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2017 Mar 300-101 download

Q11. You have been asked to evaluate how EIGRP is functioning in a customer network. 

Traffic from R1 to R61 s Loopback address is load shared between R1-R2-R4-R6 and R1-R3-R5-R6 paths. What is the ratio of traffic over each path? 

A. 1:1 

B. 1:5 

C. 6:8 

D. 19:80 

Answer:

Explanation: 


Q12. Refer to the exhibit. 

Which statement about the output of the show flow-sampler command is true? 

A. The sampler matched 10 packets, each packet randomly chosen from every group of 100 packets. 

B. The sampler matched 10 packets, one packet every 100 packets. 

C. The sampler matched 10 packets, each one randomly chosen from every 100-second interval. 

D. The sampler matched 10 packets, one packet every 100 seconds. 

Answer:

Explanation: 

The sampling mode determines the algorithm that selects a subset of traffic for NetFlow

processing. In the random sampling mode that Random Sampled NetFlow uses, incoming packets are

randomly selected so that one out of each n sequential packets is selected on average for NetFlow

processing. For example, if you set the sampling rate to 1 out of 100 packets, then NetFlow might sample

the 5th, 120th, 199th, 302nd, and so on packets. This sample configuration provides NetFlow data on 1

percent of total traffic. The n value is a parameter from 1 to 65535 packets that you can configure. Table 2

show flow-sampler Field Descriptions Field Description Sampler Name of the flow sampler id Unique ID of

the flow sampler packets matched Number of packets matched for the flow sampler mode Flow sampling

mode sampling interval is Flow sampling interval (in packets) Reference: http://www.cisco.com/c/en/us/td/

docs/ios/12_0s/feature/guide/nfstatsa.html#wp1084291


Q13. Refer to the exhibit. 

A network administrator checks this adjacency table on a router. What is a possible cause for the incomplete marking? 

A. incomplete ARP information 

B. incorrect ACL 

C. dynamic routing protocol failure 

D. serial link congestion 

Answer:

Explanation: 

To display information about the Cisco Express Forwarding adjacency table or the hardware Layer 3-

switching adjacency table, use the show adjacency command.

Reasons for Incomplete Adjacencies

There are two known reasons for an incomplete adjacency:

The router cannot use ARP successfully for the next-hop interface.

After a clear ip arp or a clear adjacency command, the router marks the adjacency as incomplete. Then it

fails to clear the entry.

In an MPLS environment, IP CEF should be enabeled for Label Switching. Interface level command ip

route-cache cef No ARP Entry When CEF cannot locate a valid adjacency for a destination prefix, it punts

the packets to the CPU for ARP resolution and, in turn, for completion of the adjacency.

Reference: http://www.cisco.com/c/en/us/support/docs/ip/express-forwarding-cef/17812-cefincomp.

html#t4


Q14. Scenario: 

You have been asked to evaluate an OSPF network setup in a test lab and to answer questions a customer has about its operation. The customer has disabled your access to the show running-config command. 

How many times was SPF algorithm executed on R4 for Area 1? 

A. 1 

B. 5 

C. 9 

D. 20 

E. 54 

F. 224 

Answer:

Explanation: 


Q15. A network administrator executes the command clear ip route. Which two tables does this command clear and rebuild? (Choose two.) 

A. IP routing 

B. FIB 

C. ARP cache 

D. MAC address table 

E. Cisco Express Forwarding table 

F. topology table 

Answer: A,B 

Explanation: 

To clear one or more entries in the IP routing table, use the following commands in any mode:

Command Purpose

clear ip route {* |

Clears one or more routes from both the

{route |

unicast RIB and all the module FIBs. The

prefix/length}[next-hop route options are as follows:

interface]}

· *--All routes.

[vrf vrf-name]

Example:

· route--An individual IP route.

switch(config)# clear ip

· prefix/length--Any IP prefix.

route

10.2.2.2 · next-hop--The next-hop address · interface--The interface to reach the next-hop address.

The vrf-name can be any case-sensitive, al-phanumeric string up to 32 characters.

