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NEW QUESTION: 1
Consider the above trigger intended to assign the Account to the manager of the Account''s region. Which two changes should a developer make in this trigger to adhere to best practices? Choose 2 answers
A. Move the Region__c query to outside the loop.
B. Use a Map accountMap instead of List accountList.
C. Use a Map to cache the results of the Region__c query by Id.
D. Remove the last line updating accountList as it is not needed.
Answer: A,D
NEW QUESTION: 2
On the basis of the exhibit provided, assuming that EIGRP is the routing protocol, then at R5, what would be the status of each path to 172.30.1.0/24?
A. the path through R1 would be the successor, the path through R3 would be a feasible successor, and the path through R4 would be neither a successor nor feasible successor
B. not enough information has been given to figure out what the status of each route would be
C. the path through R3 would be the successor, and the paths through R1 and R4 would be feasible successors
D. the path through R3 would be the successor, the path through R1 would be a feasible successor, and the path through R4 would be neither a successor nor a feasible successor
Answer: D
Explanation:
I duplicated this information from within GNS3 and I received the following results
R5#show ip route
Codes: C - connected, S - static, R - RIP, M - mobile, B - BGP
D - EIGRP, EX - EIGRP external, O - OSPF, IA - OSPF inter area
N1 - OSPF NSSA external type 1, N2 - OSPF NSSA external type 2
E1 - OSPF external type 1, E2 - OSPF external type 2
i - IS-IS, su - IS-IS summary, L1 - IS-IS level-1, L2 - IS-IS level-2
ia - IS-IS inter area, * - candidate default, U - per-user static route
o - ODR, P - periodic downloaded static route
Gateway of last resort is not set
1.0.0.0/32 is subnetted, 1 subnets
D 1.1.1.1 [90/25735680] via 10.1.35.1, 00:03:53, FastEthernet0/0
2.0.0.0/32 is subnetted, 1 subnets
D 2.2.2.2 [90/25733120] via 10.1.35.1, 00:03:58, FastEthernet0/0
4.0.0.0/32 is subnetted, 1 subnets
D 4.4.4.4 [90/25743360] via 10.1.35.1, 00:03:53, FastEthernet0/0
5.0.0.0/32 is subnetted, 1 subnets
C 5.5.5.5 is directly connected, Loopback0
172.30.0.0/24 is subnetted, 1 subnets
D 172.30.0.0 [90/25610240] via 10.1.35.1, 00:03:53, FastEthernet0/0
10.0.0.0/30 is subnetted, 6 subnets
C 10.1.15.0 is directly connected, FastEthernet1/0
D 10.1.14.0 [90/25615360] via 10.1.35.1, 00:03:55, FastEthernet0/0
D 10.1.12.0 [90/25607680] via 10.1.35.1, 00:04:03, FastEthernet0/0
D 10.1.23.0 [90/25605120] via 10.1.35.1, 00:04:03, FastEthernet0/0
C 10.1.45.0 is directly connected, FastEthernet0/1
C 10.1.35.0 is directly connected, FastEthernet0/0
R5#show ip eigrp top
IP-EIGRP Topology Table for AS(100)/ID(5.5.5.5)
Codes: P - Passive, A - Active, U - Update, Q - Query, R - Reply,
r - reply Status, s - sia Status
P 1.1.1.1/32, 1 successors, FD is 25735680
via 10.1.35.1 (25735680/25733120), FastEthernet0/0
via 10.1.15.1 (25753600/128256), FastEthernet1/0
P 2.2.2.2/32, 1 successors, FD is 25733120
via 10.1.35.1 (25733120/25730560), FastEthernet0/0 via 10.1.15.1 (25756160/25730560), FastEthernet1/0 P 4.4.4.4/32, 1 successors, FD is 25743360 via 10.1.35.1 (25743360/25740800), FastEthernet0/0 via 10.1.45.1 (25753600/128256), FastEthernet0/1 via 10.1.15.1 (25761280/25735680), FastEthernet1/0 P 5.5.5.5/32, 1 successors, FD is 128256 via Connected, Loopback0 P 10.1.15.0/30, 1 successors, FD is 25625600 via Connected, FastEthernet1/0 P 10.1.14.0/30, 1 successors, FD is 25615360 via 10.1.35.1 (25615360/25612800), FastEthernet0/0 via 10.1.15.1 (25633280/25607680), FastEthernet1/0 via 10.1.45.1 (25633280/25607680), FastEthernet0/1 P 10.1.12.0/30, 1 successors, FD is 25607680 via 10.1.35.1 (25607680/25605120), FastEthernet0/0 via 10.1.15.1 (25628160/25602560), FastEthernet1/0 P 10.1.23.0/30, 1 successors, FD is 25605120 via 10.1.35.1 (25605120/25602560), FastEthernet0/0 P 10.1.45.0/30, 1 successors, FD is 25625600 via Connected, FastEthernet0/1 P 10.1.35.0/30, 1 successors, FD is 25602560 via Connected, FastEthernet0/0 P 172.30.0.0/24, 1 successors, FD is 25610240 via 10.1.35.1 (25610240/25607680), FastEthernet0/0 via 10.1.15.1 (25628160/28160), FastEthernet1/0
