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.
- 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.
- 18.104.22.168 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)." -
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
( (tab.rowcnt - head.null_cnt) * col.length * 0.5
/* 50% average fill */
* 1.5 /* 75% usage after some delet/update */
+ 5 * ts.blocksize
, round(ts.blocksize * seg.blocks / 1024) cur_size_kb
( ts.blocksize * seg.blocks
/ ( sum((tab.rowcnt - head.null_cnt) * col.length * 0.5) * 1.5
+ 5 * ts.blocksize
, 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
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')
having ts.blocksize * seg.blocks / ( sum((tab.rowcnt - head.null_cnt) * col.length * 0.5) * 1.5 + 5 * ts.blocksize )
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