A Rough Guide to RAC

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Transcript A Rough Guide to RAC 

A Rough Guide to RAC
Julian Dyke
Independent Consultant
Web Version
1
© 2005 Julian Dyke
juliandyke.com
Agenda






2
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Introduction
Availability
Scalability
Manageability
Total Cost of Ownership
Conclusion
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Introduction
3
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Some RAC Terminology
OCRDUMP
RAC
CSS
CRSCTL
SRVCTL
GCS
LMD
CLUVFY
OCFS2
LMS
PI
OCR
OIFCFG
LCK
OCRCHECK
VIP
OCSSD
CRSD
GRD
DIAG
VIPCA
CRS
FAN
EVMD
ONS
LMON
BAST
OCFS
AST
OCRCONFIG
GES
ASM
TAF
LKDEBUG
FCF
CRS_STAT
4
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GSD
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What is RAC?

Multiple instances running on separate servers (nodes)

Single database on shared storage accessible to all nodes

Instances exchange information over an interconnect network
Instance 1
Interconnect
Node 1
Local
Disk
5
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Instance 2
Node 2
Shared
Storage
Local
Disk
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Instances versus Databases
6

A RAC cluster includes
 one database
 one or more instances

A database is a set of files
 Located on shared storage
 Contains all persistent resources

An instance is a set of memory structures and processes
 Contain all temporal resources
 Can be started and stopped independently
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Instances versus Databases
Private Network
(Interconnect)
Public
Network
Instance 1
Instance 2
Instance 3
Instance 4
Node 1
Node 2
Node 3
Node 4
Storage
Network
Database
7
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What is a RAC Database?
8

Located on shared storage accessible by all instances

Includes
 Control Files
 Data Files
 Online Redo Logs
 Server Parameter File

May optionally include
 Archived Redo Logs
 Backups
 Flashback Logs (Oracle 10.1 and above)
 Change Tracking Writer files (Oracle 10.1 and above)
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What is a RAC Database?

Contents similar to single instance database except
 One redo thread per instance
ALTER DATABASE ADD LOGFILE THREAD 2
GROUP 3 SIZE 51200K,
GROUP 4 SIZE 51200K;
ALTER DATABASE ENABLE PUBLIC THREAD 2;

If using Automatic Undo Management also require one UNDO
tablespace per instance
CREATE UNDO TABLESPACE "UNDOTBS2"
DATAFILE SIZE 25600K AUTOEXTEND ON
MAXSIZE UNLIMITED EXTENT MANAGEMENT
LOCAL;

9
Additional dynamic performance views (V$, GV$ but not X$)
created by $ORACLE_HOME/rdbms/admin/catclust.sql
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What is the Interconnect?
10

Instances communicate with each other over the interconnect
(network)

Information transferred between instances includes
 data blocks
 locks
 SCNs

Typically 1GB Ethernet
 UDP protocol
 Often teamed in pairs to avoid SPOFs

Can also use Infiniband
 Fewer levels in stack

Other proprietary protocols are available
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Why Use Shared Storage?


11
Mandatory for
 Database files
 Control files
 Online redo logs
 Server Parameter file (if used)
Optional for
 Archived redo logs (recommended)
 Executables (Binaries)
 Password files
 Parameter files
 Network configuration files
 Administrative directories
 Alert Log
 Dump Files
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What Shared Storage is Supported?

12
Oracle supplied options
 Oracle Cluster File System (OCFS)
 Version 1
 Windows and Linux
 Supports database and archived redo logs
 No executables
 Version 2 - August 2005
 Linux, Windows and Solaris
 As OCFS1 plus executables
 Automatic Storage Management (ASM)
 Oracle 10.1 and above
 More transparent in Oracle 10.2 and above
 Both require underlying SAN or NAS
 Do not require LVM
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What Shared Storage is Supported?

13
Can use (continued)
 Network Attached Storage
 NFS-based
 Potentially lower cost - no fibre channel required
 Easy to administer
 Raw devices
 Difficult to administer
 Cannot be used with archived redo logs
 Third-party Cluster File System
 Still a popular choice with many sites
 Others (not supported)
 Firewire - maximum two nodes - recommended in 10g
 NBD - Network Block Devices - Solaris and Linux
 NFS - not supported, but might still work
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What is a Shared Oracle Home?




