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Require Import prosa.model.readiness.basic.Notation "[ rel _ _ | _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ : _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ | _ ]" was already used
in scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "_ + _" was already used in scope nat_scope.
[notation-overridden,parsing]Notation "_ - _" was already used in scope nat_scope.
[notation-overridden,parsing]Notation "_ <= _" was already used in scope nat_scope.
[notation-overridden,parsing]Notation "_ < _" was already used in scope nat_scope.
[notation-overridden,parsing]Notation "_ >= _" was already used in scope nat_scope.
[notation-overridden,parsing]Notation "_ > _" was already used in scope nat_scope.
[notation-overridden,parsing]Notation "_ <= _ <= _" was already used in scope
nat_scope. [notation-overridden,parsing]Notation "_ < _ <= _" was already used in scope
nat_scope. [notation-overridden,parsing]Notation "_ <= _ < _" was already used in scope
nat_scope. [notation-overridden,parsing]Notation "_ < _ < _" was already used in scope
nat_scope. [notation-overridden,parsing]Notation "_ * _" was already used in scope nat_scope.
[notation-overridden,parsing]
Require Export prosa.analysis.facts.transform.edf_opt.Notation "[ rel _ _ | _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ : _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ | _ ]" was already used
in scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ | _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ : _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ | _ ]" was already used
in scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]
Require Export prosa.analysis.facts.transform.wc_correctness.Notation "[ rel _ _ | _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ : _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ | _ ]" was already used
in scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ | _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ : _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ | _ ]" was already used
in scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]
Require Export prosa.analysis.facts.behavior.deadlines.Notation "[ rel _ _ | _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ : _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ | _ ]" was already used
in scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ | _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ : _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ | _ ]" was already used
in scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]
Require Export prosa.analysis.facts.readiness.backlogged.Notation "[ rel _ _ | _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ : _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ | _ ]" was already used
in scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ | _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ : _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ | _ ]" was already used
in scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ & _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ | _ ]" was already used in
scope fun_scope. [notation-overridden,parsing]Notation "[ rel _ _ in _ ]" was already used in scope
fun_scope. [notation-overridden,parsing]
(** * Optimality of Work-Conserving EDF on Ideal Uniprocessors *)
(** In this file, we establish the foundation needed to connect the EDF and
work-conservation optimality theorems: if there is any work-conserving way
to meet all deadlines (assuming an ideal uniprocessor schedule), then there
is also an (ideal) EDF schedule that is work-conserving in which all
deadlines are met. *)
(** ** Non-Idle Swaps *)
(** We start by showing that [swapped], a function used in the inner-most level
of [edf_transform], maintains work conservation if the two instants being
swapped are not idle. *)
Section NonIdleSwapWorkConservationLemmas .
(** We assume the classic (i.e., Liu & Layland) model of readiness
without jitter or self-suspensions, wherein pending jobs are
always ready. *)
#[local] Existing Instance basic_ready_instance .
(** For any given type of jobs... *)
Context {Job : JobType} `{JobCost Job} `{JobDeadline Job} `{JobArrival Job}.
(** ... and any valid job arrival sequence. *)
Variable arr_seq : arrival_sequence Job.
Hypothesis H_arr_seq_valid : valid_arrival_sequence arr_seq.
(** ...consider an ideal uniprocessor schedule... *)
Variable sched : schedule (ideal.processor_state Job).
(** ...that is well-behaved (i.e., in which jobs execute only after having
arrived and only if they are not yet complete, and in which all jobs come
from the arrival sequence). *)
Hypothesis H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute sched.
Hypothesis H_completed_jobs_dont_execute : completed_jobs_dont_execute sched.
Hypothesis H_from_arr_seq : jobs_come_from_arrival_sequence sched arr_seq.
(** Suppose we are given two specific times [t1] and [t2],... *)
Variables t1 t2 : instant.
(** ...which we assume to be ordered (to avoid dealing with symmetric cases),... *)
Hypothesis H_well_ordered : t1 <= t2.
(** ...and two jobs [j1] and [j2]... *)
Variables j1 j2 : Job.
(** ...such that [j2] arrives before time [t1],... *)
Hypothesis H_arrival_j2 : job_arrival j2 <= t1.
(** ...[j1] is scheduled at time [t1], and... *)
Hypothesis H_t1_not_idle : scheduled_at sched j1 t1.
(** ...[j2] is scheduled at time [t2]. *)
Hypothesis H_t2_not_idle : scheduled_at sched j2 t2.
(** We let [swap_sched] denote the schedule in which the allocations at
[t1] and [t2] have been swapped. *)
Let swap_sched := swapped sched t1 t2.
(** Now consider an arbitrary job [j]... *)
Variable j : Job.
(** ...and an arbitrary instant [t]... *)
Variable t : instant.
(** ...such that [j] arrives in [arr_seq]... *)
Hypothesis H_arrival_j : arrives_in arr_seq j.
(** ...and is backlogged in [swap_sched] at instant [t]. *)
Hypothesis H_backlogged_j_t : backlogged swap_sched j t.
