Three physical interfaces are redundant.
You must define an additional redundancy group.
node 0 will immediately become primary for redundancy group 1.
You must issue an operational command and reboot the system for the above configuration to take effect.
第1题:
A. set apply-groups node$
B. set apply-groups (node)
C. set apply-groups $(node)
D. set apply-groups (node)all
第2题:
A customer has a resource group rg1 configured on a two node cluster with the following policies:The customer has observed the following scenarios as nodes join the cluster during cluster start up. Scenario 1 Node1 joins cluster as first node - rg1 is acquired by Node1 Node2 joins cluster as second node - rg1 ismoved from Node1 to Node2 Scenario 2 Node2 joins cluster as first node - rg1 is acquired by Node2 Node1 joins cluster as second node - rg1 remainson Node2 Which of the following is the reason for this behavior?()
第3题:
Company.com has a three-node cluster (Node ’A’, Node ’B’, and Node ’C’) with three resource Groups (rg1, rg2, and rg3). Node ’A’ has twice as many CPUs and twice as much memory as the two test add development Nodes ’B’ and ’C’. During normal production processing, all resource groups are active on Node ’A’. What is most efficient way to configure the cluster to manage the workload?()
第4题:
You have configured your chassis cluster to include redundancy group 1. Node 0 is configured to be the primary node for this redundancy group. You need to verify that the redundancy group failover is successful.Which command do you use to manually test the failover?()
第5题:
What is the correct syntax for applying node-specific parameters to each node in a chassis cluster?()
第6题:
request chassis cluster manual failover group 1 node 1
request cluster failover redundancy-group 1 node 1
request chassis cluster manual failover redundancy-group 1 node 1
request chassis cluster failover redundancy-group 1 node 1
第7题:
set apply-groups node$
set apply-groups (node)
set apply-groups $(node)
set apply-groups (node)all
第8题:
This section is where you define all chassis clustering configuration.
This configuration is required for members of a chassis cluster to talk to each other.
You can apply this configuration in the chassis cluster to make configuration easier.
This section is where unique node configuration is applied.
第9题:
This section is where you define all chassis clustering configuration.
This configuration is required for members of a chassis cluster to talk to each other.
You can apply this configuration in the chassis cluster to make configuration easier.
This section is where unique node configuration is applied.
第10题:
This section is where you define all chassis clustering configuration.
This configuration is required for members of a chassis cluster to talk to each other.
You can apply this configuration in the chassis cluster to make configuration easier.
This section is where unique node configuration is applied.
第11题:
Use thee cascading resource groups where ’rg1’ and ’rg2’ fallover to Node ’B’ and ’rg3’ falls over to Node ’C’
Use Dynamic Node Priority resource groups with a priority chain consisting of Node ’A’ then Node ’B’ then Node ’C’
Use three rotating resource groups with ’rg1’ and ’rg2’ falling over to node ’B’ and ’rg3’ falling over to Node ’C’
Upgrade Nodes ’B’ and ’C’ to be equal to Node ’A in CPU and memory resources to enable the cluster to synchronize three resource groups
第12题:
rg1 is configured with a delayed fallback timer
Settling time policy has not been configured for rg1
Node1 does not have sufficient resources to support rg1
Node2 is the first in the ’Default Node Priority’ list for resource group rg1
第13题:
A. Three physical interfaces are redundant.
B. You must define an additional Redundancy Group.
C. node 0 will immediately become primary in the cluster.
D. You must issue an operational command and reboot the system for the above configuration to take effect.
第14题:
When applying the configuration in the exhibit and initializing a chassis cluster, which statement is correct?() [edit chassis] user@host# show cluster { reth-count 3; redundancy-group 1 { node 0 priority 1; node 1 priority 100; } }
第15题:
[edit groups] user@host# show node0 { system { host-name NODE0; } interfaces { fxp0 { unit 0 { family inet { address 1.1.1.1/24; } } } } } node1 { system { host-name NODE1; } interfaces { fxp0 { unit 0 { family inet { address 1.1.1.2/24; } } } } } In the exhibit, what is the function of the configuration statements?()
第16题:
In a chassis cluster with two SRX 5800 devices, the interface ge-13/0/0 belongs to which device?()
第17题:
Which command would you use to enable chassis cluster on an SRX device, setting the cluster ID to 1 and node to 0?()
第18题:
Three physical interfaces are redundant.
You must define an additional redundancy group.
node 0 will immediately become primary for redundancy group 1.
You must issue an operational command and reboot the system for the above configuration to take effect.
第19题:
Change the cluster resource group definitions from cascading to rotating,synchronize the cluster,and restart HACMP
Edit the /urs/es/sbin/utilities/clhosts file to reflect he desired node-to-resource group relationships and restart HACMP
Use the clRGMove utility move rg2 o Node ’B’ and rg3 to Node ’C’,then start the cluster manager on Nodes ’B’ and ’C’ with the clstart utility
Disable Inactive Node Takeover,check the node priority list in the resource groups definitions,synchronize the cluster,and start HACMP on Nodes ’B’ and ’C’
第20题:
This interface is a system-created interface.
This interface belongs to node 0 of the cluster.
This interface belongs to node 1 of the cluster.
This interface will not exist because SRX 5800 devices have only 12 slots.
第21题:
user@host# set chassis cluster cluster-id 1 node 0 reboot
user@host> set chassis cluster id 1 node 0 reboot
user@host> set chassis cluster cluster-id 1 node 0 reboot
user@host# set chassis cluster id 1 node 0 reboot
第22题:
[edit chassis cluster] user@host# show redundancy-group 1 { node 0 priority 200; node 1 priority 150;preempt; }
[edit chassis cluster] user@host# show redundancy-group 1 { node 0 priority 200; node 1 priority 150; monitoring; }
[edit chassis cluster] user@host# show redundancy-group 1 { node 0 priority 200; node 1 priority 150; control-link-recovery; }
[edit chassis cluster] user@host# show redundancy-group 1 { node 0 priority 200; node 1 priority 150; strict-priority; }
第23题:
Three physical interfaces are redundant.
You must define an additional Redundancy Group.
node 0 will immediately become primary in the cluster.
You must issue an operational command and reboot the system for the above configuration to take effect.
第24题:
Three physical interfaces are redundant.
You must define an additional redundancy group.
node 0 will immediately become primary for redundancy group 1.
You must issue an operational command and reboot the system for the above configuration to take effect.