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Can install multiple copies of Oracle executables on local
disks on each node
Can also install Shared Oracle Home
 single copy of Oracle executables on shared storage
Oracle 9.2
 Only Oracle database software
Oracle 10.1
 Cluster Ready Services (CRS)
 Oracle database software + ASM
Oracle 10.2
 Oracle Clusterware (CRS)
 ASM
 Oracle database software
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Internal Structures and Services
15

Global Resource Directory (GRD)
 Records current state and owner of each resource
 Contains convert and write queues
 Distributed across all instances in cluster

Global Cache Services (GCS)
 Implements cache coherency for database
 Coordinates access to database blocks for instances
 Maintains GRD

Global Enqueue Services (GES)
 Controls access to other resources (locks) including
 library cache
 dictionary cache
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Background Processes


16
Each RAC instance has set of standard background
processes e.g.
 PMON
 SMON
 LGWR
 DBWn
 ARCn
RAC instances use additional background processes to
support GCS and GES including
 LMON
 LCK0
 LMDn
 LMSn
 DIAG
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Portability


17
Most single-instance applications should port to RAC
Some exceptions
 Application must scale well on single instance
 Can be difficult to evaluate
 Some features do not work e.g.
 DBMS_ALERT
 DBMS_PIPE
 External inputs/outputs may need modification
 Flat files etc
 Some RAC features require additional coding
 TAF
 Code may need upgrading to use RAC functionality e.g.
 FCF requires JDBC Implicit Connection Cache
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Why Do Users Deploy RAC?
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18
Users may deploy RAC to achieve

Increasing availability

Increasing scalability

Improving maintainability

Reduction in total cost of ownership
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Why Do DBAs Deploy RAC?
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19
DBAs may want to deploy RAC because:

Realistic next step for experienced Oracle DBAs

Intellectual challenge

Job protection - ties organisation to Oracle technology

Possible improved earnings

It looks good on their CV
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Availability
20
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What is Failover?

If one node or instance fails
 Node detecting failure will
 Read redo log of failed instance from last checkpoint
 Apply redo to datafiles including undo segments (roll
forward)
 Rollback uncommitted transactions
 Cluster is frozen during part of this process
Instance 1
Node 1
21
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Interconnect
Instance 2
Node 2
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What are Database Services?
22

Database Services are logical groups of sessions

Can be configured using
 DBCA
 Enterprise Manager (10.2 and above)

Can also be configured using
 SRVCTL (Oracle Cluster Registry only)
 SQL*Plus (Data Dictionary only)
 Text editor (Network Configuration)

In Oracle 10.1 and above, each service has
 Preferred Nodes (used by default)
 Available Nodes (used if preferred node fails)
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What are Database Services?
23

Can be used with Resource Manager to control resource
usage e.g.
 CPU
 Parallel execution

Can be used for monitoring
 V$SERVICE_STATS

Can be used for diagnostics
 DBMS_MONITOR
 trace
 statistics
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What is Oracle Clusterware?





24
Introduced in Oracle 10.1 (Cluster Ready Services - CRS)
Renamed in Oracle 10.2 to Oracle Clusterware
Cluster Manager providing
 Node membership services
 Global resource management
 High availability functions
On Linux
 Configured in /etc/inittab
 Implemented using three daemons
 CRS - Cluster Ready Service
 CSS - Cluster Synchronization Service
 EVM - Event Manager
In Oracle 10.2 includes High Availability framework
 Allows non-Oracle applications to be managed
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What is the OCR?
25

Oracle Cluster Registry (OCR)
 Configuration information for Oracle Clusterware / CRS

Introduced in Oracle 10.1
 Replaced Server Management (SRVM) disk/file

Similar to Windows Registry

Located on shared storage

In Oracle 10.2 and above can be mirrored
 Maximum two copies
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What is the OCR?

