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It's clear to me why a materialized view is preferable over just querying a base table. What is not so clear is the advantage over just creating another table with the same data as the MV. Is the only advantage to the MV really just the ease of creation/maintenance?

Isn't an MV equivalent to a table with matching schema and an INSERT INTO using the MVs SELECT statement?

Meaning, you can create an MV as follows

CREATE MATERIALIZED VIEW ... AS
SELECT * FROM FOO;

And you can create an equivalent table:

CREATE TABLE bar (....);
INSERT INTO bar 
SELECT * FROM FOO;

Not to say that ease of creation / maintenance isn't enough of an advantage, I just want to make sure I'm not missing anything.

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1  
CREATE VIEW does not create a Materialized View. –  Jeffrey Kemp Nov 19 '10 at 0:19
    
Well, to be precise this doesn't create a Materialized View, but in SQL Server and PostgreSQL it doesn't preclude a Materialized View either. –  seth Nov 20 '10 at 4:19

9 Answers 9

1) Speeding up write operations: Since indexes can be created on materialized views, reading from them is very fast. Note that if you create an index on a table that includes a lot of writes, index maintenance overhead tends to slow down the write process. To avoid this you can create a materialize view and create indexes on them. These indexes can be maintained in the background and does not adversely affect table write operations.

2) Speeding read operations: Complex joins; pivots that take ages to run can be speed up by creating indexes on the materialized views. This becomes very handy in most reporting scenarios.

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" 2.If the materialized view is updatable, when you modify the materialized view, it will also modify the base relation on which it depends. "

Interesting. Does this mean then, that if the materialized view only uses a subset of fields from tables A and B, that it will fill in the remaining fields not being used in the materialized view with nulls?

Considering one can use an ETL process such as Pentaho's Data Integration to update tables at regular intervals, i guess this 'backward' updating of the tables used on a materialized view could seem useful.

Of course, however, using an ETL process might simply save one the hassle of manually updating the base tables of the materialized view. Ultimately, one would first go about creating an etl for the base tables first and then creating another table that joins the base tables.

Hmmmm i guess in the end, i still haven't encountered a good enough reason at to why one should use a materialized view over a table (using an etl process).

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  1. The materialized view will stay synchronized with the base relations on which it depends.

  2. If the materialized view is updatable, when you modify the materialized view, it will also modify the base relation on which it depends.

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They're basically equivalent, but the MV has various options for automatically refreshing the data, which not only improve ease of maintenance but also, in some cases, efficiency, since it can track changes by row.

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In addition to the other answers (because I haven't seen it), I would say that although they both use up space, the materialized view is logically normalized, whereas the extra table is logically denormalized. If this is something that is not a temporary one-off, you will have to remember to update the second table whenever you update the base table.

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Dynamic query rewriting. Materialized views define not only relationships, but also allow you to recompute expensive joins and aggregations. The optimizer is smart enough to use the MV to fetch relevant data even if the MV isn't explicitly used in the query (given DB settings, etc).

Your question was tagged as Oracle, but MSSQL also does similar tricks.

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the big advantage of a Materialized View is extremely fast retrieval of aggregate data, since it is precomputed and stored, at the expense of insert/update/delete. The database will keep the Materialized View in sync with the real data, no need to re-invent the wheel, let the database do it for you.

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Materialized views can be refreshed - they are snapshots of data taken at regular intervals.

Your second statement is just a one time deal - data gets inserted into Table at that moment. Further changes to the original data do not get reflected in the table.

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The difference between table and MV is with table , you can do DML operations which will be seen by other users whereas the changes you do to MV will not be available to others until you update your database server.

MV has another advantage when you build MV based on multiple tables using complex queries, the users when using MV the performance increases drastically.

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The first point doesnt sound like an advantage. Also it seems like it is copied from here without any reference itknowledgeexchange.techtarget.com/itanswers/… –  codeObserver Jun 12 '11 at 6:56

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