Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I got a large (>100M rows) Postgres table with structure {integer, integer, integer, timestamp without time zone}. I expected the size of a row to be 3*integer + 1*timestamp = 3*4 + 1*8 = 20 bytes.

In reality the row size is pg_relation_size(tbl) / count(*) = 52 bytes. Why?

(No deletes are done against the table: pg_relation_size(tbl, 'fsm') ~= 0)

share|improve this question

2 Answers 2

up vote 22 down vote accepted

Calculation of row size is much more complex than that. There is a small fixed overhead per page (usually an 8 kb block) and more importantly, the HeapTupleHeader of 23 bytes (plus padding) per row. Read about the basics in the manual here.

You also need to understand alignment and padding, depending on MAXALIGN of your installation. On a typical 64-bit machine, you get 4 bytes of padding after 3 integer columns, because the timestamp column is left-aligned and needs to start at position 0.

So, one row occupies:

   23   -- heaptupleheader  
 +  1   -- padding or NULL bitmask   
 + 12   -- 3 * integer  
 +  4   -- padding after 3rd integer  
 +  8   -- timestamp  
 = 48 bytes

Finally, there is an ItemData pointer per tuple in the page header (as pointed out by @A.H. in the comment) that occupies 4 bytes, so we arrive at the observed 52 bytes.

The calculation pg_relation_size(tbl) / count(*) is a pessimistic estimation. pg_relation_size(tbl) includes bloat (dead rows) and space reserved by fillfactor, as well as overhead per table. Use the function pgstattuple('tbl_name') from the additional module pgstattuple for more precise measurement.

Related answer:

share|improve this answer
So then Postgres is not so good for huge tables with very short rows, eg. couple of ints. The 28 bytes overhead will always bloat it. Do you know if Postgres compresses these tables when holding them in cache? –  Arman Nov 26 '12 at 18:33
Isn't there also an addition per-row overhead in each block: The ItemData pointer (4 byte) to the actual tuple header? –  A.H. Nov 26 '12 at 18:33
@A.H.: Good point. Not part of the tuple itself, but the ItemData pointer is allocated in the page header per tuple and should explain the difference between 48 bytes in my calculation and the observed 52 bytes of disk space. I added a note to my answer. –  Erwin Brandstetter Nov 26 '12 at 18:38
@Arman: Representation of data in RAM needs even a bit more space. So no, no compression there. If you have long character strings they are compressed and possibly "toasted". More about TOAST in the manual here. So, there is a considerable overhead for very small tuples. Still, operations on tables are usually very fast, so don't fall for the temptation to prematurely denormalize your tables. If in doubt, run performance tests. –  Erwin Brandstetter Nov 26 '12 at 18:49
@ErwinBrandstetter: Hm, how do we make sense of this then: A 400M RAM Postgres server, with a 4G database (1 table), serving 30K cpm load with ease. About 50% reads/50% inserts into that 1 table. How can it possibly handle this much load with disk reads/writes? –  Arman Nov 26 '12 at 18:58

Each row has metadata associated with it. The correct formula is (assuming naieve alignment):

3 * 4 + 1 * 8 == your data
24 bytes == row overhead
total size per row: 23 + 20

Or roughly 53 bytes. I actually wrote postgresql-varint specifically to help with this problem with this exact use case. You may want to look at a similar post for additional details re: tuple overhead.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.