(** We proceed by case analysis. We first show that, if [t] equals [t1], then
[swap_sched] maintains work conservation. That is, there exists some job
that's scheduled in [swap_sched] at instant [t] *)
Lemma non_idle_swap_maintains_work_conservation_t1 :
work_conserving arr_seq sched ->
t = t1 ->
exists j_other , scheduled_at swap_sched j_other t.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t
work_conserving arr_seq sched ->
t = t1 ->
exists j_other : Job,
scheduled_at swap_sched j_other t
Proof .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t
work_conserving arr_seq sched ->
t = t1 ->
exists j_other : Job,
scheduled_at swap_sched j_other t
move => _ EQ; rewrite EQ; by exists j2 ; rewrite swap_job_scheduled_t1.
Qed .
(** Similarly, if [t] equals [t2] then then [swap_sched] maintains work conservation. *)
Lemma non_idle_swap_maintains_work_conservation_t2 :
work_conserving arr_seq sched ->
t = t2 ->
exists j_other , scheduled_at swap_sched j_other t.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t
work_conserving arr_seq sched ->
t = t2 ->
exists j_other : Job,
scheduled_at swap_sched j_other t
Proof .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t
work_conserving arr_seq sched ->
t = t2 ->
exists j_other : Job,
scheduled_at swap_sched j_other t
move => _ EQ; rewrite EQ; by exists j1 ; rewrite swap_job_scheduled_t2.
Qed .
(** If [t] is less than or equal to [t1] then then then [swap_sched] maintains work conservation. *)
Lemma non_idle_swap_maintains_work_conservation_LEQ_t1 :
work_conserving arr_seq sched ->
t <= t1 ->
exists j_other , scheduled_at swap_sched j_other t.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t
work_conserving arr_seq sched ->
t <= t1 ->
exists j_other : Job,
scheduled_at swap_sched j_other t
Proof .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t
work_conserving arr_seq sched ->
t <= t1 ->
exists j_other : Job,
scheduled_at swap_sched j_other t
move => WC_sched LEQ.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched LEQ : t <= t1
exists j_other : Job,
scheduled_at swap_sched j_other t
case : (boolP(t == t1)) => [/eqP EQ| /eqP NEQ]; first by apply non_idle_swap_maintains_work_conservation_t1.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched LEQ : t <= t1 NEQ : t <> t1
exists j_other : Job,
scheduled_at swap_sched j_other t
case : (boolP(t == t2)) => [/eqP EQ'| /eqP NEQ']; first by apply non_idle_swap_maintains_work_conservation_t2.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched LEQ : t <= t1 NEQ : t <> t1 NEQ' : t <> t2
exists j_other : Job,
scheduled_at swap_sched j_other t
have [j_other j_other_scheduled] : exists j_other , scheduled_at sched j_other t.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched LEQ : t <= t1 NEQ : t <> t1 NEQ' : t <> t2
exists j_other : Job, scheduled_at sched j_other t
{ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched LEQ : t <= t1 NEQ : t <> t1 NEQ' : t <> t2
exists j_other : Job, scheduled_at sched j_other t
rewrite /work_conserving in WC_sched.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t LEQ : t <= t1 NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
exists j_other : Job, scheduled_at sched j_other t
apply (WC_sched j) => //; move :H_backlogged_j_t.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t LEQ : t <= t1 NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
backlogged swap_sched j t -> backlogged sched j t
rewrite /backlogged/job_ready/basic_ready_instance/pending/completed_by.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t LEQ : t <= t1 NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
has_arrived j t &&
~~ (job_cost j <= service swap_sched j t) &&
~~ scheduled_at swap_sched j t ->
has_arrived j t &&
~~ (job_cost j <= service sched j t) &&
~~ scheduled_at sched j t
move /andP => [ARR_INCOMP scheduled]; move :ARR_INCOMP; move /andP => [arrive not_comp].Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t LEQ : t <= t1 NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other tscheduled : ~~ scheduled_at swap_sched j t arrive : has_arrived j t not_comp : ~~ (job_cost j <= service swap_sched j t)
has_arrived j t &&
~~ (job_cost j <= service sched j t) &&
~~ scheduled_at sched j t
apply /andP; split ; first (apply /andP; split ) => //.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t LEQ : t <= t1 NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other tscheduled : ~~ scheduled_at swap_sched j t arrive : has_arrived j t not_comp : ~~ (job_cost j <= service swap_sched j t)
~~ (job_cost j <= service sched j t)
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t LEQ : t <= t1 NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other tscheduled : ~~ scheduled_at swap_sched j t arrive : has_arrived j t not_comp : ~~ (job_cost j <= service swap_sched j t)
~~ (job_cost j <= service sched j t)
by rewrite (service_before_swap_invariant sched t1 t2 _ t).Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t LEQ : t <= t1 NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other tscheduled : ~~ scheduled_at swap_sched j t arrive : has_arrived j t not_comp : ~~ (job_cost j <= service swap_sched j t)
~~ scheduled_at sched j t
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t LEQ : t <= t1 NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other tscheduled : ~~ scheduled_at swap_sched j t arrive : has_arrived j t not_comp : ~~ (job_cost j <= service swap_sched j t)
~~ scheduled_at sched j t
by rewrite -(swap_job_scheduled_other_times _ t1 t2 j t) //; (apply /neqP; eauto ).
} Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched LEQ : t <= t1 NEQ : t <> t1 NEQ' : t <> t2 j_other : Job j_other_scheduled : scheduled_at sched j_other t
exists j_other : Job,
scheduled_at swap_sched j_other t
exists j_other ; by rewrite (swap_job_scheduled_other_times) //; do 2 ! (apply /neqP; eauto ).
Qed .
