cisco 300-101 route training program

cisco 300-101 route training program is available for the candidates to prepare the test. Share some 300-101 route questions and answers below.

Which three conditions can cause BGP neighbor establishment to fail? (Select three)
A. There is an access list blocking all TCP traffic between the two BGP neighbors.
B. The EBGP neighbor is not directly connected, and the ebgp-multi-hop option is set to the default valu
C. The IBGP neighbor is not directly connected.
D. BGP synchronization is enabled in a Transit AS with fully-meshed IBGP neighbors.
E. The BGP update interval is different between the two BGP neighbors.
F. The BGP neighbor is referencing an incorrect AS number in its neighbor statement.
Answer: A,B,F

cisco 300-101 route training program, 300-101 route exam, 300-101 route test

Which three of the statements below correctly describe the characteristics of Autonomous Systems in routed networks? (Select three)
A. Within an AS, all routers must run either BGP or IBGP.
B. An AS uses exterior gateway protocols (EGPs) to exchange information with other autonomous systems.
C. An AS is a group of routers under the same technical administration.
D. Within an AS, routes learned through BGP can be redistributed using interior gateway protocols.
E. Within an AS, routes learned through an interior protocol cannot be redistributed using BGP to other autonomous systems.
Answer: B,C,D

What are the two reasons for the appearance of 0.0.0.0 as the next hop for a network when using the “show ip bgp” command? (Choose two)
A. The network was originated via redistribution of an interior gateway protocol into BGP.
B. The network was defined by a static route.
C. The network was learned via IBGP.
D. The network was learned via EBGP.
E. The network was originated via a network or aggregate command.
Answer: A,E

What are two rules for compacting IPv6 addresses? (Choose two.)
A. Every 16-bit segment segment that consists of all zeroes can be represented with a single colon.
B. The trailing zeroes in any 16-bit segment do not have to be written.
C. The leading zeroes in any 16-bit segment do not have to be written.
D. Any single, continuous string of one or more 16-bit segments that consists of all zeroes can be represented with a double colon.
E. The maximum number of times a double colon can replace a 16-bit segment that consists of all zeroes is two.
F. Two zeroes in the middle of any 16-bit segment do not have to be written.
Answer: C,D

Practice cisco 300-101 route training program online here. 

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300-101 ROUTE Implementing Cisco IP Routing

Implementing Cisco IP Routing (ROUTE 300-101) is a qualifying exam for the Cisco CCNP Routing and Switching and CCDP certifications. The ROUTE 300-101 exam certifies the routing knowledge and skills of successful candidates. They are certified in using advanced IP addressing and routing in implementing scalable and highly secure Cisco routers that are connected to LANs, WANs, and IPv6.The exam also covers the configuration of highly secure routing solutions to support branch offices and mobile workers.

Exam Topics:

10% 1.0 Network Principles

1.1 Identify Cisco Express Forwarding concepts
1.1.a FIB
1.1.b Adjacency table
1.2 Explain general network challenges
1.2.a Unicast
1.2.b Out-of-order packets
1.2.c Asymmetric routing
1.3 Describe IP operations
1.3.a ICMP Unreachable and Redirects
1.3.b IPv4 and IPv6 fragmentation
1.3.c TTL
1.4 Explain TCP operations
1.4.a IPv4 and IPv6 (P)MTU
1.4.b MSS
1.4.c Latency
1.4.d Windowing
1.4.e Bandwidth-delay product
1.4.f Global synchronization
1.5 Describe UDP operations
1.5.a Starvation
1.5.b Latency
1.6 Recognize proposed changes to the network
1.6.a Changes to routing protocol parameters
1.6.b Migrate parts of the network to IPv6
1.6.c Routing protocol migration

10% 2.0 Layer 2 Technologies

2.1 Configure and verify PPP
2.1.a Authentication (PAP, CHAP)
2.1.b PPPoE (client side only)
2.2 Explain Frame Relay
2.2.a Operations
2.2.b Point-to-point
2.3.c Multipoint