26
Defines cluster resources including:
 Databases
 Instances
 RDBMS
 ASM
 Services
 Node Applications
 VIP
 ONS
 GSD
 Listener Process
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What is a Voting Disk?
27

Known as Quorum Disk / File in Oracle 9i

Located on shared storage accessible to all instances

Used to determine RAC instance membership

In the event of node failure voting disk is used to determine
which instance takes control of cluster
 Avoids split brain

In Oracle 10.2 and above can be mirrored
 Odd number of copies (1, 3, 5 etc)
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What is VIP?
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
Node application introduced in Oracle 10.1

Allows Virtual IP address to be defined for each node
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All applications connect using Virtual IP addresses

If node fails Virtual IP address is automatically relocated to
another node

Only applies to newly connecting sessions
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What is TAF?
29

TAF is Transparent Application Failover

Sessions connected to a failed instance will be terminated
 Uncommitted transactions will be rolled back

Sessions can be reconnected to another instance
automatically if using TAF
 Can optionally re-execute in-progress SELECT statements
 Statement re-executed with same SCN
 Fetches resume at point of failure
 Session state is lost including
 Session parameters
 Package variables
 Class and ADT instantiations
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What is TAF?

TAF is Transparent Application Failover

Requires additional coding in client

Requires configuration in TNSNAMES.ORA
RAC_FAILOVER =
(DESCRIPTION =
(ADDRESS_LIST =
(FAILOVER = ON)
(ADDRESS = (PROTOCOL = TCP)(HOST = node1)(PORT = 1521))
(ADDRESS = (PROTOCOL = TCP)(HOST = node2)(PORT = 1521))
)
(CONNECT_DATA =
(SERVICE_NAME = RAC)
(SERVER = DEDICATED)
(FAILOVER_MODE =(TYPE=SELECT)(METHOD=BASIC)(RETRIES=30)(DELAY=5))
)
)
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What is FAN?
31

Fast Application Notification (FAN)

Introduced in Oracle 10.1

Method by which applications can be informed of changes in
cluster status
 Handle node failures
 Workload balancing

Applications must connect using services

Can be notified using
 Server side callouts
 Fast Connection Failover (FCF)
 ONS API
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What is ONS?
32

Oracle Notification Service (ONS)

Introduced in Oracle 10.1

Allows out-of-band messages to be sent to
 Nodes in cluster
 Middle-tier application servers
 Clients

Underlying mechanism for Fast Application Notification (FAN)
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Does RAC Increase Availability?
33

Depends on definition of availability
 May achieve less unplanned downtime
 May have more time to respond to failures

Instance failover means any node can fail without total loss of
service

Must provide have overcapacity in cluster to survive failover
 Additional Oracle and RAC licenses
 Load can be distributed over all running nodes
 Can use Grid to provision additional nodes
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Does RAC Increase Availability?
34

Can still get data corruptions
 Human errors / software errors
 Only one logical copy of data
 Only one logical copy of application / Oracle software

Lots of possibility for human errors
 Power / network cabling / storage configuration

Upgrades and patches are more complex
 Can upgrade software on subset of nodes
 If database is affected then still need downtime
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Scalability
35
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What is Scalability?
36

RAC overhead means that linear scalability is difficult to
achieve
 Global Cache Services (blocks)
 Global Enqueue Services (locks)

As number of instances increases, probability that instance is
a resource master decreases

Scaling factor of 1.8 is considered good

Dependent on application design and implementation

Scaling factor improves with
 Node affinity
 Elimination of contention
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What is Scalability?

Workload

Scalability is the relationship between increments of
resources and workloads
Can be any resource but with RAC normally refers to adding
instances
Scalability can be
 linear - optimal but rare
 non-linear - suboptimal but normal
Workload

Linear
Resource
37
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NonLinear
Resource
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What is Workload Balancing?



Balancing of workload across available instances
Can have
 Client-side connection balancing
 Server-side connection balancing
Client-side connection balancing
 Workload distributed randomly across nodes
RAC =
(DESCRIPTION =
(ADDRESS = (PROTOCOL = TCP)(HOST = node1)(PORT = 1521))
(ADDRESS = (PROTOCOL = TCP)(HOST = node2)(PORT = 1521))
(LOAD_BALANCE = ON)
(FAILOVER = ON)
(CONNECT_DATA =
(SERVICE_NAME = RAC)
(FAILOVER_MODE = (TYPE = SELECT)(METHOD = BASIC))
)
)
38
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What is Workload Balancing?




