1.5 KiB
1.5 KiB
Electron: Scheduling Algorithms
To Do:
- Design changes -- Possible to have one scheduler with different scheduling schemes?
- Fix the race condition on 'tasksRunning' in proactiveclusterwidecappingfcfs.go and proactiveclusterwidecappingranked.go
- Separate the capping strategies from the scheduling algorithms and make it possible to use any capping strategy with any scheduler.
- Make newTask(...) variadic where the newTaskClass argument can either be given or not. If not give, then pick task.Watts as the watts attribute, else pick task.ClassToWatts[newTaskClass].
- Retrofit pcp/proactiveclusterwidecappers.go to include the power capping go routines and to cap only when necessary.
- Create a package that would contain routines to perform various logging and move helpers.coLocated(...) into that.
- Retrofit schedulers to be able to run either using ClassMapWatts enabled or disabled.
Scheduling Algorithms:
- First Fit
- First Fit with sorted watts
- Bin-packing with sorted watts
- ClassMapWatts -- Bin-packing and First Fit that now use Watts per power class.
- Top Heavy -- Hybrid scheduler that packs small tasks (less power intensive) using Bin-packing and spreads large tasks (power intensive) using First Fit.
- Bottom Heavy -- Hybrid scheduler that packs large tasks (power intensive) using Bin-packing and spreads small tasks (less power intensive) using First Fit.
Capping Strategies
- Extrema Dynamic Capping
- Proactive Cluster-wide Capping
- Piston Capping