Require Import prosa.analysis.facts.readiness.basic.
[Loading ML file ssrmatching_plugin.cmxs (using legacy method) ... done]
[Loading ML file ssreflect_plugin.cmxs (using legacy method) ... done]
[Loading ML file ring_plugin.cmxs (using legacy method) ... done]
Serlib plugin: coq-elpi.elpi is not available: serlib support is missing.
Incremental checking for commands in this plugin will be impacted.
[Loading ML file coq-elpi.elpi ... done]
[Loading ML file zify_plugin.cmxs (using legacy method) ... done]
[Loading ML file micromega_core_plugin.cmxs (using legacy method) ... done]
[Loading ML file micromega_plugin.cmxs (using legacy method) ... done]
[Loading ML file btauto_plugin.cmxs (using legacy method) ... done]
Notation "_ + _" was already used in scope nat_scope.
[notation-overridden,parsing,default]
Notation "_ - _" was already used in scope nat_scope.
[notation-overridden,parsing,default]
Notation "_ <= _" was already used in scope nat_scope.
[notation-overridden,parsing,default]
Notation "_ < _" was already used in scope nat_scope.
[notation-overridden,parsing,default]
Notation "_ >= _" was already used in scope nat_scope.
[notation-overridden,parsing,default]
Notation "_ > _" was already used in scope nat_scope.
[notation-overridden,parsing,default]
Notation "_ <= _ <= _" was already used in scope
nat_scope. [notation-overridden,parsing,default]
Notation "_ < _ <= _" was already used in scope
nat_scope. [notation-overridden,parsing,default]
Notation "_ <= _ < _" was already used in scope
nat_scope. [notation-overridden,parsing,default]
Notation "_ < _ < _" was already used in scope
nat_scope. [notation-overridden,parsing,default]
Notation "_ * _" was already used in scope nat_scope.
[notation-overridden,parsing,default]
Require Export prosa.analysis.facts.model.restricted_supply.schedule.
Require Export prosa.analysis.facts.preemption.rtc_threshold.floating.
Require Export prosa.analysis.abstract.restricted_supply.task_intra_interference_bound.
Require Export prosa.analysis.abstract.restricted_supply.bounded_bi.elf.
New coercion path [GRing.subring_closedM;
                   GRing.smulr_closedN] : GRing.subring_closed >-> GRing.oppr_closed is ambiguous with existing 
[GRing.subring_closedB; GRing.zmod_closedN] : GRing.subring_closed >-> GRing.oppr_closed.
[ambiguous-paths,coercions,default]
New coercion path [GRing.subring_closed_semi;
                   GRing.semiring_closedM] : GRing.subring_closed >-> GRing.mulr_closed is ambiguous with existing 
[GRing.subring_closedM; GRing.smulr_closedM] : GRing.subring_closed >-> GRing.mulr_closed.
New coercion path [GRing.subring_closed_semi;
                   GRing.semiring_closedD] : GRing.subring_closed >-> GRing.addr_closed is ambiguous with existing 
[GRing.subring_closedB; GRing.zmod_closedD] : GRing.subring_closed >-> GRing.addr_closed.
[ambiguous-paths,coercions,default]
New coercion path [GRing.sdivr_closed_div;
                   GRing.divr_closedM] : GRing.sdivr_closed >-> GRing.mulr_closed is ambiguous with existing 
[GRing.sdivr_closedM; GRing.smulr_closedM] : GRing.sdivr_closed >-> GRing.mulr_closed.
[ambiguous-paths,coercions,default]
New coercion path [GRing.subalg_closedBM;
                   GRing.subring_closedB] : GRing.subalg_closed >-> GRing.zmod_closed is ambiguous with existing 
[GRing.subalg_closedZ; GRing.submod_closedB] : GRing.subalg_closed >-> GRing.zmod_closed.
[ambiguous-paths,coercions,default]
New coercion path [GRing.divring_closed_div;
                   GRing.sdivr_closedM] : GRing.divring_closed >-> GRing.smulr_closed is ambiguous with existing 
[GRing.divring_closedBM; GRing.subring_closedM] : GRing.divring_closed >-> GRing.smulr_closed.
[ambiguous-paths,coercions,default]
New coercion path [GRing.divalg_closedBdiv;
                   GRing.divring_closedBM] : GRing.divalg_closed >-> GRing.subring_closed is ambiguous with existing 
[GRing.divalg_closedZ; GRing.subalg_closedBM] : GRing.divalg_closed >-> GRing.subring_closed.
[ambiguous-paths,coercions,default]
Notation "_ - _" was already used in scope
distn_scope. [notation-overridden,parsing,default]
Require Export prosa.analysis.abstract.restricted_supply.search_space.elf.
Notation "_ - _" was already used in scope
distn_scope. [notation-overridden,parsing,default]
Notation "_ - _" was already used in scope
distn_scope. [notation-overridden,parsing,default]
Require Export prosa.analysis.facts.model.task_cost.
Require Export prosa.analysis.facts.priority.elf.
Notation "_ - _" was already used in scope
distn_scope. [notation-overridden,parsing,default]
Notation "_ - _" was already used in scope
distn_scope. [notation-overridden,parsing,default]
Require Export prosa.analysis.facts.blocking_bound.elf.
Notation "_ - _" was already used in scope
distn_scope. [notation-overridden,parsing,default]
Notation "_ - _" was already used in scope
distn_scope. [notation-overridden,parsing,default]
Require Export prosa.analysis.facts.workload.elf_athep_bound.
Notation "_ - _" was already used in scope
distn_scope. [notation-overridden,parsing,default]
Notation "_ - _" was already used in scope
distn_scope. [notation-overridden,parsing,default]
Require Export prosa.analysis.definitions.sbf.busy.