(** Similarly, if [t] is greater than [t2] then then then [swap_sched] maintains work conservation. *)
Lemma non_idle_swap_maintains_work_conservation_GT_t2 :
work_conserving arr_seq sched ->
t2 < t ->
exists j_other , scheduled_at swap_sched j_other t.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t
work_conserving arr_seq sched ->
t2 < t ->
exists j_other : Job,
scheduled_at swap_sched j_other t
Proof .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t
work_conserving arr_seq sched ->
t2 < t ->
exists j_other : Job,
scheduled_at swap_sched j_other t
move => WC_sched GT.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched GT : t2 < t
exists j_other : Job,
scheduled_at swap_sched j_other t
case : (boolP(t == t1)) => [/eqP EQ| /eqP NEQ]; first by apply non_idle_swap_maintains_work_conservation_t1.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched GT : t2 < t NEQ : t <> t1
exists j_other : Job,
scheduled_at swap_sched j_other t
case : (boolP(t == t2)) => [/eqP EQ'| /eqP NEQ']; first by apply non_idle_swap_maintains_work_conservation_t2.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched GT : t2 < t NEQ : t <> t1 NEQ' : t <> t2
exists j_other : Job,
scheduled_at swap_sched j_other t
have [j_other j_other_scheduled] : exists j_other , scheduled_at sched j_other t.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched GT : t2 < t NEQ : t <> t1 NEQ' : t <> t2
exists j_other : Job, scheduled_at sched j_other t
{ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched GT : t2 < t NEQ : t <> t1 NEQ' : t <> t2
exists j_other : Job, scheduled_at sched j_other t
rewrite /work_conserving in WC_sched.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t GT : t2 < t NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
exists j_other : Job, scheduled_at sched j_other t
apply (WC_sched j) => //; move :H_backlogged_j_t.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t GT : t2 < t NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
backlogged swap_sched j t -> backlogged sched j t
rewrite /backlogged/job_ready/basic_ready_instance/pending/completed_by.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t GT : t2 < t NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
has_arrived j t &&
~~ (job_cost j <= service swap_sched j t) &&
~~ scheduled_at swap_sched j t ->
has_arrived j t &&
~~ (job_cost j <= service sched j t) &&
~~ scheduled_at sched j t
move /andP => [ARR_INCOMP scheduled]; move :ARR_INCOMP; move /andP => [arrive not_comp].Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t GT : t2 < t NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other tscheduled : ~~ scheduled_at swap_sched j t arrive : has_arrived j t not_comp : ~~ (job_cost j <= service swap_sched j t)
has_arrived j t &&
~~ (job_cost j <= service sched j t) &&
~~ scheduled_at sched j t
apply /andP; split ; first (apply /andP; split ) => //.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t GT : t2 < t NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other tscheduled : ~~ scheduled_at swap_sched j t arrive : has_arrived j t not_comp : ~~ (job_cost j <= service swap_sched j t)
~~ (job_cost j <= service sched j t)
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t GT : t2 < t NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other tscheduled : ~~ scheduled_at swap_sched j t arrive : has_arrived j t not_comp : ~~ (job_cost j <= service swap_sched j t)
~~ (job_cost j <= service sched j t)
by rewrite (service_after_swap_invariant sched t1 t2 _ t) // /t2; apply fsc_range1.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t GT : t2 < t NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other tscheduled : ~~ scheduled_at swap_sched j t arrive : has_arrived j t not_comp : ~~ (job_cost j <= service swap_sched j t)
~~ scheduled_at sched j t
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t GT : t2 < t NEQ : t <> t1 NEQ' : t <> t2 WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other tscheduled : ~~ scheduled_at swap_sched j t arrive : has_arrived j t not_comp : ~~ (job_cost j <= service swap_sched j t)
~~ scheduled_at sched j t
by rewrite -(swap_job_scheduled_other_times _ t1 t2 j t) //; (apply /neqP; eauto ).
} Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched GT : t2 < t NEQ : t <> t1 NEQ' : t <> t2 j_other : Job j_other_scheduled : scheduled_at sched j_other t
exists j_other : Job,
scheduled_at swap_sched j_other t
exists j_other ; by rewrite (swap_job_scheduled_other_times) //; do 2 ! (apply /neqP; eauto ).
Qed .
