Comm::set_payload_size() to change the size of the simulated data.
- New function: Engine::flatify_platform(), to get a fully detailed vision of the
configured platform.
+ - New Task abstraction: They are designed to represent dataflows, i.e, graphs of repeatable Activities.
+ See the examples under examples/cpp/task-* and the associated documentation.
- Full simDAG integration: Activity::start() actually starts only when all dependencies
are fullfiled. If it cannot be started right away, it will start as soon as it becomes
possible.
- Allow to set a concurrency limit on disks and hosts, as it was already the case for links.
- Rename Link::get_usage() to Link::get_load() for consistency with Host::
- Every signal now come with a static version that is invoked for every object of that class,
- and an instance version that is invoked for this specific object only. For example,
+ and an instance version that is invoked for this specific object only. For example,
s4u::Actor::on_suspend_cb() adds a callback that is invoked for the suspend of any actor while
s4u::Actor::on_this_suspend_cb() adds a callback for this specific actor only.
- Activity::on_suspended_cb() is renamed to Activity::on_suspend_cb(), and fired right before the suspend.
That is, callbacks registered in Exec::on_suspend_cb will not be fired for Comms nor Ios.
New S4U plugins:
- - Task: They are designed to represent dataflows, i.e, graphs of repeatable Activities.
- See the examples under examples/cpp/task-* and the documentation in the Plugins page.
- Battery: Enable the management of batteries on hosts.
See the examples under examples/cpp/battery-* and the documentation in the Plugins page.
- Photovoltaic: Enable the management of photovoltaic panels on hosts.