(** * RTA for ELF Scheduling with Floating Non-Preemptive Regions on Restricted-Supply Uniprocessors *)

(** In the following, we derive a response-time analysis for ELF
    schedulers, assuming a workload of sporadic real-time tasks
    characterized by arbitrary arrival curves executing upon a
    uniprocessor with arbitrary supply restrictions. To this end, we
    instantiate the sequential variant of _abstract Restricted-Supply
    Response-Time Analysis_ (aRSA) as provided in the
    [prosa.analysis.abstract.restricted_supply] module. *)
Section RTAforFloatingELFModelwithArrivalCurves.

  (** ** Defining the System Model *)

  (** Before any formal claims can be stated, an initial setup is
      needed to define the system model under consideration. To this
      end, we next introduce and define the following notions using
      Prosa's standard definitions and behavioral semantics:

      - processor model,
      - tasks, jobs, and their parameters,
      - the sequence of job arrivals,
      - worst-case execution time (WCET) and the absence of self-suspensions,
      - the set of tasks under analysis,
      - the task under analysis,
      - an arbitrary schedule of the task set, and finally,
      - a supply-bound function. *)

  (** *** Processor Model *)

  (** Consider a restricted-supply uniprocessor model. *)
  #[local] Existing Instance rs_processor_state.

  (** *** Tasks and Jobs  *)

  (** Consider any type of tasks, each characterized by a WCET
      [task_cost], relative deadline [task_deadline], an arrival curve
      [max_arrivals], a bound on the the task's longest
      non-preemptive segment [task_max_nonpreemptive_segment],
      and a relative priority point, ... *)
  Context {Task : TaskType}.
  Context `{TaskCost Task}.
  Context `{MaxArrivals Task}.
  Context `{TaskMaxNonpreemptiveSegment Task}.
  Context `{PriorityPoint Task}.

  (** ... and any type of jobs associated with these tasks, where each
      job has a task [job_task], a cost [job_cost], and an arrival
      time [job_arrival], and a predicate indicating job's preemption
      points [job_preemptive_points]. *)
  Context {Job : JobType}.
  Context `{JobTask Job Task}.
  Context `{JobCost Job}.
  Context `{JobArrival Job}.
  Context `{JobPreemptionPoints Job}.

  (** We assume that jobs are limited-preemptive. *)
  #[local] Existing Instance limited_preemptive_job_model.

