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The problem finding perfect squares that are sums of consecutive squares. A more interesting example is Lucas‘ Square Pyramid. The goal of this first project is to use F# and the actor model to build a good solution to this problem that runs well on multi-core machines.
The problem finding perfect squares that are sums of consecutive squares. A more interesting example is Lucas‘ Square Pyramid. The goal of this first project is to use F# and the actor model to build a good solution to this problem that runs well on multi-core machines.
The problem finding perfect squares that are sums of consecutive squares. A more interesting example is Lucas‘ Square Pyramid. The goal of this first project is to use F# and the actor model to build a good solution to this problem that runs well on multi-core machines.
The problem finding perfect squares that are sums of consecutive squares. A more interesting example is Lucas Square Pyramid. The goal of this first project is to use F# and the actor model to build a good solution to this problem that runs well on multicore machines.
The problem finding perfect squares that are sums of consecutive squares. A more interesting example is Lucas‘ Square Pyramid. The goal of this first project is to use F# and the actor model to build a good solution to this problem that runs well on multi-core machines.
The problem finding perfect squares that are sums of consecutive squares. A more interesting example is Lucas‘ Square Pyramid. The goal of this first project is to use F# and the actor model to build a good solution to this problem that runs well on multi-core machines.
A distributed system that uses the Actor model in the AKKA.NET framework to spawn a supervisor actor which in return spawns worker actors. Given 2 numbers N and k, each worker actor takes on a range of numbers and checks for the square of k consecutive numbers that add up to a perfect square.
A distributed system that spawns multiple actors that can communicate and perform aggregate computation using AKKA.net and F# in 4 different topologies(Full, Line, 2D Grid, and Imperfect 2D). Both the gossip algorithm as well as push-sum have been implemented.
Implemented Gossip and PushSum algorithms for group communication and aggregate computation to determine the convergence through a simulator using akka actor model.
Implement a Twitter like engine using the Akka actors model and support the following functionalities: Register, Tweet, Subscribe, Re-Tweet and Query specific to hashtags and mentions. Also have to develop a client simulator for generating the requests and subscribers are distributed based on Zipf distribution model.
Gossip type algorithms can be used both for group communication and for aggregate computation. The goal of this project is to determine the convergence of such algorithms through a simulator based on actors written in F#. Since actors in F# are fully asynchronous, the particular type of Gossip implemented is the so called Asynchronous Gossip.
Implementation of Gossip and Push Sum algorithm in 4 topologies namely: Line, Full, 3D, Imperfect 3D. The program calculates and gives the convergence time of the rumor.