Partition one starts and has 3.0 logical processors. Partition two does not start. Partition three has 1.0 logical processors.
Partition one starts and has 1.5 logical processors. Partition two has 1.0 logical processors. Partition three has 0.1 processors.
Partition one starts and has 2.0 logical processors. Partition two start and has 2.0 logical processors. Partition three does not start.
Partition one starts and has 2.0 logical processors. Partition two has 1.0 logical processors. Partition three has 0.1 logical processors.
第1题:
An administrator has setup three partitions using shared pool with 2 processing units. They are activated in the following sequence: Partition one: Min. = 1.0, max = 2.0, desired = 1.5 Partition two: Min. = 1.0, max = 2.0, desired = 1.0 Partition three: Min. = 0.1, max = 1.0, desired = 0.8. What is the outcome?()
第2题:
A database administrator wants to design a multi-partition database that can take advantage of both intra-partition parallelism and inter-partition parallelism. Which configuration will allow the use of these types of parallelism while using the least number of hardware components (servers, processors)? ()
第3题:
A customer is installing an HMC-managed Power 720 with two partitions, one for Production the other for Testing. They plan to use the Testing partition only occasionally and want to minimize hardware. Which of the following meets these requirements?()
第4题:
A customer wants to run DB2 on a Power 780 with uncapped partitions. They have licensed DB2 for 32 of the 64 active cores, and will use it in multiple partitions. How can the customer ensure that the number of licenses purchased for DB2 is not exceeded?()
第5题:
A POWER6 595 LPAR has two dedicated processors. The LPAR is active and running AIX 6.1. What must be done to donate any unusedprocessing capacity to the shared processor pool?()
第6题:
Companycom wants to manage multiple partitions for a p5 590 server using Partition Load Manager (PLM). Some of the partitions are dedicated processors and some of them are shared processors. What information about PLM limitations should be expressed to the customer?()
第7题:
A system administrator is implementing a new 2-way POWER5 server with APV that is to be divided into three partitions. The application groups have requested the following CPU entitlements for the partitions: Partition 1: min = 1.0, max = 2.0, desired = 1.5 Partition 2: min = 1.0, max = 2.0, desired = 1.0 Partition 3: min = 0.1, max = 1.0, desired = 0.8 The administrator immediately finds that the three partitions cannot be started in order to run concurrently. What changes can be made to entitlement configuration to allow all three partitions to be started in order?()
第8题:
The uncapped weight has been set to 0.
The uncapped weight has been set to 128.
The processing unit for that partition was set to .1 processing units. A full processor was assigned.
The processing unit for that partition was set to 0.50 processing units. A full processor was assigned.
第9题:
one server having at least two processors
two servers having one processor and one logical database partition
one server having four processors and two logical database partitions
two servers each having four processors and two logical database partitions
第10题:
Change the max on Partition 1 to 1.5.
Change the desired on Partition 1 to 1.0.
Change the max and desired on Partition 1 and 2 to 1.0.
Change the min and desired on Partition 1 and 2 to 0.9.
第11题:
All of the partitions can be managed in one group mixing dedicated and shared processors. PLM will move resources in the group as setup in the PLM profiles.
PLM handles memory, dedicated and shared processor partitions. All the partitions in a group must be of the same processor type. PLM moves I/O resources between partitions based on PLM policy files.
PLM handles memory, dedicated and shared processor partitions. The policy file, once loaded, is static and has no knowledge of workload on the managed partitions. PLM is supported for partitions that are running AIX 5.2 or i5OS.
All of the partitions in a group must be the same type, either all dedicated processor partitions or shared processor partitions. One PLM Server can manage multiple groups of partitions. PLM does not move resources between groups.
第12题:
Create a system profile for each partition. Assign all needed resources as 'required'.
Define all system resources as 'desired' on the Testing partition. Activate only as needed.
Create two shared processor pools. Assign the minimal I/O resources required for each partition to the shared pools.
Create both partitions with minimal 'required' resources, and optional resources as 'desired'. Activate each partition as necessary.
