1 S4U (Simgrid for you) is the next interface of SimGrid, expected to be released with SimGrid 4.0.
3 Even if it is not completely rock stable yet, it may well already fit
4 your needs. You are welcome to try it and report any interface
5 glitches that you see. Be however warned that the interface may change
6 until its final release. You will have to adapt your code on the way.
8 This file follows the Doxygen syntax to be included in the
9 documentation, but it should remain readable directly.
12 @defgroup s4u_examples S4U examples
14 @brief Find the S4U example fitting your needs in the archive.
22 @section s4u_ex_basics Basics of SimGrid simulation
24 - <b>Creating actors:</b> @ref examples/s4u/actor-create/s4u-actor-create.cpp and
25 @ref examples/s4u/actor-create/s4u-actor-create_d.xml \n
26 Shows how to start your actors to populate your simulation.
28 - <b>Ping Pong</b>: @ref examples/s4u/app-pingpong/s4u-app-pingpong.c\n
29 This simple example just sends one message back and forth.
30 The tesh file laying in the directory show how to start the simulator binary, highlighting how to pass options to
31 the simulators (as detailed in Section \ref options).
33 - <b>Token ring:</b> @ref examples/s4u/app-token-ring/s4u-app-token-ring.cpp \n
34 Shows how to implement a classical communication pattern, where a token is exchanged along a ring to reach every
37 - <b>Master Workers:</b> @ref examples/s4u/app-masterworker/s4u-app-masterworker.cpp \n
38 Another good old example, where one Master process has a bunch of task to dispatch to a set of several Worker
41 @section s4u_ex_async Asynchronous communications
43 - <b>Basic asynchronous communications</b>.
44 @ref examples/s4u/async-wait/s4u-async-wait.cpp \n
45 Illustrates how to have non-blocking communications, that are
46 communications running in the background leaving the process free
47 to do something else during their completion. The main functions
48 involved are @ref simgrid::s4u::Comm::put_async and
49 @ref simgrid::s4u::Comm::wait().
51 - <b>Waiting for all communications in a set</b>.
52 @ref examples/s4u/async-waitall/s4u-async-waitall.cpp\n
53 The @ref simgrid::s4u::Comm::wait_all() function is useful when you want to block
54 until all activities in a given set have completed.
56 - <b>Waiting for the first completed communication in a set</b>.
57 @ref examples/s4u/async-waitany/s4u-async-waitany.cpp\n
58 The @ref simgrid::s4u::Comm::wait_any() function is useful when you want to block
59 until one activity of the set completes, no matter which terminates
62 @section s4u_ex_actors Acting on Actors
64 - <b>Creating actors</b>.
65 @ref examples/s4u/actor-create/s4u-actor-create.cpp \n
66 Most actors are started from the deployment XML file, but they exist other methods.
68 - <b>Actors using CPU time</b>.
69 @ref examples/s4u/actor-execute/s4u-actor-execute.cpp \n
70 The computations done in your program are not reported to the
71 simulated world, unless you explicitely request the simulator to pause
72 the actor until a given amount of flops gets computed on its simulated
75 - <b>Daemonize actors</b>
76 @ref examples/s4u/actor-daemon/s4u-actor-daemon.cpp \n
77 Some actors may be intended to simulate daemons that run in background. This example show how to transform a regular
78 actor into a daemon that will be automatically killed once the simulation is over.
80 - <b>Suspend and Resume actors</b>.
81 @ref examples/s4u/actor-suspend/s4u-actor-suspend.cpp \n
82 Actors can be suspended and resumed during their executions
83 thanks to the @ref suspend and @ref resume methods.
85 - <b>Priority actors</b>.
86 @ref examples/s4u/actor-priority/s4u-actor-priority.cpp \n
87 Actors can be launched according their priorities thanks to the @ref
91 @ref examples/s4u/actor-kill/s4u-actor-kill.cpp \n
92 Actors can forcefully stop other actors with the @ref kill method.
94 - <b>Controling the actor life cycle from the XML</b>.
95 @ref examples/s4u/actor-lifetime/s4u-actor-lifetime.cpp
96 @ref examples/s4u/actor-lifetime/s4u-actor-lifetime_d.xml
98 You can specify a start time and a kill time in the deployment file.
100 - <b>Migrating Actors</b>.
101 @ref examples/s4u/actor-migration/s4u-actor-migration.cpp \n
102 Actors can move or be moved from a host to another with the @ref migrate method.
104 @section s4u_ex_synchro Inter-Actor Synchronization
106 - <b>Mutex: </b> @ref examples/s4u/mutex/s4u-mutex.cpp \n
107 Shows how to use simgrid::s4u::Mutex synchronization objects.
109 @section s4u_ex_actions Following Workload Traces
111 This section details how to run trace-driven simulations. It is very
112 handy when you want to test an algorithm or protocol that only react
113 to external events. For example, many P2P protocols react to user
114 requests, but do nothing if there is no such event.
116 In such situations, you should write your protocol in C++, and separate
117 the workload that you want to play onto your protocol in a separate
118 text file. Declare a function handling each type of the events in your
119 trace, register them using @ref xbt_replay_action_register in your
120 main, and then run the simulation.
122 Then, you can either have one trace file containing all your events,
123 or a file per simulated process: the former may be easier to work
124 with, but the second is more efficient on very large traces. Check
125 also the tesh files in the example directories for details.
127 - <b>Communication replay</b>.
128 @ref examples/s4u/actions-comm/s4u-actions-comm.cpp \n
129 Presents a set of event handlers reproducing classical communication
130 primitives (asynchronous send/receive at the moment).
133 @ref examples/s4u/actions-storage/s4u-actions-storage.cpp \n
134 Presents a set of event handlers reproducing classical I/O
135 primitives (open, read, close).
140 @example examples/s4u/actions-comm/s4u-actions-comm.cpp
141 @example examples/s4u/actions-storage/s4u-actions-storage.cpp
142 @example examples/s4u/actor-create/s4u-actor-create.cpp
143 @example examples/s4u/actor-create/s4u-actor-create_d.xml
144 @example examples/s4u/actor-daemon/s4u-actor-daemon.cpp
145 @example examples/s4u/actor-execute/s4u-actor-execute.cpp
146 @example examples/s4u/actor-kill/s4u-actor-kill.cpp
147 @example examples/s4u/actor-lifetime/s4u-actor-lifetime.cpp
148 @example examples/s4u/actor-lifetime/s4u-actor-lifetime_d.xml
149 @example examples/s4u/actor-migration/s4u-actor-migration.cpp
150 @example examples/s4u/actor-suspend/s4u-actor-suspend.cpp
151 @example examples/s4u/app-token-ring/s4u-app-token-ring.cpp
152 @example examples/s4u/app-masterworker/s4u-app-masterworker.cpp
153 @example examples/s4u/app-pingpong/s4u-app-pingpong.cpp
155 @example examples/s4u/mutex/s4u-mutex.cpp