(** Lastly, we show that if [t] lies between [t1] and [t2] then work conservation is still maintained. *)
Lemma non_idle_swap_maintains_work_conservation_BET_t1_t2 :
work_conserving arr_seq sched ->
t1 < t <= t2 ->
exists j_other , scheduled_at swap_sched j_other t.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t
work_conserving arr_seq sched ->
t1 < t <= t2 ->
exists j_other : Job,
scheduled_at swap_sched j_other t
Proof .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t
work_conserving arr_seq sched ->
t1 < t <= t2 ->
exists j_other : Job,
scheduled_at swap_sched j_other t
move => WC_sched H_range.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched H_range : t1 < t <= t2
exists j_other : Job,
scheduled_at swap_sched j_other t
case : (boolP(t == t1)) => [/eqP EQ| /eqP NEQ]; first by apply non_idle_swap_maintains_work_conservation_t1.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched H_range : t1 < t <= t2 NEQ : t <> t1
exists j_other : Job,
scheduled_at swap_sched j_other t
case : (boolP(t == t2)) => [/eqP EQ'| /eqP NEQ']; first by apply non_idle_swap_maintains_work_conservation_t2.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched H_range : t1 < t <= t2 NEQ : t <> t1 NEQ' : t <> t2
exists j_other : Job,
scheduled_at swap_sched j_other t
move : H_range.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched NEQ : t <> t1 NEQ' : t <> t2
t1 < t <= t2 ->
exists j_other : Job,
scheduled_at swap_sched j_other t
move /andP => [LT GE].Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2
exists j_other : Job,
scheduled_at swap_sched j_other t
case : (boolP(scheduled_at sched j2 t)) => Hj'.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : scheduled_at sched j2 t
exists j_other : Job,
scheduled_at swap_sched j_other t
- Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : scheduled_at sched j2 t
exists j_other : Job,
scheduled_at swap_sched j_other t
exists j2 ; by rewrite (swap_job_scheduled_other_times _ t1 t2 j2 t) //; (apply /neqP; eauto ).Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t
exists j_other : Job,
scheduled_at swap_sched j_other t
- Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t
exists j_other : Job,
scheduled_at swap_sched j_other t
have [j_other j_other_scheduled] : exists j_other , scheduled_at sched j_other t.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t
exists j_other : Job, scheduled_at sched j_other t
{ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t
exists j_other : Job, scheduled_at sched j_other t
rewrite /work_conserving in WC_sched.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
exists j_other : Job, scheduled_at sched j_other t
apply (WC_sched j2).Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
arrives_in arr_seq j2
- Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
arrives_in arr_seq j2
by unfold jobs_come_from_arrival_sequence in H_from_arr_seq; apply (H_from_arr_seq _ t2) => //.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
backlogged sched j2 t
- Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
backlogged sched j2 t
rewrite /backlogged/job_ready/basic_ready_instance/pending/completed_by.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
has_arrived j2 t &&
~~ (job_cost j2 <= service sched j2 t) &&
~~ scheduled_at sched j2 t
apply /andP; split ; first (apply /andP; split ) => //; last by done .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
has_arrived j2 t
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
has_arrived j2 t
by rewrite /has_arrived; apply (leq_trans H_arrival_j2); apply ltnW.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
~~ (job_cost j2 <= service sched j2 t)
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
~~ (job_cost j2 <= service sched j2 t)
rewrite -ltnNge.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
service sched j2 t < job_cost j2
apply (leq_ltn_trans) with (service sched j2 t2).Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
service sched j2 t <= service sched j2 t2
* Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
service sched j2 t <= service sched j2 t2
by apply service_monotonic.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
service sched j2 t2 < job_cost j2
* Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t WC_sched : forall (j : Job) (t : instant),
arrives_in arr_seq j ->
backlogged sched j t ->
exists j_other : Job,
scheduled_at sched j_other t
service sched j2 t2 < job_cost j2
by apply H_completed_jobs_dont_execute. } Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t j_other : Job j_other_scheduled : scheduled_at sched j_other t
exists j_other : Job,
scheduled_at swap_sched j_other t
exists j_other .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq t1, t2 : instant H_well_ordered : t1 <= t2 j1, j2 : Job H_arrival_j2 : job_arrival j2 <= t1 H_t1_not_idle : scheduled_at sched j1 t1 H_t2_not_idle : scheduled_at sched j2 t2 swap_sched := swapped sched t1 t2 : schedule (processor_state Job) j : Job t : instant H_arrival_j : arrives_in arr_seq j H_backlogged_j_t : backlogged swap_sched j t WC_sched : work_conserving arr_seq sched NEQ : t <> t1 NEQ' : t <> t2 LT : t1 < t GE : t <= t2 Hj' : ~~ scheduled_at sched j2 t j_other : Job j_other_scheduled : scheduled_at sched j_other t
scheduled_at swap_sched j_other t
now rewrite (swap_job_scheduled_other_times) //; (apply /neqP; eauto ).
Qed .
End NonIdleSwapWorkConservationLemmas .
(** ** Work-Conserving Swap Candidates *)
(** Now, we show that work conservation is maintained by the inner-most level
of [edf_transform], which is [find_swap_candidate]. *)
Section FSCWorkConservationLemmas .
(** We assume the classic (i.e., Liu & Layland) model of readiness
without jitter or self-suspensions, wherein pending jobs are
always ready. *)
#[local] Existing Instance basic_ready_instance .
(** For any given type of jobs... *)
Context {Job : JobType} `{JobCost Job} `{JobDeadline Job} `{JobArrival Job}.
(** ...and any valid job arrival sequence,... *)
Variable arr_seq : arrival_sequence Job.
Hypothesis H_arr_seq_valid : valid_arrival_sequence arr_seq.
(** ...consider an ideal uniprocessor schedule... *)
Variable sched : schedule (ideal.processor_state Job).
(** ...that is well-behaved (i.e., in which jobs execute only after having
arrived and only if they are not yet complete)... *)
Hypothesis H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute sched.
Hypothesis H_completed_jobs_dont_execute : completed_jobs_dont_execute sched.
(** ...and in which all jobs come from the arrival sequence. *)
Hypothesis H_from_arr_seq : jobs_come_from_arrival_sequence sched arr_seq.
(** Suppose we are given a job [j1]... *)
Variable j1 : Job.
(** ...and a point in time [t1]... *)
Variable t1 : instant.
(** ...at which [j1] is scheduled... *)
Hypothesis H_not_idle : scheduled_at sched j1 t1.
