def NewQueuesTest():
factory = GridNetworkFactory(makeSimpleNode(),Queues)
resultBP = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
factory = GridNetworkFactory(makeNewNode(1),NewQueues)
resultLQ = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
factory = GridNetworkFactory(SPNode,SPQueues)
resultLQ2 = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
factory = GridNetworkFactory(makeNewNode(0.8),NewQueues)
resultLQ3 = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
for item in ['aveDelay','aveDRate']:
entry = [resultBP[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,'-o',label ='bp')
entry = [resultLQ[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,'-v',label ='nq=1')
entry = [resultLQ3[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,'-p',label ='nq=0.7')
entry = [resultLQ2[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,'-x',label ='sp=1')
py.legend(loc=0)
py.savefig('newQueuesTest_'+item)
py.close()
def PaperThree_NewQueuesWithLimitsTest_SA():
results = []
for rate in [0.2, 0.4, 0.8, 1]:
factory = GridNetworkFactory(makeNewNode(rate), NewQueues)
result = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
results.append((rate, result))
labels = {'aveDelay':'Average end-to-end delay',\
'aveDRate':'Delivery rate',\
'aveHop':'Average hop count',\
'aveBacklog':'Per-node queue lengths'}
for item in ['aveDelay', 'aveDRate', 'aveHop', 'aveBacklog']:
for rate, result in results:
entry = [result[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, label='r=%.1f' % rate)
py.xlabel("$\lambda$")
py.ylabel(labels[item])
py.legend(loc=0)
py.savefig('PaperThree_SA_' + item)
py.close()
def otherTest():
factory = GridNetworkFactory(makeSimpleNode(), Queues)
resultBP = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
factory = GridNetworkFactory(makeNewNode(0.8), NewQueues)
resultLQ = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
factory = GridNetworkFactory(makeNewNode(0.8), TestQueues)
resultLQ2 = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
factory = GridNetworkFactory(makeNewNode(0.8), TestSquareQueues)
resultLQ3 = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
labels = {'aveDelay':'Average end-to-end delay',\
'aveDRate':'Delivery rate',\
'aveHop':'Average hop count',\
'aveBacklog':'Per-node queue lengths'}
for item in ['aveDelay', 'aveDRate', 'aveHop', 'aveBacklog']:
entry = [resultBP[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, '-o', label='bp')
entry = [resultLQ[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, '-v', label='original')
entry = [resultLQ2[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, '-x', label='doubleRule')
entry = [resultLQ3[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, '-+', label='squareRule')
py.xlabel("$\lambda$")
py.ylabel(labels[item])
py.grid(True)
py.legend(loc=0)
py.savefig('otherTest_' + item)
py.close()
def NewQueuesTest():
factory = GridNetworkFactory(makeSimpleNode(), Queues)
resultBP = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
factory = GridNetworkFactory(makeNewNode(1), NewQueues)
resultLQ = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
factory = GridNetworkFactory(SPNode, SPQueues)
resultLQ2 = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
factory = GridNetworkFactory(makeNewNode(0.8), NewQueues)
resultLQ3 = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
for item in ['aveDelay', 'aveDRate']:
entry = [resultBP[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, '-o', label='bp')
entry = [resultLQ[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, '-v', label='nq=1')
entry = [resultLQ3[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, '-p', label='nq=0.7')
entry = [resultLQ2[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, '-x', label='sp=1')
py.legend(loc=0)
py.savefig('newQueuesTest_' + item)
py.close()
def otherTest():
factory = GridNetworkFactory(makeSimpleNode(),Queues)
resultBP = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
factory = GridNetworkFactory(makeNewNode(0.8),NewQueues)
resultLQ = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
factory = GridNetworkFactory(makeNewNode(0.8),TestQueues)
resultLQ2 = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
factory = GridNetworkFactory(makeNewNode(0.8),TestSquareQueues)
resultLQ3 = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
