1Z0-070練習問題集、1Z0-070フィードバック、1Z0-070認定試験、1Z0-070問題と解答、1Z0-070出題範囲

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試験番号:1Z0-070
試験のタイトル:Oracle Exadata X5の管理
所要時間:120
質問の数:90
合格点:60%
ベータ試験のスコアレポートは、ベータ試験の終了後約6週間、CertViewで利用可能になります。 ベータ試験の結果へのアクセス方法に関する説明が記載されたメールが届きます。
ビュー合格スコアポリシー
検証済み:
この試験は、Oracle Exadata Database MachineバージョンX5-2に対して検証されています。
フォーマット:複数の選択肢

Oracle認定資格を取得したOracle Exadata X5管理者の認定資格は、Exadata固有のデータベース管理、ASM管理、ネットワーク管理、およびLinux管理などのスキルの習得を実証します。 この試験に合格すると、Exadata Database Machineの構成、インストール、および管理に必要なスキルを理解していることがわかります。

Oracle Engineered Systems 1Z0-070出題範囲:

Exadata Database Machine Overview
Identify the benefits of using Database Machine for different application classes
Describe the key capacity and performance specifications for Database Machine

Exadata Database Machine Architecture
Describe the Database Machine network architecture and requirements
Describe the Database Machine software architecture
Describe the Exadata Storage Server storage entities and their relationships
Describe how multiple Database Machines can be interconnected and scaled up

Key Capabilities of Exadata Database Machine
Describe the key capabilities of Exadata Database Machine
Describe the Exadata Smart Scan capabilities
Describe the capabilities of hybrid columnar compression
Describe the capabilities and uses of the Smart Flash Cache
Describe t he capabilities of Columnar Flash Caching
Describe the capabilities of the Smart Flash Log
Describe the purpose and benefits of Storage Indexes
Describe the capabilities and uses of Exadata Snapshot databases
Describe Cell to Cell Data Transfer and Exadata Network Resource Management

Exadata Database Machine Initial Configuration
Describe site planning requirements for Database Machine
Describe the installation and configuration process with the Exadata Deployment Assistant
Describe the default configuration for Database Machine
Describe supported and unsupported customizations for Database Machine

Configure Exadata Storage Server
Configure Exadata software and resources using Cellcli or other tools
Create and configure ASM disk groups using Exadata
Use the CellCLI, ExaCLI, DCLI and ExaDCLI Exadata administration tools
Configure Exadata Storage Server security

I/O Resource Management
Use Exadata Storage Server I/O Resource Management to manage workloads within a database and across multiple databases
Configure database resource management plans and profiles
Configure category plans
Configure inter-database plans
Describe and configure the I/O resource manager objectives
Monitor I/O using I/O Metrics

Recommendations for Optimizing Database Performance
Optimize database performance in conjunction with Exadata Database Machine
Optimize Cell performance for Flash Cache and latency capping

Using Smart Scan
Describe Smart Scan and the query processing that can be offloaded to Exadata Storage Server
Describe the requirements for Smart Scan
Describe the circumstances that prevent using Smart Scan
Identify Smart Scan in SQL execution plans including smart joins
Use database statistics and wait events to confirm how queries are processed

Consolidation Options and Recommendations
Describe the options for consolidating multiple databases on Database Machine
Describe the benefits and costs associated with different options
Identify the most appropriate approach for consolidation in different circumstances

Migrating Databases to Exadata Database Machine
Describe the steps to migrate your database to Database Machine
Explain the main approaches for migrating your database to Database Machine
Identify the most appropriate approach for migration in different circumstances

Bulk Data Loading
Configure the Database File System (DBFS) feature for staging input data files
Use external tables based on input data files stored in DBFS to perform high-performance data loads

Exadata Database Machine Platform Monitoring
Describe the purpose and uses of SNMP for the Database Machine
Describe the purpose and uses of IPMI for the Database Machine
Describe the purpose and uses of ILOM for the Database Machine

Configuring Enterprise Manager Cloud Control 12c to Monitor Exadata Database Machine
Describe the Enterprise Manager cloud Control architecture as it specifically applies to Exadata Database Machine
Describe the discovery process and post discovery configurations

Monitoring Exadata Storage Servers
Describe Exadata Storage Server metrics, alerts, Thresholds and active requests
Describe and use Exedata Storage Server Quarantines, Disk Scrubbing and repair
Monitor Exadata Storage Server using Command line or Cloud control

Monitoring Exadata Database Machine Database Servers
Describe the monitoring recommendations for Exadata Database Machine database servers
Use Cloud Control or DBMCLI to monitor Exadata Database Machine Database Servers

Monitoring the InfiniBand Network
Monitor InfiniBand switches With Cloud Control or CLI
Monitor InfiniBand switch ports
Monitor InfiniBand ports on the database servers ajd Cells with LIST IBPORT command

Monitoring other Exadata Database Machine Components
Monitor Exadata Database Machine components: Cisco Switch, Power Distribution Units

Monitoring Tools
Use monitoring tools: Exachk, ExaWatcher, TFA Collector DiagTools, ADRCI, Imageinfo and Imagehistory, OSWatcher

Backup and Recovery for Exadata Database Machines
Describe how RMAN backups are optimized using Exadata Storage Server
Describe the recommended approaches for disk-based and tape-based backups of databases on Database Machine
Perform backup and recovery
Connect a media server to the Database Machine InfiniBand network

