Esempio n. 1
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@author: zuq31
"""
#import libraries
import VBASim
import Basic_Classes as bc
import RNG
import numpy as np

#initialize variables
TheQueues = []
TheResources = []
TheDTStats = []
TheCTStats = []

#create instances of objects
ParkingLot = bc.FIFOQueue()
MaxCars = 0
TimeSpent = bc.DTStat()
Calendar = bc.EventCalendar()

TheQueues.append(ParkingLot)
TheDTStats.append(TimeSpent)

AllAverageQueues = []
AllMaxCars = []
AllTimeSpent = []

print("Rep", "Average Number", "Max Number", "Average Time Spent")

MeanTBA = 0.021  #for stationary Poisson arrival
#MeanTBA = 0.03312 #for nonstationary Poisson arrival
Esempio n. 2
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# -*- coding: utf-8 -*-
import VBASim 
import RNG 
import Basic_Classes
import math
import numpy as np
import pandas as pd
from scipy import stats

Clock = 0.0
ZRNG = RNG.InitializeRNSeed()
Queue = Basic_Classes.FIFOQueue() # Inventory
Calendar = Basic_Classes.EventCalendar()
Server = Basic_Classes.Resource() # dummy, not used
TheCTStats = []
TheDTStats = []
TheQueues = []
TheResources = []
TheQueues.append(Queue)
TheResources.append(Server)
AllStats = []
p = 0.2
MeanTBA = 1.0 # Demand Arrival
MeanLead = 1.0 # Item Arrival
T = 240 # Runlength
s = 4
S = 10
NumSold = 0 # total number of sold items
M = 0 # total number of ordered items
o = 0.5
r = 1
Esempio n. 3
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import VBASim
import Basic_Classes as bc
import RNG
import numpy as np
import csv

Clock = 0.0
ZRNG = RNG.InitializeRNSeed()

#initialize variables
TheQueues = []
TheResources = []
TheDTStats = []
TheCTStats = []

WaitingList = bc.FIFOQueue()
WaitingTime = bc.DTStat()
Difference = bc.DTStat()
Calendar = bc.EventCalendar()
Server = bc.Resource()
TimeSpent = bc.DTStat()

TheQueues.append(WaitingList)
TheDTStats.append(WaitingTime)
TheDTStats.append(Difference)
TheResources.append(Server)

Server.SetUnits(3)
MeanTBA = 1.0
MeanST = 2.7
Phases = 2
Esempio n. 4
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#!/usr/bin/env python2

import VBASim
import RNG
import Basic_Classes
import pandas as pd

Clock = 0.0
ZRNG = RNG.InitializeRNSeed()
Queue = Basic_Classes.FIFOQueue()
Wait = Basic_Classes.DTStat()
Server = Basic_Classes.Resource()
Calendar = Basic_Classes.EventCalendar()
TheCTStats = []
TheDTStats = []
TheQueues = []
TheResources = []
TheDTStats.append(Wait)
TheQueues.append(Queue)
TheResources.append(Server)

c = 10  # retrial if # customers in the system >= c
Server.SetUnits(1)
MeanTBA = 1.0
MeanST = 0.8
MeanTR = 2.0  # retrial customer return time ~ exp(MeanTR)
Phases = 3
RunLength = 55000.0
WarmUp = 5000.0
AllStats = []
Esempio n. 5
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import Basic_Classes
import pandas as pd
import csv
Clock = 0.0
ZRNG = RNG.InitializeRNSeed()
'''
Class1   Class2
Queue1   Queue2
   |  \     |
   |   \    |
   A   B1   B2
   |     \  |
   |      \ |
ServerA  ServerB
'''
Queue1 = Basic_Classes.FIFOQueue()
Queue2 = Basic_Classes.FIFOQueue()
ServerA = Basic_Classes.Resource()
ServerB = Basic_Classes.Resource()
TotalTime1 = Basic_Classes.DTStat()
TotalTime2 = Basic_Classes.DTStat()
Calendar = Basic_Classes.EventCalendar()

TheCTStats = []
TheDTStats = []
TheQueues = []
TheResources = []

TheDTStats.append(TotalTime1)
TheDTStats.append(TotalTime2)
TheQueues.append(Queue1)
#!/usr/bin/env python2
# -*- coding: utf-8 -*-

import VBASim
import RNG
import Basic_Classes
import pandas as pd
Clock = 0.0
ZRNG = RNG.InitializeRNSeed()
Queue1 = Basic_Classes.FIFOQueue()  # Financial
Queue2 = Basic_Classes.FIFOQueue()  # Contact Management
Wait = Basic_Classes.DTStat()
Server1 = Basic_Classes.Resource()  # Financial
Server2 = Basic_Classes.Resource()  # Contact Management
Calendar = Basic_Classes.EventCalendar()
TheCTStats = []
TheDTStats = []
TheQueues = []
TheResources = []
TheDTStats.append(Wait)
TheQueues.append(Queue1)
TheQueues.append(Queue2)
TheResources.append(Server1)
TheResources.append(Server2)
s1 = 4
s2 = 3
Server1.SetUnits(s1)
Server2.SetUnits(s2)
MeanTBA = 1.0
MeanST1 = 5.0
MeanST2 = 5.0