39
Server-side connection balancing
Dependent on current workload on each node
PMON monitors workload and updates listeners
Depends on long or short connections

In Oracle 10.1
 Set PREFER_LEAST_LOADED_NODE in listener.ora
 OFF for long connections
 ON for short connections (default)

In Oracle 10.2
 Can specify load balancing goal for each service
 NONE, SERVICE_TIME or THROUGHPUT
 Can also specify connection load balancing goal
 SHORT or LONG
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Increasing Scalability
40

If application scales well on a single-instance then it should
scale well on RAC

Eliminate contention
 Use sequences

Use locally partitioned tables and indexes
 Attempt to achieve node affinity

Avoid contention for single blocks
 Distribute rows for hot blocks
 Small block size e.g. 2048 or 4096
 ALTER TABLE MINIMIZE RECORDS PER BLOCK
 High PCTFREE / Low PCTUSED
 Filler columns e.g. CHAR (2000)
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Increasing Scalability
41

Use Automatic Segment Space Management
 Default in Oracle 10.2

Use larger block size for read-only objects
 Reduce number of GCS messages required

Minimize lock usage
 Eliminate unnecessary parsing
 Increase size of shared pool
 Bind variables
 Cursor sharing

Use optimistic locking
 Eliminate unnecessary SELECT FOR UPDATE statements
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Manageability
42
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Server Parameter File







Introduced in Oracle 9.0.1
Must reside on shared storage
Shared by all RAC instances
Binary (not text) files
Parameters can be changed using ALTER SYSTEM
Can be backed up using the Recovery Manager (RMAN)
Created using
CREATE SPFILE [ = ‘SPFILE_NAME’ ]
FROM PFILE [ = ‘PFILE_NAME’ ];

init.ora file on each node must contain SPFILE parameter
SPFILE = <pathname>
43
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Parameters

RAC uses same parameters as single-instance
 Some must be different on each instance
 Some must be same on each instance

Can be global or local
[*.]<parameter_name> = <value>
[<sid>]<parameter_name> = <value>

Must be set using ALTER SYSTEM statement
ALTER SYSTEM SET parameter = value
[ SCOPE = MEMORY | SPFILE | BOTH ]
[ SID = <sid>]
ALTER SYSTEM RESET parameter = value
[ SCOPE = MEMORY | SPFILE | BOTH ]
[ SID = <sid>]
44
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Parameters


45
Some parameters must be same on each instance including *:
 ACTIVE_INSTANCE_COUNT
 ARCHIVE_LAG_TARGET
 CLUSTER_DATABASE
 CONTROL_FILES
 DB_BLOCK_SIZE
 DB_DOMAIN
 DB_FILES
 DB_NAME
 DB_RECOVERY_FILE_DEST
 DB_RECOVERY_FILE_DEST_SIZE
 DB_UNIQUE_NAME
 MAX_COMMIT_PROPAGATION_DELAY
 TRACE_ENABLED
 UNDO_MANAGEMENT
* Correct for Oracle 10.1
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Parameters
46

Some parameters, if used, must be different on each instance
including
 THREAD
 INSTANCE_NUMBER
 INSTANCE_NAME
 UNDO_TABLESPACE
 ROLLBACK_SEGMENTS

DML_LOCKS must be identical on each instance if set to zero
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DBCA

47
Can be used to
 Create RAC database and instances
 Create ASM instance
 Manage ASM instance (10.2)
 Add RAC instances
 Create RAC database templates
 structure only
 with data
 Create clone RAC database (10.2)
 Create, Manage and Drop Services
 Drop instances and database
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What is SRVCTL?




48
Utility used to manage cluster database
Configured in Oracle Cluster Registry (OCR)
Controls
 Database
 Instance
 ASM
 Listener
 Node Applications
 Services
Options include
 Start / Stop
 Enable / Disable
 Add / Delete
 Show current configuration
 Show current status
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SRVCTL - Examples

Starting and Stopping a Database
srvctl start database -d RAC
srvctl stop database -d RAC

Starting and Stopping an Instance
srvctl start instance -d RAC -i RAC1
srvctl stop instance -d RAC -i RAC1

Starting and Stopping a Service
srvctl start service -d RAC -s SERVICE1
srvctl stop service -d RAC -s SERVICE1

Starting and Stopping ASM on a specified node
srvctl start asm -n node1
srvctl stop asm -n node1
49
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Enterprise Manager

In Oracle 10.1 and above
 Database Control
 Installed by DBCA
 Controls single cluster
 Grid Control
 Uses separate repository
 Oracle 10.2 version available
 Requires Oracle 10.1 database


50
Fully supports RAC in both versions
Except
 Oracle 10.1 cannot create / delete services
 Oracle 10.2 better interconnect performance monitoring
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What is CLUVFY?
51

