- - The SimDag API for the simulation of the scheduling of Directed Acyclic
- Graphs has been dropped. It was marked as deprecated for a couple of years.
- We finally complete the implementation of what has been called SimDag++
- internally, i.e., porting the different features of SimDag on top of S4U.
- The new way to simulate the execution of dependent activities directly by
- maestro (without any other actor) is details in the examples/cpp/dag-* series
- of examples.
- - The removal of SimDag led us to also remove the export to Jedule files that
- was tightly coupled to SimDag. The instrumentation of DAG simulation is still
- possible through the regular instrumentation API based on the Paje format.
-
+ - The SimDag API for the simulation of the scheduling of Directed Acyclic
+ Graphs has been dropped. It was marked as deprecated for a couple of years.
+ We finally complete the implementation of what has been called SimDag++
+ internally, i.e., porting the different features of SimDag on top of S4U.
+ The new way to simulate the execution of dependent activities directly by
+ maestro (without any other actor) is details in the examples/cpp/dag-* series
+ of examples.
+ - The removal of SimDag led us to also remove the export to Jedule files that
+ was tightly coupled to SimDag. The instrumentation of DAG simulation is still
+ possible through the regular instrumentation API based on the Paje format.
+ - We also dropped the old and clumsy Lua bindings to create platforms in a
+ programmatic way. It can be done in C++ in a much cleaner way now, which
+ motivates this suppression.
+