Which action would solve this problem?
You have a strict-high queue configured. You notice that under bursty traffic conditions, there are tail drops on
the strict-high queue.Which action would solve this problem?
Which two statements are true regarding the CSPF algorithm?
Which two statements are true regarding the CSPF algorithm? (Choose two.)
which two statements are true?
You work for a service provider and need to build EVPN service which provides an active/active multihoming
topology using a single CE at each site.
In this scenario, which two statements are true? (Choose two.)
What will R1 use for this route’s protocol next hop whe…
Which two actions will accomplish this task?
A PE provides VLAN VPLS service to a CE attached with two links. You want to prevent Layer 2 loops and
provide link redundancy.
Which two actions will accomplish this task? (Choose two.)
Which two actions would you perform to accomplish this task?
Which action must you perform on your OSPF router to so…
You are connecting your OSPF router to your customer’s RIP router and redistributing the customer’s routes
into your OSPF domain. Your OSPF routes is part of an NSSA and the ABR is injecting an OSPF default route,
which you have advertised to your customer. After committing the configuration, you notice a routing loop
between your OSPF router and the customer’s RIP router.
Which action must you perform on your OSPF router to solve this problem?
what happens to the traffic that is being placed in the…
You are working with a new MPLS network that is using the default EXP classifier and default schedules. A
small amount of traffic is being placed in the assured forwarding class. No other traffic is passing through the
network at this time.
In this scenario, what happens to the traffic that is being placed in the assured forwarding class?
Which OSPFv3 router ID is valid?
Which OSPFv3 router ID is valid?
Which two statements are true about the OSPF adjacency …
Click the Exhibit button.
user@R1> show ospf interface detail
Interface State Area DR ID BDR ID Nbcs
xe-0/0/1.0 BDR 0.0.0.0 2.169.37.12 11.244.245.215 1
Type LAN, address 192.161.27.11, Mask 255.255.255.248, MTU 4460, Cost 40
DR addr 192.161.37.12, BDR addr 192.168.37.11, Adj count 1, Priority 128
Hello 10, Dead 40, ReXmit 5, Not Stub
fe-0/2/1.0 PtToPt 0.0.0.0 0.0.0.0 0.0.0.0
Type P2P, Address 0.0.0.0, Mask 0.0.0.0, MTU 1500, Cost 2604
Adj count 0
Hello 10, Dead 40, ReXmit 5, Not stub
Auth type: MDS, Active key ID 3, Start time 2013 Jul 19 10:00:00 PST
IPsec SA Name: sa
user@R2> show ospf interface detail
Interface State Area DR ID BDR ID Nbcs
xe-1/1/1.0 BDR 0.0.0.0 192.168.37.12 11.244.245.216 1
Type LAN, address 192.161.27.12, Mask 255.255.255.248, MTU 4460, Cost 40
DR addr 192.161.37.12, BDR addr 192.168.37.11, Adj count 1, Priority 128
Hello 3, Dead 9, ReXmit 5, Not stub
fe-2/2/2.0 PtToPt 0.0.0.0 0.0.0.0 0.0.0.0
Type P2P, address 0.0.0.0, Mask 0.0.0.0, MTU 1500, Cost 2604
Adj count 0
Hello 10, Dead 40, ReXmit 5, Not Stub
Auth type: MDS, Active key ID 3, Start time 2013 Jul 19 10:00:00 PST
IPsec SA Name: sa
Which two statements are true about the OSPF adjacency displayed in the exhibit? (Choose two.)