40% 3.0 Layer 3 Technologies

3.1 Identify, configure, and verify IPv4 addressing and subnetting
3.1.a Address types (Unicast, broadcast, multicast, and VLSM)
3.1.b ARP
3.1.c DHCP relay and server
3.1.d DHCP protocol operations
3.2 Identify IPv6 addressing and subnetting
3.2.a Unicast
3.2.b EUI-64
3.2.c ND, RS/RA
3.2.d Autoconfig (SLAAC)
3.2.e DHCP relay and server
3.2.f DHCP protocol operations
3.3 Configure and verify static routing
3.4 Configure and verify default routing
3.5 Evaluate routing protocol types
3.5.a Distance vector
3.5.b Link state
3.5.c Path vector
3.6 Describe administrative distance
3.7 Troubleshoot passive interfaces
3.8 Configure and verify VRF lite
3.9 Configure and verify filtering with any protocol
3.10 Configure and verify redistribution between any routing protocols or routing sources
3.11 Configure and verify manual and autosummarization with any routing protocol
3.12 Configure and verify policy-based routing
3.13 dentify suboptimal routing
3.14 Explain ROUTE maps
3.15 Configure and verify loop prevention mechanisms
3.15.a Route tagging and filtering
3.15.b Split-horizon
3.15.c Route poisoning
3.16 Configure and verify RIPv2
3.17 Describe RIPng
3.18 Describe EIGRP packet types
3.19 Configure and verify EIGRP neighbor relationship and authentication
3.20 Configure and verify EIGRP stubs
3.21 Configure and verify EIGRP load balancing
3.21.a Equal cost
3.21.b Unequal cost
3.22 Describe and optimize EIGRP metrics
3.23 Configure and verify EIGRP for IPv6
3.24 Describe OSPF packet types
3.25 Configure and verify OSPF neighbor relationship and authentication
3.26 Configure and verify network types, area types, and router types
3.26.a Point-to-point, multipoint, broadcast, nonbroadcast
3.26.b LSA types, area type: backbone, normal, transit, stub, NSSA, totally stub
3.26.c Internal router, backbone router, ABR, ASBR
3.26.d Virtual link
3.27 Configure and verify OSPF path preference
3.28 Configure and verify OSPF operations
3.29 Configure and verify OSPF for IPv6
3.30 Describe, configure, and verify BGP peer relationships and authentication
3.30.a Peer group
3.30.b Active, passive
3.30.c States and timers
3.31 3.31 Configure and verify eBGP (IPv4 and IPv6 address families)
3.31.a 3.31.a eBGP
3.31.b 3.31.b 4-byte AS number/p>
3.31.c 3.31.c Private AS

3.32 Explain BGP attributes and best-path selection

10% 4.0 VPN Technologies

4.1 Configure and verify GRE
4.2 Describe DMVPN (single hub)
4.3 Describe Easy Virtual Networking (EVN)

10% 5.0 Infrastructure Security

5.1 Describe IOS AAA using local database
5.2 Describe device security using IOS AAA with TACACS+ and RADIUS
5.2.a AA with TACACS+ and RADIUS
5.2.b Local privilege authorization fallback
5.3 Configure and verify device access control
5.3.a Lines (VTY, AUX, console)
5.3.b Management plane protection
5.3.c Password encryption
5.4 Configure and verify router security features
5.4.a IPv4 access control lists (standard, extended, time-based)
5.4.b IPv6 traffic filter
5.4.c Unicast reverse path forwarding

20% 6.0 Infrastructure Services

6.1 Configure and verify device management
6.1.a Console and VTY
6.1.b Telnet, HTTP, HTTPS, SSH, SCP
6.1.c (T)FTP
6.2 Configure and verify SNMP
6.2.a V2
6.2.b V3
6.3 Configure and verify logging
6.3.a Local logging, syslog, debugs, conditional debugs
6.3.b Timestamps
6.4 Configure and verify Network Time Protocol (NTP)
6.4.a NTP master, client, version 3, version 4
6.4.b NTP authentication
6.5 Configure and verify IPv4 and IPv6 DHCP
6.5.a DHCP client, IOS DHCP server, DHCP relay
6.5.b DHCP options (describe)
6.6 Configure and verify IPv4 Network Address Translation (NAT)
6.6.a Static NAT, dynamic NAT, PAT
6.7 Describe IPv6 NAT
6.7.a NAT64
6.7.b NPTv6
6.8 Describe SLA architecture
6.9 Configure and verify IP SLA
6.9.a ICMP
6.10 Configure and verify tracking objects
6.10.a Tracking objects
6.10.b Tracking different entities (for example, interfaces, IPSLA results)
6.11 Configure and verify Cisco NetFlow
6.11.a NetFlow v5, v9
6.11.b Local retrieval
6.11.c Export (configuration only)

