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I am using a UUID (36-chars) as a primary key in a table. Since we hit about 150mio records the inserts become very slow (seems to be due to the PK index).

Is there any way to improve that situation? Or do you guys have any idea?


  • Row length average of the 150 M rows.

    About 60 chars in total (10 columns, 8 are just IDs)

  • Definition of slow

    800-1000 rows per second

  • After how many rows loaded and at which moment does it become slow.

    afaik first one

  • How are you loading (SQL*Loader? SQL? Own code? Threads?)

    Informatica Powercenter

  • Exact Oracle version (select * from v$version)

    Oracle Database 11g Enterprise Edition Release - 64bit Production

share|improve this question
@MikeW, INSERT DELAYED is MySQL-only feature - but this question is tagged Oracle –  mvp Dec 10 '13 at 7:36
What leads you to suspect the PK index? Have you examined a trace file for a session doing a lot of inserts? –  Jeffrey Kemp Dec 10 '13 at 8:11
Are you invoking Oracle's direct path insert with Powercenter, and if you think you are have you checked the logs to confirm that you are? As I recall there were about 3 different ways of accidentally not using it. –  David Aldridge Dec 11 '13 at 8:22
hi @user2428207 has any of these answers been helpful to solve your problem? If not please add what was not successful to your question. When an answer helped you, can you accept it by clicking the hollow green check mark next to it? –  Guido Leenders Jan 31 at 7:41

2 Answers 2

First of all: 800-1000 rows per second - not that slow, especially from outer source. I guess you insert rows one-by-one and Oracle parses it every time and you have delays between every insert then.

About increasing performance:

A. Have a look if you have more indexes on your table.

Especially look for bitmap indexes because they are quite hard to be rebuilt.

Also you can easily check if a primary key is really a problem:

alter table <table> drop constraint <primary key>;

B. Have a look if you have "materialized view log" + "materialize view refresh on commit" on this table. This also can hurt very much.

If you want to achieve the fastest performance do not use indexes on a table at all and create a second one which is refreshed in shadow. Maybe, there is a point to use materialized view for this.

share|improve this answer
well the data is coming from another table. When I started populating that table I had about 10-12k inserts / s –  user2428207 Dec 10 '13 at 8:03
try to remove PK and you'll directly see the reason... You always can turn it back –  simon Dec 10 '13 at 8:05
If the data is coming from another table - why do you need your Primary Key at all? For "select" statements PK is mostly useless because only contains infromation about unique hits and therefore is slower than "TABLE ACCESS FULL" –  simon Dec 10 '13 at 8:08
I need the PK to be sure this UUID is unique. The table the data is coming from is just the staging area where the data is temporaly loaded from flatfiles. –  user2428207 Dec 10 '13 at 8:09
I just checked. And there seems to be a PK constraint (unique) AND a unique index. Does it make sense to use both? –  user2428207 Dec 10 '13 at 8:12

A primary key of 36 characters should not be an issue to really slow down inserting rows. A primary key is enforced using a index with unique values. 36 characters plus some overhead plus something extra for AL32UTF8 when used, still allows with 8 KB block size to fit many values in one index leaf block.

There is probably something else going on.

Please define:

  • Row length average of the 150 M rows.
  • Definition of slow
  • After how many rows loaded and at which moment does it become slow.
  • How are you loading (SQL*Loader? SQL? Own code? Threads?)
  • Exact Oracle version (select * from v$version)

Dropping index helped

From the additions, I've understood that after the dropping of the sole index (PK index), performance was reasonable (22K/s).

You might want to check the following:

  • Check what backend PowerCenter is using, depends on ETL job, version and possibilities of platform. Maybe it is insert/select, parallel yes/no or even extract and reload. For simplicity let's assume it is some parallel select and insert.
  • is a good Oracle release with rather few annoying bugs.
  • Depending on how the DBA configured space management, look at initrans and maxtrans of the PK index. First one determines number of transactions allowed to be active. Set initrans at for instance the number of concurrent inserts.
  • Check that the statistics on the data dictionary are either totally absent or up-to-date (look in dba_tables for instace).
  • Check that the statistics on your own tables are absent or reasonably accurate (alter table xxx compute statistics for table for all columns for all indexes). Repeat this step after each major change in the amount and/or distribution of data loaded.
  • Sometimes and especially on initial loading, the index might become too much fragmented. Maybe the values generated for UUID are contributing to this. Using a query you can detect this, but to keep it simple: always rebuild the index after initial loading table. Over time, the changes get smaller, going from 1 row to 1.000.000 is a big chagen, going from 1 million to 2 million isn't. You should need to do this only once now.

