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QUESTION NO:9
Which two are effects of connecting a network segment that is running 802.1D to a network
segment that is running 802.1w? (Choose two.)
A. The entire network switches to 802.1D and generates BPDUs to determine root bridge status. B.
A migration delay of three seconds occurs when the port that is connected to the 802.1D bridge
comes up.
C. The entire network reconverges and a unique root bridge for the 802.1D segment, and a root
bridge for the 802.1w segment, is chosen.
D. The first hop 802.1w switch that is connected to the 802.1D runs entirely in 802.1D compatibility
mode and converts the BPDUs to either 802.1D or 802.1w BPDUs to the 802.1D or 802.1w
segments of the network.
E. Classic 802.1D timers, such as forward delay and max-age, will only be used as a backup, and
will not be necessary if point-to-point links and edge ports are properly identified and set by the
administrator.
Answer: B,E
Explanation:
Each port maintains a variable that defines the protocol to run on the corresponding segment. A
migration delay timer of three seconds also starts when the port comes up. When this timer runs,
the current STP or RSTP mode associated to the port is locked. As soon as the migration delay
expires, the port adapts to the mode that corresponds to the next BPDU it receives. If the port
changes its mode of operation as a result of a BPDU received, the migration delay restarts.
802.1D works by the concept that the protocol had to wait for the network to converge before it
transitioned a port into the forwarding state. With Rapid Spanning Tree it does not have to rely on
any timers, the only variables that that it relies on is edge ports and link types.
Any uplink port that has an alternate port to the root can be directly placed into the forwarding
state (This is the Rapid convergence that you speak of “restored quickly when RSTP is already in
use?”). This is what happened when you disconnected the primary look; the port that was ALT,
moved to FWD immediately, but the switch also still needs to create a BDU with the TC bit set to
notify the rest of the network that a topology has occurred and all non-edge designated ports will
transition to BLK, LRN, and then FWD to ensure there are no loops in the rest of the network. This
is why if you have a host on a switchport, and you know for a fact that it is only one host, enable
portfast to configure the port as an edgeport so that it does not have to transition to all the STP
states.
Reference
http://www.cisco.com/en/US/tech/tk389/tk621/technologies_white_paper09186a0080094cfa.shtml
QUESTION NO:11
When you are troubleshooting duplex mismatches, which two errors are typically seen on the full-
duplex end? (Choose two.)
A. runts
B. FCS errors
C. interface resets
D. late collisions
Answer: A,B
Explanation:
QUESTION NO:12
Which two options are contained in a VTP subset advertisement? (Choose two.)
A. followers field
B. MD5 digest
C. VLAN information
D. sequence number
Answer: C,D
Explanation:
Subset Advertisements
When you add, delete, or change a VLAN in a Catalyst, the server Catalyst where the changes are
made increments the configuration revision and issues a summary advertisement. One or several
subset advertisements follow the summary advertisement. A subset advertisement contains a list
of VLAN information.
If there are several VLANs, more than one subset advertisement can be required in order to
advertise all the VLANs.
Subset Advertisement Packet Format
This formatted example shows that each VLAN information field contains information for a different
VLAN. It is ordered so that lowered-valued ISL VLAN IDs occur first:
Most of the fields in this packet are easy to understand. These are two clarifications:
Code
QUESTION NO:18
Refer to the exhibit.
Which statement is correct about the prefix 160.0.0.0/8?
A. The prefix has encountered a routing loop.
B. The prefix is an aggregate with an as-set.
C. The prefix has been aggregated twice, once in AS 100 and once in AS 200.
D. None of these statements is true.
Answer: B
Explanation:
QUESTION NO:21
Refer to the exhibit.
A packet from RTD with destination RTG, is reaching RTB. What is the path this packet will take
from RTB to reach RTG?
A. RTB – RTA – RTG
B. RTB – RTD – RTC – RTA – RTG
C. RTB – RTF – RTE – RTA – RTG
D. RTB will not be able to reach RTG since the OSPF configuration is wrong.
Answer: C
Explanation:
Latest 400-101 Dumps400-101 Practice Test400-101 Exam Questions
QUESTION NO:25
Refer to the exhibit.
After a link flap in the network, which two EIGRP neighbors will not be queried for alternative
paths? (Choose two.)
A. 192.168.1.1
B. 192.168.3.7
C. 192.168.3.8
D. 192.168.3.6
E. 192.168.2.1
F. 192.168.3.9
Answer: B,C
Explanation:
Explanation
Both 192.168.3.7 and 192.168.3.8 are in an EIGRP Stub area
The Enhanced Interior Gateway Routing Protocol (EIGRP) Stub Routing feature improves network
stability, reduces resource utilization, and simplifies stub router configuration.
Stub routing is commonly used in a hub and spoke network topology. In a hub and spoke network,
one or more end (stub) networks are connected to a remote router (the spoke) that is connected to
one or more distribution routers (the hub). The remote router is adjacent only to one or more
distribution routers. The only route for IP traffic to follow into the remote router is through a
distribution router. This type of configuration is commonly used in WAN topologies where the
distribution router is directly connected to a WAN. The distribution router can be connected to
many more remote routers. Often, the distribution router will be connected to 100 or more remote
routers. In a hub and spoke topology, the remote router must forward all nonlocal traffic to a
distribution router, so it becomes unnecessary for the remote router to hold a complete routing
table. Generally, the distribution router need not send anything more than a default route to the
remote router.