(** ...and that is before [j1]'s deadline. *)
Hypothesis H_deadline_not_missed : t1 < job_deadline j1.
(** We now show that, if [t2] is a swap candidate returned by
[find_swap_candidate] for [t1], then swapping the processor allocations at
the two instants maintains work conservation. *)
Corollary fsc_swap_maintains_work_conservation :
work_conserving arr_seq sched ->
work_conserving arr_seq (swapped sched t1 (edf_trans.find_swap_candidate sched t1 j1)).Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1
work_conserving arr_seq sched ->
work_conserving arr_seq
(swapped sched t1
(edf_trans.find_swap_candidate sched t1 j1))
Proof .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1
work_conserving arr_seq sched ->
work_conserving arr_seq
(swapped sched t1
(edf_trans.find_swap_candidate sched t1 j1))
set t2 := edf_trans.find_swap_candidate sched t1 j1.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat
work_conserving arr_seq sched ->
work_conserving arr_seq (swapped sched t1 t2)
have [j2 [t2_not_idle t2_arrival]] : exists j2 , scheduled_at sched j2 t2 /\ job_arrival j2 <= t1
by apply fsc_not_idle.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1
work_conserving arr_seq sched ->
work_conserving arr_seq (swapped sched t1 t2)
have H_range : t1 <= t2 by apply fsc_range1.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2
work_conserving arr_seq sched ->
work_conserving arr_seq (swapped sched t1 t2)
move => WC_sched j t ARR BL.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
case : (boolP(t == t1)) => [/eqP EQ| /eqP NEQ].Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t EQ : t = t1
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
- Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t EQ : t = t1
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
by apply (non_idle_swap_maintains_work_conservation_t1 arr_seq _ _ _ j2).Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
- Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
case : (boolP(t == t2)) => [/eqP EQ'| /eqP NEQ'].Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 EQ' : t = t2
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 EQ' : t = t2
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
by apply (non_idle_swap_maintains_work_conservation_t2 arr_seq _ _ _ j1).Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
case : (boolP((t <= t1) || (t2 < t))) => [NOT_BET | BET]. (* t <> t2 *) Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2 NOT_BET : (t <= t1) || (t2 < t)
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
* Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2 NOT_BET : (t <= t1) || (t2 < t)
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
move : NOT_BET; move /orP => [] => NOT_BET.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2 NOT_BET : t <= t1
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
{ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2 NOT_BET : t <= t1
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
by apply (non_idle_swap_maintains_work_conservation_LEQ_t1 arr_seq _ _ _ H_range _ _ H_not_idle t2_not_idle j). } Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2 NOT_BET : t2 < t
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
{ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2 NOT_BET : t2 < t
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
by apply (non_idle_swap_maintains_work_conservation_GT_t2 arr_seq _ _ _ H_range _ _ H_not_idle t2_not_idle j). } Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2 BET : ~~ ((t <= t1) || (t2 < t))
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
* Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2 BET : ~~ ((t <= t1) || (t2 < t))
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
move : BET; rewrite negb_or.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2
~~ (t <= t1) && ~~ (t2 < t) ->
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
move /andP.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2
~~ (t <= t1) /\ ~~ (t2 < t) ->
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
case ; rewrite <- ltnNge => range1; rewrite <- leqNgt => range2.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2 range1 : t1 < t range2 : t <= t2
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
have BET: (t1 < t) && (t <= t2) by apply /andP.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq j1 : Job t1 : instant H_not_idle : scheduled_at sched j1 t1 H_deadline_not_missed : t1 < job_deadline j1 t2 := edf_trans.find_swap_candidate sched t1 j1 : nat j2 : Job t2_not_idle : scheduled_at sched j2 t2 t2_arrival : job_arrival j2 <= t1 H_range : t1 <= t2 WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j BL : backlogged (swapped sched t1 t2) j t NEQ : t <> t1 NEQ' : t <> t2 range1 : t1 < t range2 : t <= t2 BET : t1 < t <= t2
exists j_other : Job,
scheduled_at (swapped sched t1 t2) j_other t
now apply (non_idle_swap_maintains_work_conservation_BET_t1_t2 arr_seq _ H_completed_jobs_dont_execute H_from_arr_seq _ _ _ _ t2_arrival H_not_idle t2_not_idle ).
Qed .
End FSCWorkConservationLemmas .
(** ** Work-Conservation of the Point-Wise EDF Transformation *)
(** In the following section, we show that work conservation is maintained by the
next level of [edf_transform], which is [make_edf_at]. *)
Section MakeEDFWorkConservationLemmas .
(** We assume the classic (i.e., Liu & Layland) model of readiness
without jitter or self-suspensions, wherein pending jobs are
always ready. *)
#[local] Existing Instance basic_ready_instance .
(** For any given type of jobs... *)
Context {Job : JobType} `{JobCost Job} `{JobDeadline Job} `{JobArrival Job}.
(** ... and any valid job arrival sequence, ... *)
Variable arr_seq : arrival_sequence Job.
Hypothesis H_arr_seq_valid : valid_arrival_sequence arr_seq.
(** ... consider an ideal uniprocessor schedule ... *)
Variable sched : schedule (ideal.processor_state Job).
(** ... in which all jobs come from the arrival sequence, ... *)
Hypothesis H_from_arr_seq : jobs_come_from_arrival_sequence sched arr_seq.
(** ...that is well-behaved,... *)
Hypothesis H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute sched.
Hypothesis H_completed_jobs_dont_execute : completed_jobs_dont_execute sched.