  (** *** The Job Arrival Sequence *)

  (** Consider any valid arrival sequence [arr_seq]. *)
  Variable arr_seq : arrival_sequence Job.
  Hypothesis H_valid_arrival_sequence : valid_arrival_sequence arr_seq.

  (** *** Absence of Self-Suspensions and WCET Compliance *)

  (** 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.

  (** We further require that a job's cost cannot exceed its task's stated WCET. *)
  Hypothesis H_valid_job_cost : arrivals_have_valid_job_costs arr_seq.

  (** *** The Task Set *)

  (** We consider an arbitrary task set [ts] ... *)
  Variable ts : seq Task.

  (** ... and assume that all jobs stem from tasks in this task set. *)
  Hypothesis H_all_jobs_from_taskset : all_jobs_from_taskset arr_seq ts.

  (** Assume a model with floating non-preemptive regions. I.e., for
      each task only the length of the maximal non-preemptive segment
      is known and each job level is divided into a number of
      non-preemptive segments by inserting preemption points. *)
  Hypothesis H_valid_task_model_with_floating_nonpreemptive_regions :
    valid_model_with_floating_nonpreemptive_regions arr_seq.

  (** We assume that [max_arrivals] is a family of valid arrival
      curves that constrains the arrival sequence [arr_seq], i.e., for
      any task [tsk] in [ts], [max_arrival tsk] is (1) an arrival
      bound of [tsk], and ... *)
  Hypothesis H_is_arrival_curve : taskset_respects_max_arrivals arr_seq ts.

  (** ... (2) a monotonic function that equals 0 for the empty interval [delta = 0]. *)
  Hypothesis H_valid_arrival_curve : valid_taskset_arrival_curve ts max_arrivals.

  (** *** The Task Under Analysis *)

  (** Let [tsk] be any task in [ts] that is to be analyzed. *)
  Variable tsk : Task.
  Hypothesis H_tsk_in_ts : tsk \in ts.

  (** *** The Schedule *)

  (** Consider any work-conserving, valid restricted-supply
      uni-processor schedule with limited preemptions of the given
      arrival sequence [arr_seq] (and hence the given task set [ts]). *)
  Variable sched : schedule (rs_processor_state Job).
  Hypothesis H_valid_schedule : valid_schedule sched arr_seq.
  Hypothesis H_work_conserving : work_conserving arr_seq sched.
  Hypothesis H_schedule_with_limited_preemptions :
    schedule_respects_preemption_model arr_seq sched.

  (** Consider an FP policy that indicates a higher-or-equal priority
      relation, and assume that the relation is reflexive, transitive
      and total. *)
  Context (FP : FP_policy Task).
  Hypothesis H_reflexive_priorities : reflexive_task_priorities FP.
  Hypothesis H_transitive_priorities : transitive_task_priorities FP.
  Hypothesis H_total_priorities : total_task_priorities FP.

  (** Assume that the schedule respects the ELF policy. *)
  Hypothesis H_respects_policy :
    respects_JLFP_policy_at_preemption_point arr_seq sched (ELF FP).

  (** *** Supply-Bound Function *)

  (** Assume the minimum amount of supply that any job of task [tsk]
      receives is defined by a monotone unit-supply-bound function [SBF]. *)
  Context {SBF : SupplyBoundFunction}.
  Hypothesis H_SBF_monotone : sbf_is_monotone SBF.
  Hypothesis H_unit_SBF : unit_supply_bound_function SBF.

  (** We assume that [SBF] properly characterizes all busy intervals
      (w.r.t. task [tsk]) in [sched]. That is, (1) [SBF 0 = 0] and (2)
      for any duration [Δ], at least [SBF Δ] supply is available in
      any busy-interval prefix of length [Δ]. *)
  Hypothesis H_valid_SBF : valid_busy_sbf arr_seq sched tsk SBF.

