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So, it seems to me like a query on a table with 10k records and a query on a table with 10mil records are almost equally fast if they are both fetching roughly the same number of records and making good use of simple indexes(auto increment, record id type indexed field).

My question is, will this extend to a table with close to 4 billion records if it is indexed properly and the database is set up in such a way that queries always use those indexes effectively?

Also, I know that inserting new records in to a very large indexed table can be very slow because all the indexes have to be recalculated, if I add new records only to the end of the table can I avoid that slow down, or will that not work because the index is a binary tree and a large chunk of the tree will still have to be recalculated?

Finally, I looked around a bit for a FAQs/caveats about working with very large tables, but couldn't really find one, so if anyone knows of something like that, that link would be appreciated.

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PostgreSQL performance depends on a lot more than just how many records. But generally, if you have billions of records, the database will be slower, even with a lot of RAM. While RAM is fast, you are still having to seek/fetch/read and then perform computation on the data. Keep in mind, "slower" is a relative term. Without something like Hadoop, databases have always beefed up memory and cpu to increase performance. –  vol7ron Oct 14 '10 at 4:02
    
If you're going to work with very very large tables, you might want to consider a NoSQL-like database, like Hadoop; something that uses map reduce to distribute work along server nodes. –  vol7ron Oct 14 '10 at 4:04
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"If you're going to work with very very large tables" Define very very large tables. –  Bob Oct 14 '10 at 14:13

4 Answers 4

Here is some good reading about large tables and the effects of indexing on them, including cost/benefit, as you requested:

http://www.dba-oracle.com/t_indexing_power.htm

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That referenced article does not give an in-depth investigation into indexing very large tables. It simply discusses the basics of indexes. –  Mitch Wheat Oct 14 '10 at 1:43

Indexing very large tables (as with anything database related) depends on many factors, incuding your access patterns, ratio of Reads to Writes and size of available RAM.

If you can fit your 'hot' (i.e. frequently accessed index pages) into memory then accesses will generally be fast.

The strategy used to index very large tables, is using partitioned tables and partitioned indexes. BUT if your query does not join or filter on the partition key then there will no improvement in performance over an unpartitioned table i.e. no partition elimination.

SQL Server Database Partitioning Myths and Truths

Oracle Partitioned Tables and Indexes

It's very important to keep your indexes as narrow as possible.

Kimberly Tripp's The Clustered Index Debate Continues...(SQL Server)

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Accessing the data via a unique index lookup will slow down as the table gets very large, but not by much. The index is stored as a B-tree structure in Postgres (not binary tree which only has two children per node), so a 10k row table might have 2 levels whereas a 10B row table might have 4 levels (depending on the width of the rows). So as the table gets ridiculously large it might go to 5 levels or higher, but this only means one extra page read so is probably not noticeable.

When you insert new rows, you cant control where they are inserted in the physical layout of the table so I assume you mean "end of the table" in terms of using the maximum value being indexed. I know Oracle has some optimisations around leaf block splitting in this case, but I dont know about Postgres.

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If it is indexed properly, insert performance may be impacted more than select performance. Indexes in PostgreSQL have vast numbers of options which can allow you to index part of a table or the output of an immutable function on tuples in the table. Also size of the index, assuming it is usable, will affect speed much more slowly than will the actual scan of the table. The biggest difference is between searching a tree and scanning a list. Of course you still have disk I/O and memory overhead that goes into index usage, and so large indexes don't perform as well as they theoretically could.

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