Ospf routing protocol typically runs over (72)A.IPB.TCPC.UDPD.ARP
Ospf routing protocol typically runs over (72)
A.IP
B.TCP
C.UDP
D.ARP
相关考题:
Which of the following is referred to as sunk cost:A . management reserveB . contingency fundC . cost budgeted for construction under waterD . expended funds over which there is no further controlE . forecasted budget over-runs
Basically, a(71)is a standalone process or a set of integrated processes that runs on a router or server to control the flow of(72)application traffic(73)through it. Typically, firewalls are(74)on the entry point to a public network such as the Internet. They could be considered traffic cops. The firewall' s(75)is to ensure that all communication between an organization's network and the Internet conform. to the organization's security policies.A.routerB.clientC.firewallD.switch
● Serialization delay and (71) delay are the two components of network delay that are improved by increasing bandwidth. Serialization delay, i.e. the amount of time it takes to put the (72) on the wire, and queuing delay (depth of the queue) are improved by increasing the (73) from a 128Kbps circuit to a T1. However, three other components of delay, routing/switching delay, distance delay, and protocol delay are components that can not be positively affected by an (74) in bandwidth. If the circuits are not over-utilized, then increasing the bandwidth to improve the (75) of the application will only result in an increased bandwidth with no positive effects on performance.
●One ofthe main resposibilities ofICMP is to report (71). Although technology has produced increasingly reliable transmission media, errors still exist and must be handled. IP is an (72) protocol. This means that error checking and error control are not a concem ofIP.ICMP was designed, in part, to compensate for this shortcoming. Howerver, ICMP does not _(73) errors, it simply reports them. Error correction is left to the higher-level potocols. Error messages are always sent to the original__(74) because the only information available in the datagram about the route is the source and destination lP addresses. ICMP uses the source IP address to send the error massage to the source ofthe(75) .(71)A, numbersB. functionsC. stringsD. errors(72)A. reliableB. unreliableC. availableD. unavailable(73)A. correctB. conductC. produceD. connect(74)A. userB. destinationC. sourceD. program(75)A. datagramB. frameC. serviceD. protocol
A management domain typically contains a large amount of management information. Each individual item of(71) information is an instance of a managed object type. The definition of a related set of managed (72)types is contained in a Management Information Base (MIB)module. Many such MIB modules are defined. For each managed object type it describes, a MIB (73) defines not only the semantics and syntax of that managed object type, but also the method of identifying an individual instance so that multiple () of the same managed object type can be distinguished. Typically, there are many instances of each managed object (75) within a management domainA.packetsB.searchesC.statesD.instances
A management domain typically contains a large amount of management information. Each individual item of() information is an instance of a managed object type. The definition of a related set of managed (72)types is contained in a Management Information Base (MIB)module. Many such MIB modules are defined. For each managed object type it describes, a MIB (73) defines not only the semantics and syntax of that managed object type, but also the method of identifying an individual instance so that multiple (74) of the same managed object type can be distinguished. Typically, there are many instances of each managed object (75) within a management domainA.rotation B.switchC.management D.transmission
A management domain typically contains a large amount of management information. Each individual item of(71) information is an instance of a managed object type. The definition of a related set of managed (72)types is contained in a Management Information Base (MIB)module. Many such MIB modules are defined. For each managed object type it describes, a MIB (73) defines not only the semantics and syntax of that managed object type, but also the method of identifying an individual instance so that multiple (74) of the same managed object type can be distinguished. Typically, there are many instances of each managed object () within a management domainA.device B.state C.type D.packet
A management domain typically contains a large amount of management information. Each individual item of(71) information is an instance of a managed object type. The definition of a related set of managed (72)types is contained in a Management Information Base (MIB)module. Many such MIB modules are defined. For each managed object type it describes, a MIB () defines not only the semantics and syntax of that managed object type, but also the method of identifying an individual instance so that multiple (74) of the same managed object type can be distinguished. Typically, there are many instances of each managed object (75) within a management domainA.connectionB.windowC.module D.destination