Introduced in Oracle 10.2

Supplied with Oracle Clusterware
 Can be downloaded from OTN (Linux and Windows)

Written in Java - requires JRE (supplied)

Also works with 10.1 (specify -10gR1 option)

Checks cluster configuration
 stages - verifies all steps for specified stage have been
completed
 components - verifies specified component has been
correctly installed
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CLUVFY

52
Stages include
-post hwos
post check for hardware and operating system
-pre cfs
pre-check for CFS setup
-post cfs
post-check for CFS setup
-pre crsinst
pre-check for Oracle Clusterware installation
-post crsinst
post-check for Oracle Clusterware installation
-pre dbinst
pre-check for database installation
-pre dbcfg
pre-check for database configuration
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CLUVFY

53
Components include
nodereach
Checks reachability between nodes
nodecon
Checks node connectivity
cfs
Checks CFS integrity
ssa
Checks shared storage accessibility
space
Checks space availability
sys
Checks minimum system requirements
clu
Checks cluster integrity
clumgr
Checks cluster manager integrity
ocr
Checks OCR integrity
crs
Checks Oracle Clusterware (CRS) integrity
nodeapp
Checks node applications exist
admprv
Checks administrative privileges
peer
Compares properties with peers
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CLUVFY

For example, to check configuration before installing Oracle
Clusterware on node1 and node2 use:
sh runcluvfy.sh stage -pre crsinst -n node1,node2
54

Checks:
 node reachability
 user equivalence
 administrative privileges
 node connectivity
 shared stored accessibility

If any checks fail append -verbose to display more information
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Other Utilities
55

Additional RAC utilities and diagnostics include
 OCRCONFIG
 OCRCHECK
 OCRDUMP
 CRSCTL
 CRS_STAT

Additional RAC diagnostics can be obtained using
 ORADEBUG utility
 DUMP option
 LKDEBUG option
 Events
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Does RAC Improve Manageability?
56

Advantages
 Fewer databases to manage
 Easier to monitor
 Easier to upgrade
 Easier to control resource allocation
 Resources can be shared between applications

Disadvantages
 Upgrades potentially more complex
 Downtime may affect more applications
 Requires more experienced operational staff
 Higher cost / harder to replace
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Total Cost of
Ownership
57
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Reduction in TCO?
58

Possible for sites with legacy systems
 Mainframes / Minicomputers
 Applications / Packages

RAC option adds 50% to licence costs except for
 Users with site licences
 Standard edition (10.1+, max 4 CPU with ASM)

Retrain existing staff or use dedicated staff

Consolidation may bring economies of scale
 Monitoring
 Backups
 Disaster Recovery
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Reduction in TCO?
59

Additional resources required
 Redundant hardware
 Nodes
 Network switches
 SAN fabric
 Hardware e.g. fibre channel cards

Reduction in hardware support costs
 May not require 24 hour support
 Viable to hold stock of spare components
© 2005 Julian Dyke
juliandyke.com
What are the Alternatives to RAC?

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Data Guard
 Physical Standby
 Introduced in Oracle 7.3.4
 Stable, well proven technology
 Requires redundant hardware
 Implemented by many sites
 Can be used with RAC
 Logical Standby
 Introduced in Oracle 9.2
 Still not widely adopted
 Streams
 Introduced in Oracle 9.2
 Implemented by increasing number of sites
 Advanced Replication
© 2005 Julian Dyke
juliandyke.com
What are the Alternatives to RAC?
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
Symmetric Multiprocessing (SMP) Systems
 Single Point of Failure
 Simplified configuration
 Eliminate RAC overhead

Parallel systems
 For systems with deterministic input
 Messaging
 Data Warehouses

Other Clustering Technologies
 SAN
 Operating System
 etc
© 2005 Julian Dyke
juliandyke.com
Conclusion
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
Success of RAC deployments dependent on
 Application design and implementation
 Failover requirements
 IT infrastructure
 Flexibility and commitment of IT department(s)

Before deploying RAC
 Investigate and reject alternatives
 Perform proof of concept
 Test application
 Evaluate benefits and costs
 Learn RAC concepts and administration
 Buy a good book :)
© 2005 Julian Dyke
juliandyke.com
Thank you for your interest
For more information and to provide feedback
please contact me
My e-mail address is:
[email protected]
My website address is:
www.juliandyke.com
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© 2005 Julian Dyke
juliandyke.com