labels = {'aveDelay':'Average end-to-end delay',\
'aveDRate':'Delivery rate',\
'aveHop':'Average hop count',\
'aveBacklog':'Per-node queue lengths'}
for item in ['aveDelay','aveDRate','aveHop','aveBacklog']:
entry = [resultBP[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,'-o',label ='bp')
entry = [resultLQ[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,'-v',label ='original')
entry = [resultLQ2[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,'-x',label ='doubleRule')
entry = [resultLQ3[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,'-+',label ='squareRule')
py.xlabel("$\lambda$")
py.ylabel(labels[item])
py.grid(True)
py.legend(loc=0)
py.savefig('otherTest_'+item)
py.close()
def NewQueuesWithLimitsTest():
results = []
for rate in [0.2,0.4,0.8,1]:
factory = GridNetworkFactory(makeNewNode(rate),NewQueues)
result = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
results.append((rate,result))
for item in ['aveDelay','aveDRate']:
for rate,result in results:
entry = [result[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,label ='nq=%.1f'%rate)
py.legend(loc=0)
py.savefig('newQueuesTest_differentLimits_'+item)
py.close()
def NewQueuesWithLimitsTest():
results = []
for rate in [0.2, 0.4, 0.8, 1]:
factory = GridNetworkFactory(makeNewNode(rate), NewQueues)
result = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
results.append((rate, result))
for item in ['aveDelay', 'aveDRate']:
for rate, result in results:
entry = [result[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, label='nq=%.1f' % rate)
py.legend(loc=0)
py.savefig('newQueuesTest_differentLimits_' + item)
py.close()
def PaperThree_NewQueuesTest_DA():
factory = GridNetworkFactory(makeSimpleNode(), Queues)
resultBP = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
factory = GridNetworkFactory(SPNode, SPQueues)
resultLQ2 = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
factory = GridNetworkFactory(makeNewNode(0.8), NewQueues)
resultLQ3 = mainProcessCtrl(factory=factory,
rateList=gobalRateList,
threadNum=3)
labels = {'aveDelay':'Average end-to-end delay',\
'aveDRate':'Delivery rate',\
'aveHop':'Average hop count',\
'aveBacklog':'Per-node queue lengths'}
for item in ['aveDelay', 'aveDRate', 'aveHop', 'aveBacklog']:
entry = [resultBP[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, '-o', label='bp')
entry = [resultLQ3[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, '-p', label='r=0.8')
entry = [resultLQ2[key][item] for key in gobalRateList]
py.plot(gobalRateList, entry, '-x', label='K=10')
py.xlabel("$\lambda$")
py.ylabel(labels[item])
py.legend(loc=0)
py.savefig('PaperThree_newQueuesTest_DA_' + item)
py.close()
def PaperThree_NewQueuesWithLimitsTest_SA():
results = []
for rate in [0.2,0.4,0.8,1]:
factory = GridNetworkFactory(makeNewNode(rate),NewQueues)
result = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
results.append((rate,result))
labels = {'aveDelay':'Average end-to-end delay',\
'aveDRate':'Delivery rate',\
'aveHop':'Average hop count',\
'aveBacklog':'Per-node queue lengths'}
for item in ['aveDelay','aveDRate','aveHop','aveBacklog']:
for rate,result in results:
entry = [result[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,label ='r=%.1f'%rate)
py.xlabel("$\lambda$")
py.ylabel(labels[item])
py.legend(loc=0)
py.savefig('PaperThree_SA_'+item)
py.close()
def PaperThree_NewQueuesTest_DA():
factory = GridNetworkFactory(makeSimpleNode(),Queues)
resultBP = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
factory = GridNetworkFactory(SPNode,SPQueues)
resultLQ2 = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
factory = GridNetworkFactory(makeNewNode(0.8),NewQueues)
resultLQ3 = mainProcessCtrl(factory=factory,rateList=gobalRateList,threadNum=3)
labels = {'aveDelay':'Average end-to-end delay',\
'aveDRate':'Delivery rate',\
'aveHop':'Average hop count',\
'aveBacklog':'Per-node queue lengths'}
for item in ['aveDelay','aveDRate','aveHop','aveBacklog']:
entry = [resultBP[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,'-o',label ='bp')
entry = [resultLQ3[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,'-p',label ='r=0.8')
entry = [resultLQ2[key][item] for key in gobalRateList]
py.plot(gobalRateList,entry,'-x',label ='K=10')
py.xlabel("$\lambda$")
py.ylabel(labels[item])
py.legend(loc=0)
py.savefig('PaperThree_newQueuesTest_DA_'+item)
py.close()
