...refine the handling of FrameRates close to the definition bounds
...implement the actual rule to scale allocator capacity on announcement
...hook up into the seedCalcStream() with a default of +25FPS
+ test coverage
While building increasingly complex integration tests for the Scheduler,
it turns out helpful to be able to manipulate the "full concurreency"
as used by Scheduler, WorkForce and LoadController.
In the current test, I am facing a problem that new entries from the
threadsafe entrance queue are not propagated to the priority queue
soon enough; partly this is due to functionality still to be added
(scaling up when new tasks are passed in) -- but this will further
complicate the test setup.
This is the first kind of integration,
albeit still with a synthetic load.
- placed two excessive load peaks in the scheduling timeline
- verified load behaviour
- verified timings
- verified that the scheduler shuts down automatically when done
- sample distance to scheduler head whenever a worker asks for work
- moving average with N = worker-pool size and damp-factor 2
- multiply with the current concurrency fraction
...especially for the case »outgoing to sleep«
- reorganise switch-case to avoid falling through
- properly handle the tendedNext() predicate also in boundrary cases
- structure the decision logic clearer
- cover the new behaviour in test
Remark: when the queue falls empty, the scheduler now sends each
worker once into a targted re-shuffling delay, to ensure the
sleep-cycles are statistically evenly spaced
...to make that abundantly clear: we do not aim at precision timing,
rather the goal is to redistribute capacity currently not usable...
Basically we're telling the worker "nothing to do right now, sorry,
but check back in <timespan> because I may need you then"
Workers asking for the next task are classified as belonging
to some fraction of the free capacity, based on the distance
to the closest next Activity known to the scheduler
- organise by principles rather than implementing a mechanism
- keep the first version simple yet flexible
- conduct empiric research under synthetic load
Basic scheme:
- tend for next
- classify free capacity
- scattered targeted wait
