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I love that PostgreSQL is crash resistant, as I don't want to spend time fixing a database. However, I'm sure there must be some things I can disable/modify so that inserts/updates will work faster even if I lose a couple records prior to a power-outage / crash. I'm not worried about a couple records - just the database as a whole.

I am trying to optimize PostgreSQL for large amounts of writes. It currently takes 22 minutes to insert 1 million rows which seems a bit slow.

How can I speed up PostgreSQL writes?

Some of the options I have looked into (like full_page_writes), seem to also run the risk of corrupting data which isn't something I want. I don't mind lost data - I just don't want corruption.

Update 1

Here is the table I am using - this since most of the tables will contain ints and small strings this "sample" table seems to be the best example of what I should expect.

CREATE TABLE "user"
(
  id serial NOT NULL,
  username character varying(40),
  email character varying(70),
  website character varying(100),
  created integer,
  CONSTRAINT user_pkey PRIMARY KEY (id)
)
WITH ( OIDS=FALSE );
CREATE INDEX id ON "user" USING btree (id);

I have about 10 scripts each issuing 100,000 requests at a time using prepared statements. This is to simulate a real-life load my application will be giving the database. In my application each page has 1+ inserts.

Update 2

I am using asynchronous commits already, because I have

synchronous_commit = off

in the main configuration file.

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Does changing a database part of the option? –  jpartogi Feb 27 '11 at 4:27
    
@jpartogi Do you mean, "Is changing databases an option"? –  Xeoncross Feb 27 '11 at 4:31

6 Answers 6

up vote 22 down vote accepted

1M records inserted in 22 minutes works out to be 758 records/second. Each INSERT here is an individual commit to disk, with both write-ahead log and database components to it eventually. Normally I expect that even good hardware with a battery-backed cache and everything you will be lucky to hit 3000 commit/second. So you're not actually doing too bad if this is regular hardware without such write acceleration. The normal limit here is in the 500 to 1000 commits/second range in the situation you're in, without special tuning for this situation.

As for what that would look like, if you can't make the commits include more records each, your options for speeding this up include:

  • Turn off synchronous_commit (already done)

  • Increase wal_writer_delay. When synchronous_commit is off, the database spools commits up to be written every 200ms. You can make that some number of seconds instead if you want to by tweaking this upwards, it just increases the size of data loss after a crash.

  • Increase wal_buffers to 16MB, just to make that whole operation more efficient.

  • Increase checkpoint_segments, to cut down on how often the regular data is written to disk. You probably want at least 64 here. Downsides are higher disk space use and longer recovery time after a crash.

  • Increase shared_buffers. The default here is tiny, typically 32MB. You have to increase how much UNIX shared memory the system has to allocate. Once that's done, useful values are typically >1/4 of total RAM, up to 8GB. The rate of gain here falls off above 256MB, the increase from the default to there can be really helpful though.

That's pretty much it. Anything else you touched that might help could potentially cause data corruption in a crash; these are all completely safe.

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Well, you don't give us much to go on. But it sounds like you're looking for asynchronous commits.

Don't overlook a hardware upgrade--faster hardware usually means a faster database.

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1  
The problem is that I have no control over the hardware. I would love to use a SSD. I believe I am using asynchronous commits because I have synchronous_commit = off. –  Xeoncross Feb 27 '11 at 4:12
1  
Asynchronous commits is one possibility which will probably work, but doing fewer commits sounds like a better solution. –  MarkR Feb 27 '11 at 8:24

22 minutes for 1 million rows doesn't seem that slow, particularly if you have lots of indexes.

How are you doing the inserts? I take it you're using batch inserts, not one-row-per-transaction.

Does PG support some kind of bulk loading, like reading from a text file or supplying a stream of CSV data to it? If so, you'd probably be best advised to use that.

Please post the code you're using to load the 1M records, and people will advise.

Please post:

  • CREATE TABLE statement for the table you're loading into
  • Code you are using to load in
  • small example of the data (if possible)

EDIT: It seems the OP isn't interested in bulk-inserts, but is doing a performance test for many single-row inserts. I will assume that each insert is in its own transaction.

