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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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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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
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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
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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
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def
notify(): Unit
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notifyAll(): Unit
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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
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def
report(): Unit
Report the results.
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def
toString(): String
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def
view(): Unit
View/check intermediate results.
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