(** ...and in which no scheduled job misses a deadline. *)
Hypothesis H_no_deadline_misses : all_deadlines_met sched.
(** We analyze [make_edf_at] applied to an arbitrary point in time,
which we denote [t_edf] in the following. *)
Variable t_edf : instant.
(** For brevity, let [sched'] denote the schedule obtained from
[make_edf_at] applied to [sched] at time [t_edf]. *)
Let sched' := make_edf_at sched t_edf.
(** We show that, if a schedule is work-conserving, then applying
[make_edf_at] to it at an arbitrary instant [t_edf] maintains work
conservation. *)
Lemma mea_maintains_work_conservation :
work_conserving arr_seq sched -> work_conserving arr_seq sched'.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_no_deadline_misses : all_deadlines_met sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job)
work_conserving arr_seq sched ->
work_conserving arr_seq sched'
Proof .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_no_deadline_misses : all_deadlines_met sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job)
work_conserving arr_seq sched ->
work_conserving arr_seq sched'
rewrite /sched'/make_edf_at => WC_sched.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_no_deadline_misses : all_deadlines_met sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job) WC_sched : work_conserving arr_seq sched
work_conserving arr_seq
match sched t_edf with
| Some j =>
swapped sched t_edf
(edf_trans.find_swap_candidate sched t_edf j)
| None => sched
end
destruct (sched t_edf) eqn :E => //.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_no_deadline_misses : all_deadlines_met sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job) WC_sched : work_conserving arr_seq sched s : Job E : sched t_edf = Some s
work_conserving arr_seq
(swapped sched t_edf
(edf_trans.find_swap_candidate sched t_edf s))
apply fsc_swap_maintains_work_conservation => //.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_no_deadline_misses : all_deadlines_met sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job) WC_sched : work_conserving arr_seq sched s : Job E : sched t_edf = Some s
scheduled_at sched s t_edf
- Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_no_deadline_misses : all_deadlines_met sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job) WC_sched : work_conserving arr_seq sched s : Job E : sched t_edf = Some s
scheduled_at sched s t_edf
by rewrite scheduled_at_def; apply /eqP => //.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_no_deadline_misses : all_deadlines_met sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job) WC_sched : work_conserving arr_seq sched s : Job E : sched t_edf = Some s
t_edf < job_deadline s
- Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_no_deadline_misses : all_deadlines_met sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job) WC_sched : work_conserving arr_seq sched s : Job E : sched t_edf = Some s
t_edf < job_deadline s
apply (scheduled_at_implies_later_deadline sched) => //.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_no_deadline_misses : all_deadlines_met sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job) WC_sched : work_conserving arr_seq sched s : Job E : sched t_edf = Some s
job_meets_deadline sched s
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_no_deadline_misses : all_deadlines_met sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job) WC_sched : work_conserving arr_seq sched s : Job E : sched t_edf = Some s
job_meets_deadline sched s
rewrite /all_deadlines_met in (H_no_deadline_misses).Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job) WC_sched : work_conserving arr_seq sched s : Job E : sched t_edf = Some s H_no_deadline_misses : forall (j : Job) (t : instant),
scheduled_at sched j t ->
job_meets_deadline sched j
job_meets_deadline sched s
now apply (H_no_deadline_misses s t_edf); rewrite scheduled_at_def; apply /eqP.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_no_deadline_misses : all_deadlines_met sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job) WC_sched : work_conserving arr_seq sched s : Job E : sched t_edf = Some s
scheduled_at sched s t_edf
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_from_arr_seq : jobs_come_from_arrival_sequence sched
arr_seq H_jobs_must_arrive_to_execute : jobs_must_arrive_to_execute
sched H_completed_jobs_dont_execute : completed_jobs_dont_execute
sched H_no_deadline_misses : all_deadlines_met sched t_edf : instant sched' := make_edf_at sched t_edf : schedule (processor_state Job) WC_sched : work_conserving arr_seq sched s : Job E : sched t_edf = Some s
scheduled_at sched s t_edf
by rewrite scheduled_at_def; apply /eqP => //.
Qed .
End MakeEDFWorkConservationLemmas .
(** ** Work-Conserving EDF Prefix *)
(** On to the next layer, we prove that the [transform_prefix] function at the
core of the EDF transformation maintains work conservation *)
Section EDFPrefixWorkConservationLemmas .
(** We assume the classic (i.e., Liu & Layland) model of readiness
without jitter or self-suspensions, wherein pending jobs are
always ready. *)
#[local] Existing Instance basic_ready_instance .
(** For any given type of jobs, each characterized by execution
costs, an arrival time, and an absolute deadline,... *)
Context {Job : JobType} `{JobCost Job} `{JobDeadline Job} `{JobArrival Job}.
(** ... and any valid job arrival sequence, ... *)
Variable arr_seq : arrival_sequence Job.
Hypothesis H_arr_seq_valid : valid_arrival_sequence arr_seq.
(** ... consider an ideal uniprocessor schedule,... *)
Variable sched : schedule (ideal.processor_state Job).
(** ... an arbitrary finite [horizon], and ... *)
Variable horizon : instant.
(** ...let [sched_trans] denote the schedule obtained by transforming
[sched] up to the horizon. *)
Let sched_trans := edf_transform_prefix sched horizon.