  • Consider batching the inserts on the client-side, per-node, writing them into a temporary file (hopefully durably / robustly) and having a daemon or some periodic process which asynchronously does a batch insert of outstanding records, in reasonable sized batches.
  • This per-device batching mechanism really does give the best performance, in my experience, in audit-data like data-warehouse applications where the data don't need to go into the database just now. It also gives the application resilience against the database being unavailable.
  • Of course you will normally have several endpoint devices creating audit-records (for example, telephone switches, mail relays, web application servers), each must have its own instance of this mechanism which is fully independent.
  • This is a really "clever" optimisation which introduces a lot of complexity into the app design and has a lot of places where bugs could happen. Do not implement it unless you are really sure you need it.
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2  
@MarkR: your comment about indexes remindes me of another thing Xeoncross could do: drop the indexes before loading the data, then re-create them once everything is loaded. And yes Postgres supports bulk loading CSV using the COPY command –  a_horse_with_no_name Feb 27 '11 at 8:36
    
I am not loading data, I am merely trying to simulate a real life load my application would be putting on the database. In real life many different clients would be inserting records one at a time. I have about 10 concurrent php scripts inserting about 100,000 records as fast as they can. Each is using a new prepared statement each time. This is how a normal application would be using the database since they can't share prepared statements or make use of bulk inserts. –  Xeoncross Feb 27 '11 at 19:19
    
@Xenoncross why can't they share prepared statements? postgresql.org/docs/9.0/static/sql-prepare.html –  nate c Feb 28 '11 at 0:13
    
@nate c because there is no way to save the statements between requests. Normal php apps connect, run their quires, and disconnect. That is what I'm modeling. –  Xeoncross Feb 28 '11 at 3:53
1  
@Xeoncross I think your only going to get serious performance enhancements by changing your architecture. Like maybe using something that is long running with a message queue where you can coalesce many inserts (this is something PHP is not very good at). –  Adam Gent Oct 12 '12 at 12:06

You should also increase checkpoint_segments (e.g. to 32 or even higher) and most probably wal_buffers as well

Edit:
if this is a bulk load, you should use COPY to insert the rows. It is much faster than plain INSERTs.

If you need to use INSERT, did you consider using batching (for JDBC) or multi-row inserts?

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I think the problem can't be solved by dealing with the server only.

I found PostgreSQL can commit 3000+ rows per second, and both server and client were not busy, but the time went by. In contrast SQL Server can reach 5000+ rows per second, and Oracle is even faster, it can reach 12000+ per second, about 20 fields in a row.

I guess the roundtrip is the problem: Send a row to server, and receive the reply from the server. Both SQL Server and Oracle support batch operations: send more than one row in a function call and wait for the reply.

Many years ago I worked with Oracle: Trying to improve the write performance using OCI, I read documents and found too many round trips will decrease performance. Finally I solved it by using batch operations: send 128 or more rows to the server in a batch and wait for the reply. It reached 12000+ rows per second. If you do not use batches and send all rows individually (including wait), it reached only about 2000 rows per second.

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Well one thing you could do to speed things up is drop the index you are creating manually - the primary key constraint already auto-creates a unique index on that column as you can see below (I'm testing on 8.3):

postgres=> CREATE TABLE "user"
postgres-> (
postgres(>   id serial NOT NULL,
postgres(>   username character varying(40),
postgres(>   email character varying(70),
postgres(>   website character varying(100),
postgres(>   created integer,
postgres(>   CONSTRAINT user_pkey PRIMARY KEY (id)
postgres(> )
postgres-> WITH ( OIDS=FALSE );
NOTICE:  CREATE TABLE will create implicit sequence "user_id_seq" for serial column "user.id"
NOTICE:  CREATE TABLE / PRIMARY KEY will create implicit index "user_pkey" for table "user"
CREATE TABLE
postgres=> CREATE INDEX id ON "user" USING btree (id);
CREATE INDEX
postgres=> \d user
                                  Table "stack.user"
  Column  |          Type          |                     Modifiers
----------+------------------------+---------------------------------------------------
 id       | integer                | not null default nextval('user_id_seq'::regclass)
 username | character varying(40)  |
 email    | character varying(70)  |
 website  | character varying(100) |
 created  | integer                |
Indexes:
    "user_pkey" PRIMARY KEY, btree (id)
    "id" btree (id)

Also, consider changing wal_sync_method to an option that uses O_DIRECT - this is not the default on Linux

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