Exam Note: 300-101 ROUTE is new exam instead of 642-902 ROUTE, which begins January 30, 2015.


300-101 ROUTE Online Test-Implementing Cisco IP Routing

At present, Our 300-101 ROUTE online test are the perfect way to brush up your skills, Take our 300-101 ROUTE online test for a run-through of commonly asked questions. You will get incredibly detailed scoring results at the end of your 300-101 ROUTE online test to help you identify your strenghts and weaknesses.

Our 300-101 ROUTE online test only offer 20 questions, it contains single choice and multiple choice,5 points for questions you get correct ,if you answer correctly part of multiple choice, you can get part of 5 points.

Begin to test now !

A company’s corporate policy has been updated to require that stateless, 1-to-1, and IPv6 to IPv6 translations at the Internet edge are performed. What is the best solution to ensure compliance with this new policy?

 
 
 
 
 

Which two functions are completely independent when implementing NAT64 over NAT-PT? (Choose two.)

 
 
 
 
 

When using SNMPv3 with NoAuthNoPriv, which string is matched for authentication?

 
 
 
 

After a recent DoS attack on a network, senior management asks you to implement better logging functionality on all IOS-based devices. Which two actions can you take to provide enhanced logging results? (Choose two.)

 
 
 
 
 

A network engineer finds that a core router has crashed without warning. In this situation, which feature can the engineer use to create a crash collection?

 
 
 
 
 

A network engineer is trying to implement broadcast-based NTP in a network and executes the ntp broadcast client command. Assuming that an NTP server is already set up, what is the result of the command?

 
 
 
 

What is a function of NPTv6?

 
 
 
 

IPv6 has just been deployed to all of the hosts within a network, but not to the servers. Which feature allows IPv6 devices to communicate with IPv4 servers?

 
 
 
 
 

A network engineer initiates the ip sla responder tcp-connect command in order to gather statistics for performance gauging. Which type of statistics does the engineer see?

 
 
 
 

A network engineer executes the “ipv6 flowset” command. What is the result?

 
 
 
 

A network engineer executes the show ip flow export command. Which line in the output indicates that the send queue is full and export packets are not being sent?

 
 
 
 

A network engineer is asked to configure a “site-to-site” IPsec VPN tunnel. One of the last things that the engineer does is to configure an access list (access-list 1 permit any) along with the command ip nat inside source list 1 int s0/0 overload. Which functions do the two commands serve in this scenario?

 
 
 
 

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 network engineer is notified that several employees are experiencing network performance related issues, and bandwidth-intensive applications are identified as the root cause. In order to identify which specific type of traffic is causing this slowness, information such as the source/destination IP and Layer 4 port numbers is required. Which feature should the engineer use to gather the required information?

 
 
 
 
 

An organization decides to implement NetFlow on its network to monitor the fluctuation of traffic that is disrupting core services. After reviewing the output of NetFlow, the network engineer is unable to see OUT traffic on the interfaces. What can you determine based on this information?

 
 
 
 

A network engineer has left a NetFlow capture enabled over the weekend to gather information regarding excessive bandwidth utilization. The following command is entered:
switch#show flow exporter Flow_Exporter-1
What is the expected output?

 
 
 
 

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

 
 
 
 
 
 
 

Which NetFlow component is applied to an interface and collects information about flows?

 
 
 
 

Refer to the exhibit.
Which statement about the output of the show flow-sampler command is true?

 
 
 
 

What is the result of the command ip flow-export destination 10.10.10.1 5858?

 
 
 
 

Question 1 of 20

 

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