I am trying a simple UPDATE table SET column1 = 0 on a table with ~3 million rows on Postegres 8.4 but it is taking forever to finish. It has been running for more than 10 min. now in my last attempt.

Before, I tried to run a VACUUM and ANALYZE commands on that table and I also tried to create some indexes (although I doubt this will make any difference in this case) but none seems to help.

Any other ideas?

Thanks, Ricardo


This is the table structure:

  id bigserial NOT NULL,
  title text,
  description text,
  link text,
  "type" character varying(255),
  generalFreq real,
  generalWeight real,
  author_id bigint,
  status_id bigint,
  CONSTRAINT resources_pkey PRIMARY KEY (id),
  CONSTRAINT author_pkey FOREIGN KEY (author_id)
  CONSTRAINT c_unique_status_id UNIQUE (status_id)

I am trying to run UPDATE myTable SET generalFreq = 0;

  • It would help to see the full table definition and the full query you are running. Also, the output of "explain analyze <query>" would be very helpful. – kasperjj Jul 29 '10 at 10:07
  • Added the table structure. The command explain analyze UPDATE myTable SET generalFreq = 0; also take a very long time to complete. – Ricardo Lage Jul 29 '10 at 10:33
  • do you by any chance have an index on generalFreq? – kasperjj Jul 29 '10 at 11:01
  • Oh.. and sorry, my mistake... you should run just explain, not explain analyze. That should return almost instantly. – kasperjj Jul 29 '10 at 11:04
  • ok, the explain returns the following: "Seq Scan on myTable (cost=0.00..181915.37 rows=5156537 width=1287)" What does it mean? – Ricardo Lage Jul 29 '10 at 11:20

Take a look at this answer: PostgreSQL slow on a large table with arrays and lots of updates

First start with a better FILLFACTOR, do a VACUUM FULL to force table rewrite and check the HOT-updates after your UPDATE-query:

SELECT n_tup_hot_upd, * FROM pg_stat_user_tables WHERE relname = 'myTable';

HOT updates are much faster when you have a lot of records to update. More information about HOT can be found in this article.

Ps. You need version 8.3 or better.

  • Thanks! This clears things up. – Ricardo Lage Aug 4 '10 at 12:34

I have to update tables of 1 or 2 billion rows with various values for each rows. Each run makes ~100 millions changes (10%). My first try was to group them in transaction of 300K updates directly on a specific partition as Postgresql not always optimize prepared queries if you use partitions.

  1. Transactions of bunch of "UPDATE myTable SET myField=value WHERE myId=id"
    Gives 1,500 updates/sec. which means each run would take at least 18 hours.
  2. HOT updates solution as described here with FILLFACTOR=50. Gives 1,600 updates/sec. I uses SSD's so it's a costly improvement as it doubles the storage size.
  3. Insert in a temporary table of updated value and merge them after with UPDATE...FROM Gives 18,000 updates/sec. if I do a VACUUM for each partition; 100,000 up/s otherwise. Cooool.
    Here is the sequence of operations:

CREATE TEMP TABLE tempTable (id BIGINT NOT NULL, field(s) to be updated,
CONSTRAINT tempTable_pkey PRIMARY KEY (id));

Accumulate a bunch of updates in a buffer depending of available RAM When it's filled, or need to change of table/partition, or completed:

COPY tempTable FROM buffer;
UPDATE myTable a SET field(s)=value(s) FROM tempTable b WHERE a.id=b.id;

That means a run now takes 1.5h instead of 18h for 100 millions updates, vacuum included.

  • 3
    I faced a similar problem today and by doing the change you describe (accumulate changes in temp table, then update from it), we saw a 100x increase in performance. 2.5 hours to about 2 minutes. – Ron Dahlgren Oct 25 '15 at 1:41
  • Sorry - i am not quite getting the buffer part. Could you add more info on how to "Accumulate a bunch of updates in a buffer"? – n1000 Apr 6 '16 at 7:04
  • @n1000 The buffer could be a CSV file or a StringIO object in Python. Each line of buffer will contains the same data structure than your "tempTable" to let the Postgresql COPY command works. – Le Droid Apr 12 '16 at 21:37
  • Thank you man. I tried this solution and it was supposed to cost nearly 30 hours and now it only need 77.1 s for the update command. Cheers! – whyisyoung Jan 6 '17 at 1:50
  • Did you verify that it was using HOT? You have to be careful because the modified column can't be a part of any index FWIW... :) See also blog.codacy.com/… – rogerdpack Nov 23 '17 at 20:36

After waiting 35 min. for my UPDATE query to finish (and still didn't) I decided to try something different. So what I did was a command:

  all the fields of table1 except the one I wanted to update, 0 as theFieldToUpdate
from myTable

Then add indexes, then drop the old table and rename the new one to take its place. That took only 1.7 min. to process plus some extra time to recreate the indexes and constraints. But it did help! :)

Of course that did work only because nobody else was using the database. I would need to lock the table first if this was in a production environment.

