When loading and activating a definition file into an inactive cluster
When exporting a definition to a cluster node or saving a definition file
When importing a definition from an active cluster or saving a definition file
When loading a definition into an active cluster or synchronizing a definition file
第1题:
A. routing table
B. forwarding table
C. routing protocol
D. neighbor or peer
第2题:
When planning for a logically partitioned system,which of the following should be used as part of a review to ensure that each partition has the required resources? ()
第3题:
A、The definition for taboo
B、The definition for culture
C、The definition for customs
D、The definition for an individual style
第4题:
When does the Online Planning Worksheet tool run a validation?()
第5题:
A cluster administrator is performing fallover testing during a scheduled system outage. Node ’A’ Was forced down and eventually rebooted. When Node ’A’ reintegrates into the cluster, the resource group state is offline. No errors are found in reviewing the hacmp.out file. What could have been done to ensure the resource group was acquired when cluster processing was restarted on Node ’A’?()
第6题:
By mentioning the experiment in the second paragraph,the author implies that______.( )
[A]our definition of what’s normal varies with gender
[B]our focus of attention variesl with gender and age
[C]our definition of what’s average changes over time
[D]our focus of attention is distracted when interfered
第7题:
When does a transaction complete?()
第8题:
A. as a flat file
B. as a BPEL-compiled definition
C. as an XML file with an associated document type definition (DTD)
D. as an XML file without an associated document type definition (DTD)
第9题:
When defining resources for a concurrent resource group, which of the following is NOT supported?()
第10题:
Given the following interface definition, which definitions are valid?() interface I { void setValue(int val); int getValue(); } DEFINITION a: (a) class a extends I { int value; void setValue(int val) { value = val; } int getValue() { return value; } } DEFINITION b: (b) interface b extends I { void increment(); } DEFINITION c: (c) abstract class c implements I { int getValue() { return 0; } abstract void increment(); } DEFINITION d: (d) interface d implements I { void increment(); } DEFINITION e: (e) class e implements I { int value; public void setValue(int val) { value = val; } }