Reference:

http://www.cisco.com/c/en/us/td/docs/switches/datacenter/nexus5000/sw/unicast/5_0_3_N1_1/Ci

sco_n5k_layer3_ucast_cfg_rel_503_N1_1/l3_manage-routes.html


Up to the minute 300-101 exam fees:

Q16. Which encapsulation supports an interface that is configured for an EVN trunk? 

A. 802.1Q 

B. ISL 

C. PPP 

D. Frame Relay 

E. MPLS 

F. HDLC 

Answer:

Explanation: 

Restrictions for EVN

An EVN trunk is allowed on any interface that supports 802.1q encapsulation, such as Fast Ethernet,

Gigabit Ethernet, and port channels.

A single IP infrastructure can be virtualized to provide up to 32 virtual networks end-to-end.

If an EVN trunk is configured on an interface, you cannot configure VRF-Lite on the same interface.

OSPFv3 is not supported; OSPFv2 is supported.

Reference: 

http://www.cisco.com/c/en/us/td/docs/ios-xml/ios/evn/configuration/xe-3s/evn-xe-3s- book/evnoverview.Pdf


Q17. Scenario: 

You have been asked to evaluate an OSPF network setup in a test lab and to answer questions a customer has about its operation. The customer has disabled your access to the show running-config command. 

Which of the following statements is true about the serial links that terminate in R3 

A. The R1-R3 link needs the neighbor command for the adjacency to stay up 

B. The R2-R3 link OSPF timer values are 30, 120, 120 

C. The R1-R3 link OSPF timer values should be 10,40,40 

D. R3 is responsible for flooding LSUs to all the routers on the network. 

Answer:

Explanation: 


Q18. Which two methods of deployment can you use when implementing NAT64? (Choose two.) 

A. stateless 

B. stateful 

C. manual 

D. automatic 

E. static 

F. functional 

G. dynamic 

Answer: A,B 

Explanation: 

While stateful and stateless NAT64 perform the task of translating IPv4 packets into IPv6 packets and vice

versa, there are important differences. The following

table provides a high-level overview of the most relevant differences.

Table 2. Differences Between Stateless NAT64 and Stateful NAT64

Stateless NAT64 Stateful NAT64

1:1 translation 1:N translation

No conservation of IPv4 address Conserves IPv4 address

Assures end-to-end address Uses address overloading, hence transparency and scalability lacks in endto-

end address transparency

No state or bindings created on the State or bindings are created on every translation unique translation

Requires IPv4-translatable IPv6 No requirement on the nature of IPv6 addresses assignment (mandatory

address assignment requirement)

Requires either manual or DHCPv6 Free to choose any mode of IPv6 based address assignment for IPv6

address assignment viz. Manual, hosts DHCPv6, SLAAC Reference: http://www.cisco.com/c/en/us/

products/collateral/ios-nx-os-software/enterprise-ipv6- solution/white_paper_c11-676277.html


Q19. A network engineer is configuring a solution to allow failover of HSRP nodes during maintenance windows, as an alternative to powering down the active router and letting the network respond accordingly. Which action will allow for manual switching of HSRP nodes? 

A. Track the up/down state of a loopback interface and shut down this interface during maintenance. 

B. Adjust the HSRP priority without the use of preemption. 

C. Disable and enable all active interfaces on the active HSRP node. 

D. Enable HSRPv2 under global configuration, which allows for maintenance mode. 

Answer:

Explanation: 

The standby track command allows you to specify another interface on the router for the

HSRP process to monitor in order to alter the HSRP priority for a given group. If the line protocol of the

specified interface goes down, the HSRP priority is reduced. This means that another HSRP router with

higher priority can become the active router if that router has standby preempt enabled. Loopback

interfaces can be tracked, so when this interface is shut down the HSRP priority for that router will be

lowered and the other HSRP router will then become the active one. Reference: http://www.cisco.com/c/

en/us/support/docs/ip/hot-standby-router-protocol- hsrp/13780-6.html


Q20. Which three items can you track when you use two time stamps with IP SLAs? (Choose three.) 

A. delay 

B. jitter 

C. packet loss 

D. load 

E. throughput 

F. path 

Answer: A,B,C