A DDBMS (distributed database management system) is a centralized
application that manages a single logical database as if it were all stored on the same computer. The DDBMS synchronizes
all the data periodically, and in cases where multiple users must access the
same data, ensures that updates and deletes performed on the data at one
location will be automatically reflected in the data stored elsewhere.
The
distribution of data and applications has potential advantages over traditional
centralized database systems. Unfortunately, there are also disadvantages; in
this section we review the advantages and disadvantages of DDBMS.
Advantages
There
are following advantages of DDBMs:
Reflects organizational structure Many organizations are naturally distributed over several
locations. For example, a bank has many offices in different cities. It is
natural for databases used in such an application to be distributed over these
locations. A bank may keep a database at each branch office containing details
such things as the staff that work at that location, the account information of customers etc.
The
staff at a branch office will make local inquiries of the database. The company
headquarters may wish to make global inquiries involving the access of data at
all or a number of branches.
Improved share ability and local autonomy The geographical distribution of an organization can be
reflected in the distribution of the data; users at one site can access data
stored at other sites. Data can be placed at the site close to the users who
normally use that data. In this way, users have local control of the data, and
they can consequently establish and enforce local policies regarding the use of
this data. A global database administrator (DBA) is responsible for the entire
system. Generally, part of this responsibility is assigned the local level, so
that the local DBA can manage the local DBMS.
Improved availability In
a centralized DBMS, a computer failure terminates the applications of the DBMS. However, a
failure at one site of a DDBMS, or a failure of a communication link making\
some sites inaccessible, does not make the entire system in opera bite.
Distributed DBMSs are designed to continue to function despite such failures.
If a single node fails, the system may be able to reroute the failed node's
requests to another site.
Improved reliability
As
data may be replicated so that it exists at more than one site, the failure of
a node or a communication link does not necessarily make the data inaccessible.
Improved Performance
As the data is located near the site
of 'greatest demand', and given the inherent parallelism of distributed DBMSs,
speed of database access may be better than that achievable from a remote
centralized database. Furthermore, since each site handles only a part of the
entire database, there may not be the same contention for CPU and I/O services as characterized by a
centralized DBMS.
Economics
It is
now generally accepted that it costs much less to create a system of smaller computers
with the equivalent power of a single large computer. This makes it more cost
effective for corporate divisions and departments to obtain separate computers.
It is also much more cost-effective to add workstations· to a network than to
update a mainframe system.
The
second potential cost saving occurs where database are geographically remote
and the applications require access to distributed data. In such cases, owing
to the relative expense of data being transmitted across the network as opposed
to the cost of local access, it may be much more economical to partition the
application and perform the processing locally at each site.
Modular growth
In a
distributed environment, it is much easier to handle expansion. New sites can
be added to the network without affecting the operations of other sites. This
flexibility allows an organization to expand relatively easily. Adding
processing and storage power to the network can usually handle the increase in
database size. In a centralized DBMS, growth may entail changes to both
hardware (the procurement of a more powerful system) and software (the
procurement of a more powerful or more configurable DBMS).
Disadvantages of DDBMS
There
are following disadvantages of DDBMSs:
Complexity
A
distributed DBMS that hides the distributed nature from the user and provides
an acceptable level of performance, reliability, availability is inherently
more complex then a centralized DBMS. The fact that data can be replicated also
adds an extra level of complexity to the distributed DBMS. If the software does
not handle data replication adequately, there wi1l be degradation in
availability, reliability and performance compared with the centralized system,
and the advantages we cites above will become disadvantages.
Cost
Increased
complexity means that we can expect the procurement and maintenance costs for
a DDBMS to be higher than those for a centralized DBMS. Furthermore, a
distributed
DBMS
requires additional hardware to establish a network between sites. There are
ongoing communication costs incurred with the use of this network. There are
also additional labor costs to manage and maintain the local DBMSs and the
underlying network.
Security
In a
centralized system, access to the data can be easily controlled. However, in a
distributed DBMS not only does access to replicated data have to be controlled
in multiple locations but also the network itself has to be made secure. In the
past, networks were regarded as an insecure communication medium. Although this
is still partially true, significant developments have been made to make
networks more secure.
Integrity control more difficult
Database
integrity refers to the validity and consistency of stored data. Integrity is
usually expressed in terms of constraints, which are consistency rules that the
database is not permitted to violate. Enforcing integrity constraints generally
requires access to a large amount of data that defines the constraints. In a
distributed DBMS, the communication and processing costs that are required to
enforce integrity constraints are high as compared to centralized system.
Lack of Standards
Although
distributed DBMSs depend on effective communication, we are only now starting
to see the appearance of standard communication and data access protocols. This
lack of standards has significantly limited the potential of distributed DBMSs.
There are also no tools or methodologies to help users convert a centralized
DBMS into a distributed DBMS
Lack of experience
General-purpose
distributed DBMSs have not been widely accepted, although many of the protocols
and problems are well understood. Consequently, we do not yet have the same
level of experience in industry as we have with centralized DBMSs. For a
prospective adopter of this technology, this may be a significant deterrent.
Database design more complex
Besides
the normal difficulties of designing a centralized database, the design of a
distributed database has to take account of fragmentation of data, allocation
of fragmentation to specific sites, and data replication
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