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class JacksonNet extends AnyRef

The JacksonNet class is used to solve Jackson Queueing Network problems. Each node in the network represents a service station consisting of one queue and k_i servers. It is currently limited to networks of M/M/k queues.

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Instance Constructors

  1. new JacksonNet(p: MatrixD, r: VectorD, mu: VectorD, k: Array[Int] = null)

    p

    the routing probabilities from node to node

    r

    the external arrival rates for each node

    mu

    the service rates for each node

    k

    the number of servers for each node

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  8. final def getClass(): Class[_]
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  10. final def isInstanceOf[T0]: Boolean
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  11. def nQueue(j: Int): Double

    Calculate the expected number in the queue at the j-th node.

    Calculate the expected number in the queue at the j-th node.

    j

    the j-th node

  12. def nQueue_1(j: Int): Double

    Calculate the expected number in the queue at the j-th node for an M/M/1 queue.

    Calculate the expected number in the queue at the j-th node for an M/M/1 queue.

    j

    the j-th node

  13. def nQueue_k(j: Int): Double

    Calculate the expected number in the queue at the j-th node for an M/M/k queue.

    Calculate the expected number in the queue at the j-th node for an M/M/k queue.

    j

    the j-th node

  14. final def ne(arg0: AnyRef): Boolean
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  15. final def notify(): Unit
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  16. final def notifyAll(): Unit
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  17. def pi_0(ro: Double, kk: Int): Double

    Calculate the probability of a node being empty, based on its utilization factor and number of servers.

    Calculate the probability of a node being empty, based on its utilization factor and number of servers.

    ro

    the utilization factor

    kk

    the number of servers

  18. def report(): Unit

    Report the results.

  19. final def synchronized[T0](arg0: ⇒ T0): T0
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  20. def toString(): String
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  21. def view(): Unit

    View/check intermediate results.

  22. final def wait(arg0: Long, arg1: Int): Unit
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