When using the EIGRP Stub Routing feature, you need to configure the distribution and remote
routers to use EIGRP, and to configure only the remote router as a stub. Only specified routes are
propagated from the remote (stub) router. The router responds to queries for summaries,
connected routes, redistributed static routes, external routes, and internal routes with the message
“inaccessible.” A router that is configured as a stub will send a special peer information packet to
all neighboring routers to report its status as a stub router. Any neighbor that receives a packet
informing it of the stub status will not query the stub router for any routes, and a router that has a
stub peer will not query that peer. The stub router will depend on the distribution router to send the
proper updates to all peers.
Reference
http://www.cisco.com/en/US/docs/ios/12_0s/feature/guide/eigrpstb.html#wp1021949
QUESTION NO:35
Which command will define a VRF with name ‘CCIE’ in IPv6?
A. ip vrf CCIE
B. ipv6 vrf CCIE
C. vrf definition CCIE
D. ipv6 vrf definition CCIE
Answer: C
Explanation:
QUESTION NO:40
Which three fields are optional in an OSPFv3 external LSA? (Choose three.)
A. Forwarding Address
B. External Route
C. Reference Link-State ID
D. Option
E. Prefix Options
Answer: A,B,C
Explanation:
AS-External LSA
As with OSPFv2, the AS-External LSA advertises prefixes external to the OSPF routing domain;
one LSA is required for each external prefix advertised. However, the format of the OSPFv3 As-
External LSA (Figure 9-10) is different from its OSPFv2 counterpart.
Figure 9-10. OSPFv3 AS-External LSA
Reference
http://fengnet.com/book/CCIE Professional Development Routing TCPIP Volu
me I/images/09fig10_alt.jpg
QUESTION NO:43
Which two multicast address ranges are assigned as source-specific multicast destination
addresses and are reserved for use by source-specific applications and protocols? (Choose two.)
A. 232.0.0.0/8
B. 239.0.0.0/8
C. 232.0.0.0/4
D. FF3x::/32
E. FF2x::/32
F. FF3x::/16
Answer: A,D
Explanation: Source-specific multicast (SSM) is a method of delivering multicast packets in which
the only packets that are delivered to a receiver are those originating from a specific source
address requested by the receiver. By so limiting the source, SSM reduces demands on the
network and improves security.
SSM requires that the receiver specify the source address and explicitly excludes the use of the (*,
G) join for all multicast groups in RFC 3376, which is possible only in IPv4’s IGMPv3 and IPv6’s
MLDv2.
Source-specific multicast is best understood in contrast to any-source multicast (ASM). In the
ASM service model a receiver expresses interest in traffic to a multicast address. The multicast
network must
1. discover all multicast sources sending to that address, and
2. route data from all sources to all interested receivers.
This behavior is particularly well suited to groupware applications where
1. all participants in the group want to be aware of all other participants, and
2. the list of participants is not known in advance.
The source discovery burden on the network can become significant when the number of sources
is large.
In the SSM service model, in addition to the receiver expressing interest in traffic to a multicast
address, the receiver expresses interest in receiving traffic from only one specific source sending
to that multicast address.
This relieves the network of discovering many multicast sources and reduces the amount of
multicast routing information that the network must maintain.
SSM requires support in last-hop routers and in the receiver’s operating system. SSM support is
not required in other network components, including routers and even the sending host. Interest in
multicast traffic from a specific source is conveyed from hosts to routers using IGMPv3 as
specified in RFC 4607.
SSM destination addresses must be in the ranges 232.0.0.0/8 for IPv4 or FF3x::/96 for IPv6.
Reference
http://en.wikipedia.org/wiki/Source-specific_multicast
QUESTION NO:45
Refer to the exhibit.
What does the incoming interface of the above (*, G) entry indicate?
A. the interface closest to the source, according to the unicast routing table
B. the interface where an IGMP join has been received
C. the interface with the highest IP address
D. the last interface to hear a PIM (*, G) join
E. the interface closest to the RP, according to the unicast routing table
Answer: E
Explanation:
Source Trees
A source tree is the simplest form of distribution tree. The source host of the multicast traffic is
located at the root of the tree, and the receivers are located at the ends of the branches. Multicast
traffic travels from the source host down the tree toward the receivers. The forwarding decision on
which interface a multicast packet should be transmitted out is based on the multicast forwarding
table. This table consists of a series of multicast state entries that are cached in the router. State
entries for a source tree use the notation (S, G) pronounced S comma G. The letters represents
the IP address of the source, and G represents the group address.
Shared Trees
Shared trees differ from source trees in that the root of the tree is a common point somewhere in
the network.
This common point is referred to as the rendezvous point (RP). The RP is the point at which
receivers join to learn of active sources. Multicast sources must transmit their traffic to the RP.
When receivers join a multicast group on a shared tree, the root of the tree is always the RP, and
multicast traffic is transmitted from the RP down toward the receivers. Therefore, the RP acts as a
go-between for the sources and receivers. An RP can be the root for all multicast groups in the
network, or different ranges of multicast groups can be associated with different RPs.
Multicast forwarding entries for a shared tree use the notation (*, G), which is pronounced star
comma G. This is because all sources for a particular group share the same tree. (The multicast
groups go to the same RP.)
Therefore, the * or wildcard represents all sources.
Additional Information from Microsoft
Multicast traffic from source 162.10.4.1 (for example) uses the RPT, meaning the source sends it
to the RP rather than to the multicast group (the router would denote this by having a (*, G) entry
rather than a (S, G) entry). Before sending this traffic, Router 1 checks its unicast routing table to
see if packets from the RP are arriving on the correct interface. In this case they are, because they
arrive on interface I1, and the packets are forwarded.
Reference
http://technet.microsoft.com/en-us/library/bb742462.aspx
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