gptkbp:instanceOf
|
theoretical computer science
|
gptkbp:basisFor
|
gptkb:Orleans
gptkb:Erlang
gptkb:Akka
gptkb:CAF_(C++_Actor_Framework)
gptkb:Elixir_(programming_language)
gptkb:Microsoft_Service_Fabric
gptkb:Pony_(programming_language)
gptkb:Proto.Actor
gptkb:Scala_actors
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gptkbp:describes
|
concurrent computation
|
gptkbp:enables
|
distributed systems
message passing
scalability
fault tolerance
asynchronous computation
location transparency
no shared state
|
gptkbp:field
|
computer science
|
gptkbp:hasConcept
|
gptkb:Animalia
gptkb:address
actor
messenger
concurrency
mailbox
encapsulation
actor communication
actor creation
actor hierarchy
actor state
actor supervision
asynchrony
independent computation
|
https://www.w3.org/2000/01/rdf-schema#label
|
Actor model
|
gptkbp:introduced
|
gptkb:Carl_Hewitt
|
gptkbp:introducedIn
|
1973
|
gptkbp:publishedIn
|
gptkb:A_Universal_Modular_Actor_Formalism_for_Artificial_Intelligence
gptkb:Actors:_A_Model_of_Concurrent_Computation_in_Distributed_Systems
|
gptkbp:relatedTo
|
gptkb:lambda_calculus
gptkb:Petri_nets
object-oriented programming
process calculus
communicating sequential processes
|
gptkbp:usedIn
|
gptkb:simulation
cloud computing
distributed computing
telecommunications
multi-agent systems
web services
real-time systems
parallel programming
IoT systems
|
gptkbp:bfsParent
|
gptkb:Communicating_Sequential_Processes
|
gptkbp:bfsLayer
|
6
|