Relevant portion of R5 Configuration ! hostname R5 ! interface Loopback0 ip address 5.5.5.5 255.255.255.255 ! interface FastEthernet0/0 description ##Connection_To_R3## bandwidth 100 ip address 10.1.35.2 255.255.255.252 delay 10 duplex auto speed auto ! interface FastEthernet0/1 description ##Connection_To_R4## bandwidth 100 ip address 10.1.45.2 255.255.255.252 delay 100 duplex auto speed auto ! interface FastEthernet1/0 description ##Connection_To_R1## bandwidth 100 ip address 10.1.15.2 255.255.255.252 delay 100 duplex auto speed auto ! router eigrp 100 network 5.5.5.5 0.0.0.0 network 10.1.15.0 0.0.0.3 network 10.1.35.0 0.0.0.3 network 10.1.45.0 0.0.0.3 no auto-summary
Successor A successor for a particular destination is a next hop router that satisfies these two conditions: It provides the least distance to that destination It is guaranteed not to be a part of some routing loop
The first condition can be satisfied by comparing metrics from all neighboring routers that advertise that particular destination, increasing the metrics by the cost of the link to that respective neighbor, and selecting the neighbor that yields the least total distance. The second condition can be satisfied by testing a so-called Feasibility Condition for every neighbor advertising that destination. There can be multiple successors for a destination, depending on the actual topology. The successors for a destination are recorded in the topology table and afterwards they are used to populate the routing table as next-hops for that destination.
Feasible Successor
A feasible successor for a particular destination is a next hop router that satisfies this
condition:
It is guaranteed not to be a part of some routing loop
This condition is also verified by testing the Feasibility Condition.
Thus, every successor is also a feasible successor. However, in most references about
EIGRP the term "feasible successor" is used to denote only those routers which provide a
loop-free path but which are not successors (i.e. they do not provide the least distance).
From this point of view, for a reachable destination there is always at least one successor,
however, there might not be any feasible successors.
A feasible successor provides a working route to the same destination, although with a
higher distance. At any time, a router can send a packet to a destination marked "Passive"
through any of its successors or feasible successors without alerting them in the first place,
and this packet will be delivered properly. Feasible successors are also recorded in the
topology table.
The feasible successor effectively provides a backup route in the case that existing
successors die. Also, when performing unequal-cost load-balancing (balancing the network
traffic in inverse proportion to the cost of the routes), the feasible successors are used as
next hops in the routing table for the load-balanced destination.
By default, the total count of successors and feasible successors for a destination stored in
the routing table is limited to four. This limit can be changed in the range from 1 to 6. In
more recent versions of Cisco IOS (e.g.
12.4), this range is between 1 and 16.
EIGRP Composite and Vector metrics
Bandwidth
Minimum Bandwidth (in kilobits per second) along the path from router to destination
network
Load
Load (number in range 1 to 255; 255 being saturated)
Delay
Total Delay (in 10s of microseconds) along the path from router to destination network
Reliability
Reliability (number in range 1 to 255; 255 being the most reliable)
MTU
Minimum path Maximum Transmission Unit (MTU) (never used in the metric calculation)
Hop Count
Number of routers a packet passes through when routing to a remote network, used to limit
the EIGRP AS. The K Values There are five (5) K values used in the Composite metric calculation - K1 through K5. The K values only act as multipliers or modifiers in the composite metric calculation. K1 is not equal to Bandwidth, etc. By default, only total delay and minimum bandwidth are considered when EIGRP is started on a router, but an administrator can enable or disable all the K values as needed to consider the other Vector metrics.