  (** ** Length of Busy Interval *)

  (** The next step is to establish a bound on the maximum busy-window
      length, which aRSA requires to be given. *)

  (** To this end, let [L] be any positive fixed point of the
      busy-interval recurrence. As the
      [busy_intervals_are_bounded_rs_elf] lemma shows, under
      [ELF] scheduling policy, this is sufficient to
      guarantee that all busy intervals are bounded by [L]. *)
  Variable L : duration.
  Hypothesis H_L_positive : 0 < L.
  Hypothesis H_fixed_point:
    forall (A : duration),
      blocking_bound ts tsk A + total_hep_request_bound_function_FP ts tsk L <= SBF L.

  (** ** Response-Time Bound *)

  (** Having established all necessary preliminaries, it is finally
      time to state the claimed response-time bound [R].

      A value [R] is a response-time bound if, for any given offset
      [A] in the search space, the response-time bound recurrence has
      a solution [F] not exceeding [R]. *)
  Definition rta_recurrence_solution R :=
    forall (A : duration),
      is_in_search_space ts tsk L A ->
      exists (F : duration),
        A <= F <= A + R
        /\ blocking_bound ts tsk A
           + task_request_bound_function tsk (A + ε)
           + bound_on_athep_workload ts tsk A F
           <= SBF F.

