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Yes, fill factor again. I spend many hours reading and I can't decide which is the better fill factor for each case. The problem is I don't understand when and how the fragmentation is made. I'm migrating a database from MS SQL Server to a PostgreSQL 9.2.

Case 1) 10-50 inserts / minute in a sequential (serial) PK, 20-50 reads / hour.

CREATE TABLE dev_transactions
  transaction_id serial NOT NULL,
  transaction_type smallint NOT NULL,
  moment timestamp without time zone NOT NULL,
  gateway integer NOT NULL,
  device integer NOT NULL,
  controler smallint NOT NULL,
  token integer,
  et_mode character(1),
  status smallint NOT NULL,
  CONSTRAINT pk_dev_transactions PRIMARY KEY (transaction_id)

Case 2) Similar structure index for a PK sequential will writes in blocks (one shot) of ~50.000 registers each 2 months, readings 10-50 / minute.

A 50% fill factor means that in each insert will generate a new page and transport 50% of the existent records to a new generate page?

A 50% fill factor means that when create a new page the records copied will be spared to avoid insertions in between?

The new page is generate only if no room to allocate the record inserted?

As you can see I'm very confused; I would appreciate some help with it — maybe a good link to read about PostgreSQL and index fill factors.

share|improve this question
Are you doing updates on the table? The fill factor is related to update performance. –  Gordon Linoff Jan 6 '13 at 22:12
Never in the field I want the index, in both cases is PK and when is inserted it remain with the same valor forever. –  HMarioD Jan 6 '13 at 22:19

1 Answer 1

up vote 5 down vote accepted


With only INSERT and SELECT you should use a fillfactor of 100 everywhere.

There is no point in leaving wiggle room per memory block if you are not going to "wiggle" with UPDATEs.

The mechanism behind fillfactor is very simple. INSERTs only fill each data page (usually a 8 kb blocks) up to the percentage declared by the fillfactor setting. Also, whenever you run VACUUM FULL or CLUSTER on the table, the same wiggle room per block is re-established. Ideally, this allows UPDATEs to store new row version in the same data page, which can provide a substantial performance boost when dealing with lots of UPDATEs. Also beneficial in combination with H.O.T. updates (or rather: HOT allows to operate with a bigger fillfactor).
If there are no updates, don't waste space for this and set fillfactor = 100.

Basic source of information: the manual on CREATE TABLE or CREATE INDEX.

Other optimization

But you can do something else - since you seem to be a sucker for optimization ... :)

CREATE TABLE dev_transactions
( transaction_id serial PRIMARY KEY,
  gateway integer NOT NULL,
  moment timestamp NOT NULL,
  transaction_type smallint NOT NULL,
  status smallint NOT NULL,
  device integer NOT NULL,
  controler smallint NOT NULL,
  token integer,
  et_mode character(1));

This optimizes your table with regard to data alignment and avoids padding for a typical 64 bit server and saves a few bit .. probably just 8 byte on average (you can't usually squeeze out much with column tetris).
More details under this related question.

At the same time keeping NOT NULL columns at the start of the table for a very small performance bonus.

Also, your table has 9 columns. This means an extra 8 bytes for the extended NULL bitmask - which would fit into the initial 1-byte NULL bitmask for just 8 columns.
But if you define et_mode and token NOT NULL, so that all columns are NOT NULL, no NULL-bitmask is used at all, freeing up 8 bytes.
This even works per row if you don't declare the columns NOT NULL. If all columns have values, no NULL bitmask is added. In your case, this leads to the paradox effect that filling in values for et_mode and token can make your storage size smaller or at least stay the same.
More details in this related question.

Basic source of information: the manual on Database Physical Storage.

Compare this table (filled with some rows) with your original, to get definitive proof:

SELECT pg_column_size(t) FROM dev_transactions t;
share|improve this answer
"column tetris" +1! –  usr Jan 6 '13 at 22:55
@Erwin thank you very much, this information is very useful and yes I'm a fk sucker for optimisation. I will accept your answer. If you have some link for I understand in deep how the fill factor work, I'll appreciate. –  HMarioD Jan 6 '13 at 22:58
@HMarioD: I added some more explanation and links to my answer. –  Erwin Brandstetter Jan 6 '13 at 23:12
Thanks, one more question, I will add a index for transaction_id with fill factor of 100. The UNIQUE keyword is not necessary because the field is PK, right? –  HMarioD Jan 6 '13 at 23:25
@HMarioD: The whole index is not necessary because the field is the PK - which is implemented by way of a fully functional unique index in Postgres. You are already done here. ;) And yes, indexes inherit the fillfactor setting of the table (unless you specify otherwise). –  Erwin Brandstetter Jan 6 '13 at 23:27

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