A. eBGP Multipath
B. eBGP Multihop
C. BGP Synchronization
D. Public AS numbers
第1题:
Enterprise Router R1, in ASN 1, connects to ISP Router I1, ASN 2, using eBGP. There are two parallel serial links between the two rou ters. The implementation plan calls for each router to base their BGP TCP connection on their respective loopback1 interfaces, with IP addresses 1.1.1.1 and 2.2.2.2, respectively. Which of the following commands would not be part of a working eBGP confi guration on Router R1?()
第2题:
When BGP is used as the PE-CE routing protocol, which of these statements is correct?()
第3题:
You want to configure a single EBGP peering session over parallel physical circuits. Which BGP feature enables load balancing in this scenario?()
第4题:
Which two statements are correct regarding Flex Links? ()
第5题:
What two choices can you make when redundancy is required from a branch office to a regional office? ()
第6题:
multihop BGP
multicast BGP
route reflection
multiprotocol BGP
第7题:
router bgp 1
neighbor 2.2.2.2 remote- as 2
neighbor 2.2.2.2 update - source loopback1
neighbor 2.2.2.2 multihop 2
第8题:
router bgp 2
router bgp 1
neighbor 10.1 .1.2 remote - as 2
neighbor 10.1.1.2 Update - source 10.1.1.1
neighbor 10.1.1.2 Update- source S0/0
第9题:
On the CE router, PE neighbors must be configured in the VRF context on the CE router
On PE routers, the CE IBGP neighbors are configured in the global BGP configuration
On PE routers, the CE EBGP neighbors are configured in the VRF context
A separate BGP process must be used on the PE routers for CE routers so that they do not use the same BGP routing process as that used for the PE router's other provider neighbors
第10题:
multihop BGP
multicast BGP
route reflection
multiprotocol BGP
confederation BGP
第11题:
nothing,BGP automatically load-balances the traffic between different autonomous systems on all available links
peer between the eBGP speaker’s loopbacks, configuring eBGP multihop as required, and use an IGP to load-share between the two equal-cost paths between the loopback addresses
configure a loopback as update source for both EBGP peers and have on each AS an IGP to introduce two equal-cost paths to reach the EBGP peer loopback address;it is also necessary to use the next-hop-self command
use the ebgp-load-balance command on the neighbor statement on both sides
configure a loopback as update source for both EBGP peers and have on each AS an IGP to introduce two equal-cost paths to reach the peer loopback address;it is also necessary to use the ebgp-multihop and next-hop-self commands
第12题:
eBGP Multipath
eBGP Multihop
BGP Synchronization
Public AS numbers
第13题:
Which BGP option i s required when load sharing over multiple equal - bandwidth parallel links from a single CE router to a single ISP router over eBGP?()
第14题:
What two choices can you make when redundancy is required from a branch office to a regional office?()
第15题:
You need to decide on the best router redundancy protocol to use in the Company network. Which two statements are true about HSRP, VRRP, and GLBP?()
第16题:
Which three statements about the route target (RT) are true? ()
第17题:
What is the first step in BGP route selection?()
第18题:
An interface can only belong to single Flex Links.
An interface can belong to multiple Flex Links.
Flex Links operate only over single pairs of links.
Flex Links automatically disable STP so no BPDUs are propagated.
第19题:
multihop BGP
multicast BGP
route reflection
multiprotocol BGP
第20题:
all BGP peers
all IBGP peers
all EBGP peers
all MBGP peers
第21题:
profile
domain map
DHCP server
RADIUS server
第22题:
Configuring the neighbor weight command on Ent1.
Having the ISPs configure the neighbor route - map out command on ISP1 and ISP2, with the route map setting weight.
Configuring the set weight command inside a route map on Router Ent1.
Configuring a prefix list to match all class C networks.
第23题:
The local router prefers the route with the shortest AS Path.
The local router verifies that it has a route to the BGP Next Hop IP address.
The local router prefers the route from the peer with the lowest peer ID address.
The local router prefers the route learned from an EBGP peer over a route learned from an IBGP peer.