  (** Finally, using the sequential variant of abstract
      restricted-supply analysis, we establish that any such [R] is a
      sound response-time bound for the concrete model of ELF
      scheduling with floating non-preemptive regions with arbitrary
      supply restrictions. *)
  Theorem uniprocessor_response_time_bound_floating_elf :
    forall (R : duration),
      rta_recurrence_solution R ->
      task_response_time_bound arr_seq sched tsk R.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
forall R : duration,
rta_recurrence_solution R ->
task_response_time_bound arr_seq sched tsk R
  Proof.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
forall R : duration,
rta_recurrence_solution R ->
task_response_time_bound arr_seq sched tsk R
    move=> R SOL js ARRs TSKs.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
job_response_time_bound sched js R
    have VAL1 : valid_preemption_model arr_seq sched.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
valid_preemption_model arr_seq sched
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
job_response_time_bound sched js R
    {
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
valid_preemption_model arr_seq sched apply valid_fixed_preemption_points_model_lemma => //.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
valid_limited_preemptions_job_model arr_seq
      by apply H_valid_task_model_with_floating_nonpreemptive_regions. }
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
job_response_time_bound sched js R
    have [ZERO|POS] := posnP (job_cost js);
      first by rewrite /job_response_time_bound /completed_by ZERO.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
job_response_time_bound sched js R
    have READ : work_bearing_readiness arr_seq sched by done.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
job_response_time_bound sched js R
    eapply uniprocessor_response_time_bound_restricted_supply_seq with (L := L) => //.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
definitions.work_conserving arr_seq sched
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
interference_and_workload_consistent_with_sequential_tasks
  arr_seq sched tsk
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
busy_intervals_are_bounded_by arr_seq sched tsk L
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
busy_sbf.valid_busy_sbf arr_seq sched tsk SBF
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
task_intra_interference_is_bounded_by arr_seq sched
  tsk ?task_intra_IBF
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
forall A : duration,
search_space.is_in_search_space L
  (fun A0 Δ : duration =>
   task_request_bound_function tsk (A0 + 1) -
   task_cost tsk + 
   ?task_intra_IBF A0 Δ) A ->
exists F : duration,
  F <= A + R /\
  task_request_bound_function tsk (A + 1) -
  (task_cost tsk - task_rtct tsk) +
  ?task_intra_IBF A F <= 
  SBF F /\
  SBF F + (task_cost tsk - task_rtct tsk) <=
  SBF (A + R)
    -
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
definitions.work_conserving arr_seq sched exact: instantiated_i_and_w_are_coherent_with_schedule.
    -
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
interference_and_workload_consistent_with_sequential_tasks
  arr_seq sched tsk exact: instantiated_interference_and_workload_consistent_with_sequential_tasks.
    -
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
busy_intervals_are_bounded_by arr_seq sched tsk L apply: busy_intervals_are_bounded_rs_elf => //.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
definitions.work_conserving arr_seq sched
      by apply: instantiated_i_and_w_are_coherent_with_schedule.
    -
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
busy_sbf.valid_busy_sbf arr_seq sched tsk SBF apply: valid_pred_sbf_switch_predicate; last by exact: H_valid_SBF.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
forall (j : Job) (t1 t2 : instant),
arrives_in arr_seq j ->
job_of_task tsk j /\
definitions.busy_interval_prefix sched j t1 t2 ->
(fun (j0 : Job) (t3 t4 : instant) =>
 job_of_task tsk j0 /\
 busy_interval_prefix arr_seq sched j0 t3 t4) j t1 t2
      move => ? ? ? ? [? ?]; split => //.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
_j_: Job
_t1_, _t2_: instant
_Hyp_: arrives_in arr_seq _j_
_a_: job_of_task tsk _j_
_b_: definitions.busy_interval_prefix sched _j_ _t1_
  _t2_
busy_interval_prefix arr_seq sched _j_ _t1_ _t2_
      by apply instantiated_busy_interval_prefix_equivalent_busy_interval_prefix.
    -
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
task_intra_interference_is_bounded_by arr_seq sched
  tsk ?task_intra_IBF apply: instantiated_task_intra_interference_is_bounded; eauto 1 => //; first last.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
athep_workload_is_bounded arr_seq sched tsk ?Goal2
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