As a side note: 60 characters for a row with a 36 character column as primary key seems unrealistic small. Each ID takes approximately precision / 2 + 1 bytes (BCD format). But even when the row size would be double, it should not have a major impact.

Detecting indexes benefiting from rebuild

Addition upon request:

The following query is what I use to determine indexes eligible for rebuilding. Criteria at the end can be changed. For production use in an OLTP environment they are sufficient to sufficiently reduce unnecessary messages but still detect the real bad cases. Run as privileged user or grant read access to relevant data dictionary views. Should run on Oracle 8, 8i, 9 an 10. Not recently used on 11 or 12.

I know that directly querying data dictionary is not always desirable, for instance when using multiple editions of a data model, but this performs considerably better. Indexes benefiting from rebuild can be either benefit through storage (in the dark age we you only had a few MB on VMS server each KB is valuable) and sometimes better performance.

ttitle "Warning: Fragmented Indexes (&dbname)" -
      skip 2 "Corrective action:" -
      skip 1 "Rebuild index (rebuildIndexes.sql)." -
      skip 2

column owner       format a30         heading "Owner"
column ind_name    format a30         heading "Index"
column num_rows    format 999,999,990 heading "#Rows"
column cur_size_kb format 9,999,990   heading "Current Size (Kb)"
column est_size_kb format 9,999,990   heading "Est. Size (Kb)"
column ratio       format 9,990       heading "Ratio cur/est"

select /*+ rule */ usr.name owner
,      objind.name ind_name
,      round
         ( sum
           ( (tab.rowcnt - head.null_cnt) * col.length * 0.5
             /* 50% average fill */
           * 1.5 /* 75% usage after some delet/update */
           + 5 * ts.blocksize
         ) /1024
       ) est_size_kb
,      round(ts.blocksize * seg.blocks / 1024) cur_size_kb
,      round
       ( ts.blocksize * seg.blocks
         / ( sum((tab.rowcnt - head.null_cnt) * col.length * 0.5) * 1.5
             + 5 * ts.blocksize
       ) ratio
,      tab.rowcnt num_rows
from   sys.ind$ ind
,      sys.hist_head$ head
,      sys.col$ col
,      sys.icol$ icol
,      sys.obj$ objind
,      sys.obj$ objtab
,      sys.tab$ tab
,      sys.ts$  ts
,      sys.seg$ seg
,      sys.user$ usr
where  1=1
and    ts.ts# = seg.ts#
and    seg.file# = ind.file#
and    seg.block# = ind.block#
and    ind.obj# = objind.obj#
and    head.col# (+) = col.col#
and    head.obj# (+) = col.obj#
and    icol.obj# = ind.obj#
and    col.col# = icol.col#
and    col.obj# = objtab.obj#
       /* To save at least 25 Mb, the index must be over 25 Mb. */
and    ts.blocksize * seg.blocks > 25 * 1024
and    ind.bo# = objtab.obj#
and    objind.obj# = ind.obj#
and    tab.obj# = objtab.obj#
and    objtab.owner# = usr.user#
and    usr.name not in ('SYS','SYSTEM')
by     objind.name
,      ts.blocksize
,      seg.blocks
,      tab.rowcnt
,      usr.name
having ts.blocksize * seg.blocks / ( sum((tab.rowcnt - head.null_cnt) * col.length * 0.5) * 1.5 + 5 * ts.blocksize )
       >= 2
and    ( ts.blocksize * seg.blocks / 1024 )
       ( sum((tab.rowcnt - head.null_cnt) * col.length * 0.5) * 1.5
         + 5 * ts.blocksize
       ) / 1024
       > 25 * 1024
order by 5 desc
share|improve this answer
I updated my question, youll find the answers there –  user2428207 Dec 10 '13 at 7:47
Do you have any other indexes on the table? Do a trace on a sample run and see what is going on. –  Alen Oblak Dec 10 '13 at 7:57
no other indexes –  user2428207 Dec 10 '13 at 8:03
What do you mean by "fragmented" in this context, and how would a rebuild help? –  David Aldridge Dec 11 '13 at 8:23
Rebuild compresses all row points into smallest possible set. Reducing I/O, sometimes extremely. Also improving reuse of memory. I remember (before www become popular) driving back and forth 1.000 km just to rebuild an index at a customer site :-). For background: google, or jonathanlewis.wordpress.com/2010/07/22/fragmentation-4 or docs.oracle.com/cd/B19306_01/server.102/b14231/indexes.htm –  Guido Leenders Dec 11 '13 at 12:46

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