Database Machine Maintenance tasks
Power Database Machine on and off
Safely shut down a single Exadata Storage Server
Replace a damaged physical disk on a cell
Replace a damaged flash card on a cell
Move all disks from one cell to another
Use the Exadata Cell Software Rescure Procedure

Patching Exadata Database Machine
Describe how software is maintained on different Database Machine components

Database Machine Automated Support Ecosystem
Describe the Auto Service Request (ASR) function and how it relates to Exadata Database Machine
Describe the implementation requirements for ASR
Describe the ASR configuration process
Describe Oracle Configuration Manager (OCM) and how it relates to Exadata Database Machine

最新の短期効果的なOracle Engineered Systems 1Z0-070トレーニング教材を作るために彼らの知識と経験を使用して達成することができます。
1Z0-070の合格率は100パーセントに達したので、絶対あなたが試験を受かることに重要な助けになれます。
弊社のOracle Engineered Systems 1Z0-070試験トレーニング資料は私達受験生の最良の選択です。
1Z0-070問題と解答もあって、最高で最新な1Z0-070認定試験問題集も一年間に更新いたします。

1.Which three statements are true about Automatic Hard Disk Scrubbing and repair on high-capacity storage servers in an X5 Database Machine? A. Disk repair is made immediately from Smart Flash Cache for corruption on disk when the corresponding data is clean in the Smart Flash Cache. B. Hard disks are scanned every two weeks by default but only when disks are idle. C. Hard disks are scanned every two weeks by default in all situations. D. Disk repair is made immediately from Smart Flash Cache for corruption on disk when the corresponding data is dirty in the Smart Flash Cache. E. Disk repair may be made from another mirror copy if the corrupt area is part of a Normal or High Redundancy Disk Group. Answer: A,C,E

2.You plan to migrate a database supporting an OLTP workload to your new X5 Database Machine.The current database instance supports a large number of short duration sessions and a very high volume of short transactions.Which three X5 Database Machine features can improve performance for this type of workload? A. An improved highly efficient undo and redo architecture B. Faster optimization due to an Exadata-specific optimizer C. Reduced I/O latency for writes due to writeback flashcache on all Exadata X5 and later models D. Ultra high I/O performance for reads and writes when using Exadata Extreme Flash in X5 and later models E. Reduced I/O latency for reads due to read flashcache on all Exadata X5 and later models Answer: A,C,D

3.Your X6 Exadata Database Machine is running Oracle Database 12c, and has a large database with some very large tables supporting OLTP workloads.High-volume insert applications and high-volume update workloads access the same tables.You wish to compress these tables without causing unacceptable performance overheads to the OLTP workload.Which three are true regarding this requirement? A. Compression is performed on database servers when using row store compress advanced in an Exadata environment. B. Using row store compress advanced will compress the data more than if using column store compress for archieve low. C. The compression method column store compress for archive high is the worst fit for this requirement. D. Compression is performed on Exadata Storage Servers when using row store compress advanced in an Exadata environment. E. Using row store compress advanced will compress the data less than if using column store compress forquery low. Answer: A,B,D

4.You plan to migrate a database supporting both DSS and OLTP workloads to your new X5 Database machine.The workloads contain many complex aggregating functions and expensive joins on large partitioned tables in the DSS workload and indexed access for OLTP workloads.Which three benefits accrue as a result of this migration? A. Superior compression capability designed specifically for OLTP workloads B. Columnar storage capability for data in row major data blocks that is held in flash cache C. Superior compression capability designed specifically for data warehouse tables D. Superior compression capability designed specifically for archival data E. Superior flash cache compression technique F. Cell offload processing for indexed-organized table access Answer: A,C,D

5.Which four are true about Exadata features? A. Storage Indexes persist across Exadata storage server reboots. B. Data Warehouse workloads will benefit from Smart Flash Cache configured in Write-Through mode. C. Hybrid Columnar Compressed tables can be compressed and decompressed on Exadata storage servers. D. Hybrid Columnar Compressed tables can be compressed and decompressed on the database servers. E. OLTP workloads will benefit from Smart Flash Cache configured in Write-Back mode. F. Storage Indexes persist across database server reboots. Answer: C,D,E,F

6.Which two must be true for a Smart Scan to occur on a table? A. Sessions querying the table must set cell_offload_processing = true. B. It must be stored in an ASM diskgroup with a 4MByte AU size. C. It must be heap organized. D. It must be accessed using direct path reads. E. The table must not be compressed. Answer: A,D

7.Which three must be true for a Smart Scan to occur for a table? A. cell_offload_processing must be true in sessions issuing SQL statements that access the table. B. The query must be executed serially. C. The query must be executed in parallel. D. Direct path reads must be used at run time. E. The ASM diskgroup containing the table’s tablespace must have a 4 Mbyte AU size. F. The ASM diskgroup containing the table’s tablespace must have cell.smart_scan_capable set to true. Answer: A,D,F

8.A file contains a script with several EXACLI commands that must be executed on each cell in an X5 full rack.The script must run on each cell simultaneously.How would you achieve this? A. Copy the script to all cells using the DCLI command and manually execute it on each cell using the DCLI command. B. Copy the script to the cells using the EXACLI command and execute the script on all cells using the EXACLI command. C. Execute it on all cells using the EXADCLI command specifying the file name containing the EXACLI script. D. Copy the script to all cells using the CELLCLI command and execute it on all cells in parallel using the CELLCLI command. E. Execute it on all cells using the DBMCLI command specifying the file name containing the EXACLI script. Answer: C