service_inversion_is_bounded_by arr_seq sched tsk
  ?Goal0
      +
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
athep_workload_is_bounded arr_seq sched tsk ?Goal2 by (apply: bound_on_athep_workload_is_valid; try apply H_fixed_point) => //.
      +
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
service_inversion_is_bounded_by arr_seq sched tsk
  ?Goal0 apply: service_inversion_is_bounded => // => jo t1 t2 ARRo TSKo BUSYo.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
jo: Job
t1, t2: instant
ARRo: arrives_in arr_seq jo
TSKo: job_of_task tsk jo
BUSYo: busy_interval_prefix arr_seq sched jo t1 t2
max_lp_nonpreemptive_segment arr_seq jo t1 <=
?Goal0 (job_arrival jo - t1)
        by apply: nonpreemptive_segments_bounded_by_blocking => //.
    -
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
forall A : duration,
search_space.is_in_search_space L
  (fun A0 Δ : duration =>
   task_request_bound_function tsk (A0 + 1) -
   task_cost tsk +
   task_intra_IBF (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A0 Δ) A ->
exists F : duration,
  F <= A + R /\
  task_request_bound_function tsk (A + 1) -
  (task_cost tsk - task_rtct tsk) +
  task_intra_IBF (blocking_bound ts tsk)
    (bound_on_athep_workload ts tsk) A F <= SBF F /\
  SBF F + (task_cost tsk - task_rtct tsk) <=
  SBF (A + R) move=> A SP.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
A: duration
SP: search_space.is_in_search_space L
  (fun A Δ : duration =>
   task_request_bound_function tsk (A + 1) -
   task_cost tsk +
   task_intra_IBF 
     (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A Δ) A
exists F : duration,
  F <= A + R /\
  task_request_bound_function tsk (A + 1) -
  (task_cost tsk - task_rtct tsk) +
  task_intra_IBF (blocking_bound ts tsk)
    (bound_on_athep_workload ts tsk) A F <= SBF F /\
  SBF F + (task_cost tsk - task_rtct tsk) <=
  SBF (A + R)
      move: (SOL A) => [].
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
A: duration
SP: search_space.is_in_search_space L
  (fun A Δ : duration =>
   task_request_bound_function tsk (A + 1) -
   task_cost tsk +
   task_intra_IBF 
     (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A Δ) A
is_in_search_space ts tsk L A
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
A: duration
SP: search_space.is_in_search_space L
  (fun A Δ : duration =>
   task_request_bound_function tsk (A + 1) -
   task_cost tsk +
   task_intra_IBF 
     (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A Δ) A
forall x : duration,
A <= x <= A + R /\
blocking_bound ts tsk A +
task_request_bound_function tsk (A + 1) +
bound_on_athep_workload ts tsk A x <= 
SBF x ->
exists F : duration,
  F <= A + R /\
  task_request_bound_function tsk (A + 1) -
  (task_cost tsk - task_rtct tsk) +
  task_intra_IBF 
    (blocking_bound ts tsk)
    (bound_on_athep_workload ts tsk) A F <= 
  SBF F /\
  SBF F + (task_cost tsk - task_rtct tsk) <=
  SBF (A + R)
      {
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
A: duration
SP: search_space.is_in_search_space L
  (fun A Δ : duration =>
   task_request_bound_function tsk (A + 1) -
   task_cost tsk +
   task_intra_IBF 
     (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A Δ) A
is_in_search_space ts tsk L A by apply: search_space_sub => //; apply: search_space_switch_IBF. }
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
A: duration
SP: search_space.is_in_search_space L
  (fun A Δ : duration =>
   task_request_bound_function tsk (A + 1) -
   task_cost tsk +
   task_intra_IBF 
     (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A Δ) A
forall x : duration,
A <= x <= A + R /\
blocking_bound ts tsk A +
task_request_bound_function tsk (A + 1) +
bound_on_athep_workload ts tsk A x <= SBF x ->
exists F : duration,
  F <= A + R /\
  task_request_bound_function tsk (A + 1) -
  (task_cost tsk - task_rtct tsk) +
  task_intra_IBF (blocking_bound ts tsk)
    (bound_on_athep_workload ts tsk) A F <= SBF F /\
  SBF F + (task_cost tsk - task_rtct tsk) <=
  SBF (A + R)
      move=> FF [EQ1 EQ2].
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
A: duration
SP: search_space.is_in_search_space L
  (fun A Δ : duration =>
   task_request_bound_function tsk (A + 1) -
   task_cost tsk +
   task_intra_IBF 
     (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A Δ) A
FF: duration
EQ1: A <= FF <= A + R
EQ2: blocking_bound ts tsk A +
task_request_bound_function tsk (A + 1) +
bound_on_athep_workload ts tsk A FF <= 
SBF FF
exists F : duration,
  F <= A + R /\
  task_request_bound_function tsk (A + 1) -
  (task_cost tsk - task_rtct tsk) +
  task_intra_IBF (blocking_bound ts tsk)
    (bound_on_athep_workload ts tsk) A F <= SBF F /\
  SBF F + (task_cost tsk - task_rtct tsk) <=
  SBF (A + R)
      exists FF; split; last split.
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