(** Let [schedule_behavior_premises] define the premise that a schedule is:
1) well-behaved,
2) has all jobs coming from the arrival sequence [arr_seq], and
3) in which no scheduled job misses its deadline *)
Definition scheduled_behavior_premises (sched : schedule (processor_state Job)) :=
jobs_must_arrive_to_execute sched
/\ completed_jobs_dont_execute sched
/\ jobs_come_from_arrival_sequence sched arr_seq
/\ all_deadlines_met sched.
(** For brevity, let [P] denote the predicate that a schedule satisfies
[scheduled_behavior_premises] and is work-conserving. *)
Let P (sched : schedule (processor_state Job)) :=
scheduled_behavior_premises sched /\ work_conserving arr_seq sched.
(** We show that if [sched] is work-conserving, then so is [sched_trans]. *)
Lemma edf_transform_prefix_maintains_work_conservation :
P sched -> P sched_trans.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop
P sched -> P sched_trans
Proof .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop
P sched -> P sched_trans
rewrite /sched_trans/edf_transform_prefix.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop
P sched -> P (prefix_map sched make_edf_at horizon)
apply (prefix_map_property_invariance ).Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop
forall (sched : schedule (processor_state Job))
(t : instant), P sched -> P (make_edf_at sched t)
rewrite /P.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop
forall (sched : schedule (processor_state Job))
(t : instant),
scheduled_behavior_premises sched /\
work_conserving arr_seq sched ->
scheduled_behavior_premises (make_edf_at sched t) /\
work_conserving arr_seq (make_edf_at sched t)
move => sched' t [[H_ARR [H_COMPLETED [H_COME H_all_deadlines_met]]] H_wc_sched].Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
scheduled_behavior_premises (make_edf_at sched' t) /\
work_conserving arr_seq (make_edf_at sched' t)
rewrite /scheduled_behavior_premises/valid_schedule; split ; first split .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
jobs_must_arrive_to_execute (make_edf_at sched' t)
- Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
jobs_must_arrive_to_execute (make_edf_at sched' t)
by apply mea_jobs_must_arrive.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
completed_jobs_dont_execute (make_edf_at sched' t) /\
jobs_come_from_arrival_sequence (make_edf_at sched' t)
arr_seq /\ all_deadlines_met (make_edf_at sched' t)
- Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
completed_jobs_dont_execute (make_edf_at sched' t) /\
jobs_come_from_arrival_sequence (make_edf_at sched' t)
arr_seq /\ all_deadlines_met (make_edf_at sched' t)
split ; last split .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
completed_jobs_dont_execute (make_edf_at sched' t)
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
completed_jobs_dont_execute (make_edf_at sched' t)
by apply mea_completed_jobs.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
jobs_come_from_arrival_sequence (make_edf_at sched' t)
arr_seq
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
jobs_come_from_arrival_sequence (make_edf_at sched' t)
arr_seq
by apply mea_jobs_come_from_arrival_sequence.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
all_deadlines_met (make_edf_at sched' t)
+ Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
all_deadlines_met (make_edf_at sched' t)
by apply mea_no_deadline_misses.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
work_conserving arr_seq (make_edf_at sched' t)
- Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) horizon : instant sched_trans := edf_transform_prefix sched horizon : schedule (processor_state Job) P := fun sched : schedule (processor_state Job) =>
scheduled_behavior_premises sched /\
work_conserving arr_seq sched: schedule (processor_state Job) -> Prop sched' : schedule (processor_state Job) t : instant H_ARR : jobs_must_arrive_to_execute sched' H_COMPLETED : completed_jobs_dont_execute sched' H_COME : jobs_come_from_arrival_sequence sched'
arr_seq H_all_deadlines_met : all_deadlines_met sched' H_wc_sched : work_conserving arr_seq sched'
work_conserving arr_seq (make_edf_at sched' t)
by apply mea_maintains_work_conservation.
Qed .
End EDFPrefixWorkConservationLemmas .
(** ** Work-Conservation of the EDF Transformation *)
(** Finally, having established that [edf_transform_prefix] maintains work
conservation, we go ahead and prove that [edf_transform] maintains work
conservation, too. *)
Section EDFTransformWorkConservationLemmas .
(** We assume the classic (i.e., Liu & Layland) model of readiness
without jitter or self-suspensions, wherein pending jobs are
always ready. *)
#[local] Existing Instance basic_ready_instance .
(** For any given type of jobs, each characterized by execution
costs, an arrival time, and an absolute deadline,... *)
Context {Job : JobType} `{JobCost Job} `{JobDeadline Job} `{JobArrival Job}.
(** ... and any valid job arrival sequence, ... *)
Variable arr_seq : arrival_sequence Job.
Hypothesis H_arr_seq_valid : valid_arrival_sequence arr_seq.
(** ... consider a valid ideal uniprocessor schedule ... *)
Variable sched : schedule (ideal.processor_state Job).
Hypothesis H_sched_valid : valid_schedule sched arr_seq.
(** ...and in which no scheduled job misses a deadline. *)
Hypothesis H_no_deadline_misses : all_deadlines_met sched.
(** We first note that [sched] satisfies [scheduled_behavior_premises]. *)
Lemma sched_satisfies_behavior_premises : scheduled_behavior_premises arr_seq sched.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_sched_valid : valid_schedule sched arr_seq H_no_deadline_misses : all_deadlines_met sched
scheduled_behavior_premises arr_seq sched
Proof .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_sched_valid : valid_schedule sched arr_seq H_no_deadline_misses : all_deadlines_met sched
scheduled_behavior_premises arr_seq sched
split ; [ apply (jobs_must_arrive_to_be_ready sched) | split ; [ apply (completed_jobs_are_not_ready sched) | split ]].Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_sched_valid : valid_schedule sched arr_seq H_no_deadline_misses : all_deadlines_met sched
jobs_must_be_ready_to_execute sched
all : by try apply H_sched_valid.
