the elements and must have exactly n_levels components.
*
*
- * S3 S4 <-- Level 1 routers
- * / \ / \
- * / /\ \
- * link: 10GBps --> | / \ |
- * (full-duplex) | / \ |
- * S1 S2 <-- Level 2 routers
- * link:10GBps --> / | \ / | \
+ * S3 S4 <-- Level 2 routers
+ * link:limiter - / \ / \
+ * + ++ +
+ * link: 10GBps --> | / \ |
+ * (full-duplex) | / \ |
+ * + + + +
+ * | / \ |
+ * S1 S2 <-- Level 1 routers
+ * link:limiter -> | |
+ * + +
+ * link:10GBps --> /|\ /|\
+ * / | \ / | \
* + + + + + +
* link:limiter -> / | \ / | \
- * A B C D E F <-- Nodes
+ * A B C D E F <-- level 0 Nodes
*
* Each element (A to F) is a StarZone containing 8 Hosts.
* The connection uses 2 links:
* 2) link: 10Gbs link connecting the components (created automatically)
*
* For example, a communication from A to C goes through:
- * <tt> A->limiter(A)->link(A-S1)->link(S1-C)->->limiter(C)->C</tt>
+ * <tt> A->limiter(A)->link(A-S1)->limiter(S1)->link(S1-C)->->limiter(C)->C</tt>
*
* More precisely, considering that A and C are StarZones, a
* communication from A-CPU-3 to C-CPU-7 goes through:
* 1) StarZone A: A-CPU-3 -> link-up-A-CPU-3 -> A-CPU-0
- * 2) A-CPU-0->limiter(A)->link(A-S1)->link(S1-C)->limiter(C)->C-CPU-0
+ * 2) A-CPU-0->limiter(A)->link(A-S1)->limiter(S1)->link(S1-C)->limiter(C)->C-CPU-0
* 3) StarZone C: C-CPU-0-> link-down-C-CPU-7 -> C-CPU-7
*
- * Note that limiters are only valid for leaves, not routers.
- *
* More details in: <a href="https://simgrid.org/doc/latest/Platform_examples.html#fat-tree-cluster">Fat-Tree
* Cluster</a>
*/
* Group 1
*
* Each element (A, B, C, etc) is a StarZone containing 8 Hosts.
- * The connection between nodes and routers (e.g. A->R1) uses 2 links:
+ * The connection between elements (e.g. A->R1) uses 2 links:
* 1) limiter: a 1Gbs limiter link (set by user through the set_limiter callback)
* 2) link: 10Gbs link connecting the components (created automatically)
*
* For example, a communication from A to C goes through:
- * <tt> A->limiter(A)->link(A-R1)->link(R1-R2)->limiter(C)->C</tt>
- *
- * Note that limiters are only valid for leaves, not routers.
+ * <tt> A->limiter(A)->link(A-R1)->limiter(R1)->link(R1-R2)->limiter(R2)->link(R2-C)limiter(C)->C</tt>
*
* More details in: <a href="https://simgrid.org/doc/latest/Platform_examples.html#dragonfly-cluster">Dragonfly
* Cluster</a>