Reference http://en.wikipedia.org/wiki/EIGRP#Successor
NEW QUESTION: 3
Scenario:
A. Option B
B. Option C
C. Option D
D. Option F
E. Option A
F. Option E
Answer: C
Explanation:
Here we see from the running configuration of R6 that distribute list 64 is being used in the outbound direction to all OSPF neighbors.
However, no packets will match the 6.6.0.0 in this access list because the first line blocks all 6.0.0.0 networks, and since the 6.6.0.0 networks will also match the first line of this ACL, these OSPF networks will not be advertised because they are first denied in the first line of the ACL.
Topic 6, Ticket 1: Switch Port Trunk
Topology Overview (Actual Troubleshooting lab design is for below network design)
Client Should have IP 10.2.1.3
EIGRP 100 is running between switch DSW1 & DSW2
OSPF (Process ID 1) is running between R1, R2, R3, R4
Network of OSPF is redistributed in EIGRP
BGP 65001 is configured on R1 with Webserver cloud AS 65002
HSRP is running between DSW1 & DSW2 Switches
------
The company has created the test bed shown in the layer 2 and layer 3 topology exhibits.
This network consists of four routers, two layer 3 switches and two layer 2 switches.
In the IPv4 layer 3 topology, R1, R2, R3, and R4 are running OSPF with an OSPF process
number 1.
DSW1, DSW2 and R4 are running EIGRP with an AS of 10. Redistribution is enabled
where necessary.
R1 is running a BGP AS with a number of 65001. This AS has an eBGP connection to AS
65002 in the ISP's network. Because the company's address space is in the private range.
R1 is also providing NAT translations between the inside (10.1.0.0/16 & 10.2.0.0/16)
networks and outside (209.65.0.0/24) network.
ASW1 and ASW2 are layer 2 switches.
NTP is enabled on all devices with 209.65.200.226 serving as the master clock source.
The client workstations receive their IP address and default gateway via R4's DHCP
server.
The default gateway address of 10.2.1.254 is the IP address of HSRP group 10 which is
running on DSW1 and DSW2.
In the IPv6 layer 3 topology R1, R2, and R3 are running OSPFv3 with an OSPF process
number 6.
DSW1, DSW2 and R4 are running RIPng process name RIP_ZONE.
The two IPv6 routing domains, OSPF 6 and RIPng are connected via GRE tunnel running
over the underlying IPv4 OSPF domain. Redistrution is enabled where necessary.
Recently the implementation group has been using the test bed to do a 'proof-of-concept'
on several implementations. This involved changing the configuration on one or more of the
devices. You will be presented with a series of trouble tickets related to issues introduced
during these configurations.
Note: Although trouble tickets have many similar fault indications, each ticket has its own
issue and solution.
Each ticket has 3 sub questions that need to be answered & topology remains same.
Question-1 Fault is found on which device,
Question-2 Fault condition is related to,
Question-3 What exact problem is seen & what needs to be done for solution
Client is unable to ping IP 209.65.200.241
Solution
Steps need to follow as below:- When we check on client 1 & Client 2 desktop we are not receiving DHCP address from R4
Ipconfig ----- Client will be getting 169.X.X.X
- On ASW1 port Fa1/0/ 1 & Fa1/0/2 access port VLAN 10 was assigned which is using IP address 10.2.1.0/24
Sh run ------- & check for running config of int fa1/0/1 & fa1/0/2 ==================================================== interface FastEthernet1/0/1switchport mode accessswitchport access vlan 10interface FastEthernet1/0/2switchport mode accessswitchport access vlan 10 ====================================================
- We need to check on ASW 1 trunk port the trunk Po13 & Po23 were receiving VLAN 20 & 200 but not VLAN 10 so that switch could not get DHCP IP address and was failing to reach IP address of Internet
- Change required: On ASW1 below change is required for switch-to-switch
connectivity.. int range portchannel13,portchannel23 switchport trunk allowed vlan none switchport trunk allowed vlan 10,200
NEW QUESTION: 4
Research on the common characteristics of leaders of global firms found that:
A. Having traveled extensively before entering the working world was relatively uncommon.
B. Being multilingual was unimportant.
C. Ambition and relentless drive were more significant than honesty and trustworthiness.
D. The leaders tended to have multidisciplinary problem solving ability.
Answer: D
Explanation:
A common characteristic of successful leaders of global firms is that they have effective problem- solving skills that draw from a multidisciplinary approach. The best candidates have varied backgrounds and can draw on a multitude of life experiences. They also tend to be flexible and adaptable, have good interpersonal skills, and communicate successfully.