Qed .
(** We prove that, if the given schedule [sched] is work-conserving, then the
schedule that results from transforming it into an EDF schedule is also
work-conserving. *)
Lemma edf_transform_maintains_work_conservation :
work_conserving arr_seq sched -> work_conserving arr_seq (edf_transform sched).Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_sched_valid : valid_schedule sched arr_seq H_no_deadline_misses : all_deadlines_met sched
work_conserving arr_seq sched ->
work_conserving arr_seq (edf_transform sched)
Proof .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_sched_valid : valid_schedule sched arr_seq H_no_deadline_misses : all_deadlines_met sched
work_conserving arr_seq sched ->
work_conserving arr_seq (edf_transform sched)
move => WC_sched j t ARR.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_sched_valid : valid_schedule sched arr_seq H_no_deadline_misses : all_deadlines_met sched WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j
backlogged (edf_transform sched) j t ->
exists j_other : Job,
scheduled_at (edf_transform sched) j_other t
set sched_edf := edf_transform sched.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_sched_valid : valid_schedule sched arr_seq H_no_deadline_misses : all_deadlines_met sched WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j sched_edf := edf_transform sched : instant -> processor_state Job
backlogged sched_edf j t ->
exists j_other : Job, scheduled_at sched_edf j_other t
have IDENT: identical_prefix sched_edf (edf_transform_prefix sched t.+1 ) t.+1
by rewrite /sched_edf/edf_transform => t' LE_t; apply (edf_prefix_inclusion) => //; apply sched_satisfies_behavior_premises.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_sched_valid : valid_schedule sched arr_seq H_no_deadline_misses : all_deadlines_met sched WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j sched_edf := edf_transform sched : instant -> processor_state Job IDENT : identical_prefix sched_edf
(edf_transform_prefix sched t.+1 ) t.+1
backlogged sched_edf j t ->
exists j_other : Job, scheduled_at sched_edf j_other t
rewrite (backlogged_prefix_invariance _ _ (edf_transform_prefix sched t.+1 ) t.+1 ) // => BL;
last by apply basic_readiness_nonclairvoyance.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_sched_valid : valid_schedule sched arr_seq H_no_deadline_misses : all_deadlines_met sched WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j sched_edf := edf_transform sched : instant -> processor_state Job IDENT : identical_prefix sched_edf
(edf_transform_prefix sched t.+1 ) t.+1 BL : backlogged (edf_transform_prefix sched t.+1 ) j t
exists j_other : Job, scheduled_at sched_edf j_other t
have WC_trans: work_conserving arr_seq (edf_transform_prefix sched (succn t))
by apply edf_transform_prefix_maintains_work_conservation; split => //; apply sched_satisfies_behavior_premises.Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_sched_valid : valid_schedule sched arr_seq H_no_deadline_misses : all_deadlines_met sched WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j sched_edf := edf_transform sched : instant -> processor_state Job IDENT : identical_prefix sched_edf
(edf_transform_prefix sched t.+1 ) t.+1 BL : backlogged (edf_transform_prefix sched t.+1 ) j t WC_trans : work_conserving arr_seq
(edf_transform_prefix sched t.+1 )
exists j_other : Job, scheduled_at sched_edf j_other t
move : (WC_trans _ _ ARR BL) => [j_other SCHED_AT].Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_sched_valid : valid_schedule sched arr_seq H_no_deadline_misses : all_deadlines_met sched WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j sched_edf := edf_transform sched : instant -> processor_state Job IDENT : identical_prefix sched_edf
(edf_transform_prefix sched t.+1 ) t.+1 BL : backlogged (edf_transform_prefix sched t.+1 ) j t WC_trans : work_conserving arr_seq
(edf_transform_prefix sched t.+1 ) j_other : Job SCHED_AT : scheduled_at
(edf_transform_prefix sched t.+1 ) j_other
t
exists j_other : Job, scheduled_at sched_edf j_other t
exists j_other .Job : JobType H : JobCost Job H0 : JobDeadline Job H1 : JobArrival Job arr_seq : arrival_sequence Job H_arr_seq_valid : valid_arrival_sequence arr_seq sched : schedule (processor_state Job) H_sched_valid : valid_schedule sched arr_seq H_no_deadline_misses : all_deadlines_met sched WC_sched : work_conserving arr_seq sched j : Job t : instant ARR : arrives_in arr_seq j sched_edf := edf_transform sched : instant -> processor_state Job IDENT : identical_prefix sched_edf
(edf_transform_prefix sched t.+1 ) t.+1 BL : backlogged (edf_transform_prefix sched t.+1 ) j t WC_trans : work_conserving arr_seq
(edf_transform_prefix sched t.+1 ) j_other : Job SCHED_AT : scheduled_at
(edf_transform_prefix sched t.+1 ) j_other
t
scheduled_at sched_edf j_other t
now rewrite (identical_prefix_scheduled_at _ (edf_transform_prefix sched t.+1 ) t.+1 ) //.
Qed .
End EDFTransformWorkConservationLemmas .