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I have a table in pg like so:

    a BIGSERIAL NOT NULL,               -- 8 b
    b SMALLINT,                         -- 2 b
    c SMALLINT,                         -- 2 b
    d REAL,                             -- 4 b
    e REAL,                             -- 4 b
    f REAL,                             -- 4 b
    g INTEGER,                          -- 4 b
    h REAL,                             -- 4 b
    i REAL,                             -- 4 b
    j SMALLINT,                         -- 2 b
    k INTEGER,                          -- 4 b
    l INTEGER,                          -- 4 b
    m REAL,                             -- 4 b

The above adds up to 50 bytes per row. My experience is that I need another 40% to 50% for system overhead, without even any user-created indexes to the above. So, about 75 bytes per row. I will have many, many rows in the table, potentially upward of 145 billion rows, so the table is going to be pushing 13-14 terabytes. What tricks, if any, could I use to compact this table? My possible ideas below ...

Convert the real values to integer. If they can stored as smallint, that is a saving of 2 bytes per field.

Convert the columns b .. m into an array. I don't need to search on those columns, but I do need to be able to return one column's value at a time. So, if I need column g, I could do something like

SELECT a, arr[5] FROM t;

Would I save space with the array option? Would there be a speed penalty?

Any other ideas?

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I think Erwin's answer is most appropriate answer here for the accepted answer. – Masi Oct 1 '15 at 16:54
up vote 5 down vote accepted

I see nothing to gain (and something to lose) in storing several numeric fields in an array.

The size of each numerical type is clearly documented, you should simply use the smallest sized type compatible with your desired range-resolution; and that's about all you can do.

I don't think (but I'm not sure) if there is some byte alignment requirement for the columns along a row, in that case a reordering of the columns could alter the space used - but I don't think so.

BTW, there is a fix overhead per row, about 23 bytes.

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As of 9.2, it's 24 bytes per row for the row header and 4 bytes for the page offset (stored in the page header), or 28 bytes per row. There are other items that can come in to play, for example 1 byte per 8 columns that support NULL values (NULL values are stored as a bitmask). – Sean Oct 14 '12 at 20:04
@Sean: This is not quite correct. The row header (HeapTupleHeader) has 23 Bytes, not 24, according to the manual here: There is a fixed-size header (occupying 23 bytes on most machines), followed by an optional null bitmap, an optional object ID field. The difference is relevant, the NULL bitmask for tables with up to 8 columns fits into this one spare byte making NULL storage effectively free for these tables. – Erwin Brandstetter Oct 15 '12 at 15:09
Correct, however due to alignment of data types, between bytes 23 and 24 there is almost certainly a hole, and starting on byte 25 an INT begins. So the header is only 23 bytes, but the space consumed is 24 bytes. – Sean Oct 15 '12 at 18:31

Actually, you can do something, but this needs some deeper understanding. The keyword is alignment. Every data type has specific alignment requirements. You need to understand the storage mechanisms to take advantage.

You may be able to save a couple of bytes per row if you arrange your columns accordingly. First you need to know MAXALIGN on your server - typically 8 bytes on a 64-bit OS (or 4 bytes on a 32-bit OS). If you are not sure, check out pg_controldata.

Run the following in your Postgres binary dir to get a definitive answer:

./pg_controldata /path/to/my/dbcluster

You can minimize space lost to padding between columns by ordering them favorably. Assuming MAXALIGN to be 8 bytes, the following (extreme) example would waste a lot of physical disk space:

    e int2    -- 6 bytes of padding after int2
  , a int8
  , f int2    -- 6 bytes of padding after int2
  , b int8
  , g int2    -- 6 bytes of padding after int2
  , c int8
  , h int2    -- 6 bytes of padding after int2
  , d int8)

To save 24 bytes per row, use instead:

    a int8
  , b int8
  , c int8
  , d int8
  , e int2
  , f int2
  , g int2
  , h int2)   -- 4 int2 occupy 8 byte (MAXALIGN), no padding at the end

Generally speaking, if you put 8-byte columns first then 4-bytes, 2-bytes and 1-byte columns last you can't go wrong. text or boolean do not have alignment restrictions like that, some other types do. The next tuple starts with the next 8-byte block, after padding at the end of the previous one if need be.

There is nothing to gain in the example you posted. It's already packed tightly. 2 bytes of padding after the last int2, 4 bytes at the end. You could consolidate the padding to 6 bytes at the end, which wouldn't change anything.

Normally, you may save a couple of bytes per row at best playing column tetris. None of this is necessary in most cases. But with billions of rows it can mean a couple of gigabytes easily.

You can test the actual size (and verify my claims) with the function pg_column_size().

SQL Fiddle.

If you would use an array like you were evaluating, you would add 24 bytes of overhead for the array type alone. Plus, elements of an array occupy space as usual. Nothing to gain there.

There are a couple of other factors for size on disk to take into account:

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