A: duration
SP: search_space.is_in_search_space L
  (fun A Δ : duration =>
   task_request_bound_function tsk (A + 1) -
   task_cost tsk +
   task_intra_IBF 
     (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A Δ) A
FF: duration
EQ1: A <= FF <= A + R
EQ2: blocking_bound ts tsk A +
task_request_bound_function tsk (A + 1) +
bound_on_athep_workload ts tsk A FF <= 
SBF FF
FF <= A + R
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
A: duration
SP: search_space.is_in_search_space L
  (fun A Δ : duration =>
   task_request_bound_function tsk (A + 1) -
   task_cost tsk +
   task_intra_IBF 
     (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A Δ) A
FF: duration
EQ1: A <= FF <= A + R
EQ2: blocking_bound ts tsk A +
task_request_bound_function tsk (A + 1) +
bound_on_athep_workload ts tsk A FF <= 
SBF FF
task_request_bound_function tsk (A + 1) -
(task_cost tsk - task_rtct tsk) +
task_intra_IBF 
  (blocking_bound ts tsk)
  (bound_on_athep_workload ts tsk) A FF <= 
SBF FF
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
A: duration
SP: search_space.is_in_search_space L
  (fun A Δ : duration =>
   task_request_bound_function tsk (A + 1) -
   task_cost tsk +
   task_intra_IBF 
     (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A Δ) A
FF: duration
EQ1: A <= FF <= A + R
EQ2: blocking_bound ts tsk A +
task_request_bound_function tsk (A + 1) +
bound_on_athep_workload ts tsk A FF <= 
SBF FF
SBF FF + (task_cost tsk - task_rtct tsk) <=
SBF (A + R)
      +
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
A: duration
SP: search_space.is_in_search_space L
  (fun A Δ : duration =>
   task_request_bound_function tsk (A + 1) -
   task_cost tsk +
   task_intra_IBF 
     (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A Δ) A
FF: duration
EQ1: A <= FF <= A + R
EQ2: blocking_bound ts tsk A +
task_request_bound_function tsk (A + 1) +
bound_on_athep_workload ts tsk A FF <= 
SBF FF
FF <= A + R lia.
      +
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
A: duration
SP: search_space.is_in_search_space L
  (fun A Δ : duration =>
   task_request_bound_function tsk (A + 1) -
   task_cost tsk +
   task_intra_IBF 
     (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A Δ) A
FF: duration
EQ1: A <= FF <= A + R
EQ2: blocking_bound ts tsk A +
task_request_bound_function tsk (A + 1) +
bound_on_athep_workload ts tsk A FF <= 
SBF FF
task_request_bound_function tsk (A + 1) -
(task_cost tsk - task_rtct tsk) +
task_intra_IBF (blocking_bound ts tsk)
  (bound_on_athep_workload ts tsk) A FF <= SBF FF by move: EQ2; rewrite /task_intra_IBF; lia.
      +
Task: TaskType
H: TaskCost Task
H0: MaxArrivals Task
H1: TaskMaxNonpreemptiveSegment Task
H2: PriorityPoint Task
Job: JobType
H3: JobTask Job Task
H4: JobCost Job
H5: JobArrival Job
H6: JobPreemptionPoints Job
arr_seq: arrival_sequence Job
H_valid_arrival_sequence: valid_arrival_sequence
  arr_seq
H_valid_job_cost: arrivals_have_valid_job_costs
  arr_seq
ts: seq Task
H_all_jobs_from_taskset: all_jobs_from_taskset
  arr_seq ts
H_valid_task_model_with_floating_nonpreemptive_regions: valid_model_with_floating_nonpreemptive_regions
  arr_seq
H_is_arrival_curve: taskset_respects_max_arrivals
  arr_seq ts
H_valid_arrival_curve: valid_taskset_arrival_curve ts
  max_arrivals
tsk: Task
H_tsk_in_ts: tsk \in ts
sched: schedule (rs_processor_state Job)
H_valid_schedule: valid_schedule sched arr_seq
H_work_conserving: work_conserving arr_seq sched
H_schedule_with_limited_preemptions: schedule_respects_preemption_model
  arr_seq sched
FP: FP_policy Task
H_reflexive_priorities: reflexive_task_priorities FP
H_transitive_priorities: transitive_task_priorities
  FP
H_total_priorities: total_task_priorities FP
H_respects_policy: respects_JLFP_policy_at_preemption_point
  arr_seq sched 
  (ELF FP)
SBF: SupplyBoundFunction
H_SBF_monotone: sbf_is_monotone SBF
H_unit_SBF: unit_supply_bound_function SBF
H_valid_SBF: valid_busy_sbf arr_seq sched tsk SBF
L: duration
H_L_positive: 0 < L
H_fixed_point: forall A : duration,
blocking_bound ts tsk A +
total_hep_request_bound_function_FP ts
  tsk L <= 
SBF L
R: duration
SOL: rta_recurrence_solution R
js: Job
ARRs: arrives_in arr_seq js
TSKs: job_of_task tsk js
VAL1: valid_preemption_model arr_seq sched
POS: 0 < job_cost js
READ: work_bearing_readiness arr_seq sched
A: duration
SP: search_space.is_in_search_space L
  (fun A Δ : duration =>
   task_request_bound_function tsk (A + 1) -
   task_cost tsk +
   task_intra_IBF 
     (blocking_bound ts tsk)
     (bound_on_athep_workload ts tsk) A Δ) A
FF: duration
EQ1: A <= FF <= A + R
EQ2: blocking_bound ts tsk A +
task_request_bound_function tsk (A + 1) +
bound_on_athep_workload ts tsk A FF <= 
SBF FF
SBF FF + (task_cost tsk - task_rtct tsk) <=
SBF (A + R) by rewrite subnn addn0; apply H_SBF_monotone; lia.
  Qed.

End RTAforFloatingELFModelwithArrivalCurves.