Library prosa.behavior.service

From mathcomp Require Export ssreflect ssrnat ssrbool eqtype fintype bigop.
Require Export prosa.behavior.schedule.

Section Service.

Service of a Job

Consider any kind of jobs and any kind of processor state.
  Context {Job : JobType} {PState : Type}.
  Context `{ProcessorState Job PState}.

Consider any schedule.
  Variable sched : schedule PState.

First, we define whether a job j is scheduled at time t, ...
  Definition scheduled_at (j : Job) (t : instant) := scheduled_in j (sched t).

... and the instantaneous service received by job j at time t.
  Definition service_at (j : Job) (t : instant) := service_in j (sched t).

Based on the notion of instantaneous service, we define the cumulative service received by job j during any interval from t1 until (but not including) t2.
  Definition service_during (j : Job) (t1 t2 : instant) :=
    \sum_(t1 t < t2) service_at j t.

Using the previous definition, we define the cumulative service received by job j up to (but not including) time t.
  Definition service (j : Job) (t : instant) := service_during j 0 t.

Job Completion and Response Time

In the following, consider jobs that have a cost, a deadline, and an arbitrary arrival time.
  Context `{JobCost Job}.
  Context `{JobDeadline Job}.
  Context `{JobArrival Job}.

We say that job j has completed by time t if it received all required service in the interval from 0 until (but not including) t.
  Definition completed_by (j : Job) (t : instant) := service j t job_cost j.

We say that job j completes at time t if it has completed by time t but not by time t - 1.
  Definition completes_at (j : Job) (t : instant) := ~~ completed_by j t.-1 && completed_by j t.

We say that a constant R is a response time bound of a job j if j has completed by R units after its arrival.
  Definition job_response_time_bound (j : Job) (R : duration) :=
    completed_by j (job_arrival j + R).

We say that a job meets its deadline if it completes by its absolute deadline.
  Definition job_meets_deadline (j : Job) :=
    completed_by j (job_deadline j).

Pending or Incomplete Jobs

Job j is pending at time t iff it has arrived but has not yet completed.
  Definition pending (j : Job) (t : instant) := has_arrived j t && ~~ completed_by j t.

Job j is pending earlier and at time t iff it has arrived before time t and has not been completed yet.
  Definition pending_earlier_and_at (j : Job) (t : instant) :=
    arrived_before j t && ~~ completed_by j t.

Let's define the remaining cost of job j as the amount of service that has yet to be received for it to complete.
  Definition remaining_cost j t :=
    job_cost j - service j t.

End Service.