第13题:
Companycom has the following: 8 x 1.65GHz CPUs 16GB Memory 4 LPARs LPAR 1: Test/Dev 1 CPU, 2GB Memory, 1 Fibre Channel HBA, AIX 5.3 LPAR 2: QA 1 CPU, 2GB Memory, 1 Fibre Channel HBA, AIX 5.3 LPAR 3: Prod 3 CPUs, 6GB Memory, 1 Fibre Channel HBA, AIX 5.3 LPAR 4: Web App 3 CPUs, 6GB Memory, 1 Fibre Channel HBA, SUSE Linux Utilization over a 30 day period LPAR 1: Average utilization was 15%, Peak utilization was 100% LPAR 2: Average utilization was 25%, Peak utilization was 100% LPAR 3: Average utilization was 50%, Peak utilization was 90% LPAR 4: Average utilization was 35%, Peak utilization was 100% If the customer has a requirement for all four LPARs moved to a p5 590 and to have dedicated CPU resources. Which of the following would best describe the profile requirements?()
第14题:
Company.com has ordered an 8-way p5-570 and plans to deploy four AIX 5L v5.3 LPARs. The pre-installation system design has all eight processors being placed in the shared processor pool, and four Micro-Partitions being assigned resources from the pool. Prior to the implementation of the system, the customer informs the technical specialist that one of the applications is only supported on AIX 5L 5.2. Which of the following changes to the system design should the technical specialist make to accommodate this change?()
第15题:
Companycom has several AS/400 servers in their IT infrastructure running V5R2 that they wish to consolidate. The customer wants to simplify their environment and install i5/OS on a p5 590 with 16 1.65GHz processors and 20 i5/OS partitions. The customer plans to use the Advanced Power Virtualization to share their storage, processors, and memory. What considerations and limitations should be reviewed with the customer before the purchase?()
第16题:
A customer has an HMC-managed Power Systems server with 6 partitions. Four production partitions are subject to varying workloads throughout the day, and two are used for development and testing. The production applications have different licensing limitations on the number of physical cores that may be used. The development partitions can use no more than 1 core. The customer would like to dynamically optimize processor utilization within the licensing limits, with minimal operator intervention. Which of the following meets the customer requirement?()
第17题:
In which two environments would intra-partition parallelism be used? ()
第18题:
The System Administrator has set up shared processors on three partitions in the p5 590 system. The shared processors have been set to uncapped. The system administrator notices that the logical partition is acting like it is capped. What is the most probable cause?()
第19题:
Partition one starts and has 3.0 logical processors. Partition two does not start. Partition three has 1.0 logical processors.
Partition one starts and has 1.5 logical processors. Partition two has 1.0 logical processors. Partition three has 0.1 processors.
Partition one starts and has 2.0 logical processors. Partition two start and has 2.0 logical processors. Partition three does not start.
Partition one starts and has 2.0 logical processors. Partition two has 1.0 logical processors. Partition three has 0.1 logical processors.
第20题:
Define the production partitions' maximum CPU to the licensing limitations. Define the development/test partition maximums to one core. Configure each partition to be capped.
Define the production partitions' maximum CPU to the licensing limitations. Define the development/test partition maximums to one core. Configure each partition to be uncapped.
Define the production partitions' maximum CPU to the licensing limitations. Define the development/test partitions to use no more than one core. Configure the HMC scheduler to dynamically assign processors among the pools over a day.
Create a shared processor pool for each production partition, with the maximum processor limit set to the licensing limit for the application in the pool. Assign the development and testing partitions to a processor pool with a maximum of 1 core. Configure each partition to use uncapped processing.
第21题:
Create a 32-core shared processor pool for the DB2 partitions.
Limit the number of virtual processors on each DB2 partition to 32.
Use the IBM License Metric Tool to dynamically manage DB2 usage in the partitions.
Set the ‘Desired Processing Units’ in each DB2 partition profile so that the sum of all partitions equals 32.
第22题:
Create all the partitions as AIX 5.2, each having two dedicated processors.
Purchase a system with two additional processors that can be assigned to the AIX 5.2 Partition.
Specify an AIX 5.2 partition using dedicated processors, reducing the number of processors in the shared pool.
Use the virtual I/O server to manage the disks and network connections removing the need for different levels of device drivers.
第23题:
LPARs 1 and 2, SMT on, min CPU 1.0, max CPU 1.0, desired CPU 1.0 LPARs 3 and 4, SMT on, min CPU 1.0, max CPU 3.0, desired CPU 2.0
LPARs 1 and 2, SMT on, min CPU 1.0, max CPU 1.0, desired CPU 1.0 LPARs 3 and 4, SMT on, min CPU 2.0, max CPU 3.0, desired CPU 3.0
LPARs 1 and 2, SMT on, min CPU 1.0, max CPU 3.0, desired CPU 3.0 LPARs 3 and 4, SMT on, min CPU 1.0, max CPU 3.0, desired CPU 2.0
LPARs 1 and 2, SMT off, min CPU 1.0, max CPU 1.0, desired CPU 1.0 LPARs 3 and 4, SMT off, min CPU 1.0, max CPU 3.0, desired CPU 3.0
第24题:
Partition one starts and has 2.0 processors allocated. Partition two does not start. Partition three does not start.
Partition one starts and has 1.0 processors allocated. Partition two starts and has 1.0 allocated. Partition three does not start.
Partition one starts and has 1.5 processors allocated. Partition two does not start. Partition three starts and has 0.8 processors allocated capacity.
Partition one starts and has 1.5 processors allocated. Partition two does not start. Partition three starts and has an allocated capacity of 0.5 processors.