Parallel computation #
Parallel computation of a computable sequence of computations by a diagonal enumeration. The important theorems of this operation are proven as terminates_parallel and exists_of_mem_parallel. (This operation is nondeterministic in the sense that it does not honor sequence equivalence (irrelevance of computation time).)
Equations
- One or more equations did not get rendered due to their size.
Instances For
def
Computation.parallel.aux1
{α : Type u}
:
List (Computation α) × Stream'.WSeq (Computation α) → α ⊕ List (Computation α) × Stream'.WSeq (Computation α)
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- One or more equations did not get rendered due to their size.
Instances For
Parallel computation of an infinite stream of computations, taking the first result
Equations
- Computation.parallel S = Computation.corec Computation.parallel.aux1 ([], S)
Instances For
theorem
Computation.terminates_parallel.aux
{α : Type u}
{l : List (Computation α)}
{S : Stream'.WSeq (Computation α)}
{c : Computation α}
:
c ∈ l → c.Terminates → (Computation.corec Computation.parallel.aux1 (l, S)).Terminates
theorem
Computation.terminates_parallel
{α : Type u}
{S : Stream'.WSeq (Computation α)}
{c : Computation α}
(h : c ∈ S)
[T : c.Terminates]
:
(Computation.parallel S).Terminates
theorem
Computation.exists_of_mem_parallel
{α : Type u}
{S : Stream'.WSeq (Computation α)}
{a : α}
(h : a ∈ Computation.parallel S)
:
∃ (c : Computation α), c ∈ S ∧ a ∈ c
theorem
Computation.map_parallel
{α : Type u}
{β : Type v}
(f : α → β)
(S : Stream'.WSeq (Computation α))
:
theorem
Computation.parallel_empty
{α : Type u}
(S : Stream'.WSeq (Computation α))
(h : S.head.Promises none)
:
def
Computation.parallelRec
{α : Type u}
{S : Stream'.WSeq (Computation α)}
(C : α → Sort v)
(H : (s : Computation α) → s ∈ S → (a : α) → a ∈ s → C a)
{a : α}
(h : a ∈ Computation.parallel S)
:
C a
Equations
- One or more equations did not get rendered due to their size.
Instances For
theorem
Computation.parallel_promises
{α : Type u}
{S : Stream'.WSeq (Computation α)}
{a : α}
(H : ∀ (s : Computation α), s ∈ S → s.Promises a)
:
(Computation.parallel S).Promises a
theorem
Computation.mem_parallel
{α : Type u}
{S : Stream'.WSeq (Computation α)}
{a : α}
(H : ∀ (s : Computation α), s ∈ S → s.Promises a)
{c : Computation α}
(cs : c ∈ S)
(ac : a ∈ c)
:
theorem
Computation.parallel_congr_lem
{α : Type u}
{S : Stream'.WSeq (Computation α)}
{T : Stream'.WSeq (Computation α)}
{a : α}
(H : Stream'.WSeq.LiftRel Computation.Equiv S T)
:
(∀ (s : Computation α), s ∈ S → s.Promises a) ↔ ∀ (t : Computation α), t ∈ T → t.Promises a
theorem
Computation.parallel_congr_left
{α : Type u}
{S : Stream'.WSeq (Computation α)}
{T : Stream'.WSeq (Computation α)}
{a : α}
(h1 : ∀ (s : Computation α), s ∈ S → s.Promises a)
(H : Stream'.WSeq.LiftRel Computation.Equiv S T)
:
(Computation.parallel S).Equiv (Computation.parallel T)
theorem
Computation.parallel_congr_right
{α : Type u}
{S : Stream'.WSeq (Computation α)}
{T : Stream'.WSeq (Computation α)}
{a : α}
(h2 : ∀ (t : Computation α), t ∈ T → t.Promises a)
(H : Stream'.WSeq.LiftRel Computation.Equiv S T)
:
(Computation.parallel S).Equiv (Computation.parallel T)