  • 4
    Postgresql's MVCC implementation makes updates expensive. If you're updating every row in the table, each row needs to be copied as a new version, and the old version marked as deleted. So it's not surprising that rewriting the table is faster (which is what altering the type of a column does automatically, for instance). not much you can do about it, just a performance characteristic to be aware of. – araqnid Jul 29 '10 at 17:40
  • Thanks for the explanation, araqnid. I didn't know postgresql did implement updates like that. – Ricardo Lage Jul 29 '10 at 18:43

Today I've spent many hours with similar issue. I've found a solution: drop all the constraints/indices before the update. No matter whether the column being updated is indexed or not, it seems like psql updates all the indices for all the updated rows. After the update is finished, add the constraints/indices back.

  • If your data is "sparse" (lots of churn/free space within blocks) and the column being updated is not part of an index, then Postgres can use HOT and speed up by not needing to update indices. So this might help that way. See also dba.stackexchange.com/questions/15720/… ... Maybe it helps because an update in Postgres is equivalent to DELETE + INSERT and so it has to update all indexes for that row? Or maybe Postgres does bizarre things like rewriting full blocks worth of the index ("your personal copy of the index") until you commit :\ – rogerdpack Nov 24 '17 at 17:23

Try this (note that generalFreq starts as type REAL, and stays the same):


This will rewrite the table, similar to a DROP + CREATE, and rebuild all indices. But all in one command. Much faster (about 2x) and you don't have to deal with dependencies and recreating indexes and other stuff, though it does lock the table (access exclusive--i.e. full lock) for the duration. Or maybe that's what you want if you want everything else to queue up behind it. If you aren't updating "too many" rows this way is slower than just an update.


The first thing I'd suggest (from https://dba.stackexchange.com/questions/118178/does-updating-a-row-with-the-same-value-actually-update-the-row) is to only update rows that "need" it, ex:

 UPDATE myTable SET generalFreq = 0 where generalFreq != 0;

(might also need an index on generalFreq). Then you'll update fewer rows. Though not if the values are all non zero already, but updating fewer rows "can help" since otherwise it updates them and all indexes regardless of whether the value changed or not.

Another option: if the stars align in terms of defaults and not-null constraints, you can drop the old column and create another by just adjusting metadata, instant time.

  • Yeah, that actually seemed to help in my case. – Eric McLachlan Apr 2 at 19:32

How are you running it? If you are looping each row and performing an update statement, you are running potentially millions of individual updates which is why it will perform incredibly slowly.

If you are running a single update statement for all records in one statement it would run a lot faster, and if this process is slow then it's probably down to your hardware more than anything else. 3 million is a lot of records.

  • 1
    Hi Tom, thanks. I am running a single update from the psql command line. I understand 3 million is a lot but in my experience with other databases, it shouldn't take more than 10 min. to run a single update in one numeric column. – Ricardo Lage Jul 29 '10 at 11:00
  • I wouldn't of expected it to take so long either, especially with a constant assignment (setting all fields to 0), memory wise this should be pretty fast for a DB to handle. I've only limited experience with Postgres, but you could try doing it in batches of 100k and timing it to see how long you can expect the 3 million to run, it might just be the case Postgres isn't very good at this unusual operation. – Tom Gullen Jul 29 '10 at 11:06

In my tests I noticed that a big update, more than 200 000 rows, is slower than 2 updates of 100 000 rows, even with a temporary table.

My solution is to loop, in each loop create a temporary table of 200 000 rows, in this table I compute my values, then update my main table with the new values aso...

Every 2 000 000 rows, I manually "VACUUM ANALYSE mytable", I noticed that the auto vacuum doesn't do its job for such updates.



UPDATE myTable SET generalFreq = 0.0;

Maybe it is a casting issue

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