I have a SELECT statement that runs really slow, it's holding back our night process.

The query is: (Please don't comment about the implicit join syntax, this is automatically generated by Informatica that runs this code) :

SELECT *
  FROM STG_DIM_CRM_CASES,V_CRM_CASE_ID_EXISTS_IN_DWH,stg_scd_customers_key
 WHERE STG_DIM_CRM_CASES.CRM_CASE_ID = V_CRM_CASE_ID_EXISTS_IN_DWH.CASE_ID(+)
   AND STG_DIM_CRM_CASES.account_number = stg_scd_customers_key.account_number(+)
   and STG_DIM_CRM_CASES.Case_Create_Date between  stg_scd_customers_key.start_date(+) and  stg_scd_customers_key.end_date(+)

edit: The actual query selects only account_number,start_date,end_date and one other column which is not indexed.

Tables info :

STG_DIM_CRM_CASES

Index - (Account_Number,Case_Create_Date)
size - 270k records.

stg_scd_customers_key

Index - Account_Number,Start_Date,End_Date
Partitioned - End_Date
Size - 500 million records.

V_CRM_CASE_ID_EXISTS_IN_DWH(View) -

select  t.case_id
from crm_ps_rc_case t, dim_crm_cases x
where t.case_id=x.crm_case_id;

dim_crm_cases -

Indexed - (crm_case_id)
Size - 100 million .

crm_ps_rc_case -

Size - 270k records

Edit - If it wasn't clear, the view returns 270k records .

The query without the join to stg_scd is taking seconds, looks like it is the part that causing the performance issues, the view runs in seconds too although it is being joined to a 100 Million records table. Right now the query is taking somewhere between 12 to 30 minutes, depends how busy our sources are.

Here is the EXECUTION PLAN :

6   |   0 | SELECT STATEMENT                |                             |  3278K|  1297M|   559K  (4)| 02:10:37 |       |       |        |      |            |
7   |   1 |  PX COORDINATOR                 |                             |       |       |            |          |       |       |        |      |            |
8   |   2 |   PX SEND QC (RANDOM)           | :TQ10003                    |  3278K|  1297M|   559K  (4)| 02:10:37 |       |       |  Q1,03 | P->S | QC (RAND)  |
9   |*  3 |    HASH JOIN OUTER              |                             |  3278K|  1297M|   559K  (4)| 02:10:37 |       |       |  Q1,03 | PCWP |            |
10  |   4 |     PX RECEIVE                  |                             | 29188 |    10M| 50662   (5)| 00:11:50 |       |       |  Q1,03 | PCWP |            |
11  |   5 |      PX SEND HASH               | :TQ10002                    | 29188 |    10M| 50662   (5)| 00:11:50 |       |       |  Q1,02 | P->P | HASH       |
12  |*  6 |       HASH JOIN RIGHT OUTER     |                             | 29188 |    10M| 50662   (5)| 00:11:50 |       |       |  Q1,02 | PCWP |            |
13  |   7 |        BUFFER SORT              |                             |       |       |            |          |       |       |  Q1,02 | PCWC |            |
14  |   8 |         PX RECEIVE              |                             | 29188 |   370K| 50575   (5)| 00:11:49 |       |       |  Q1,02 | PCWP |            |
15  |   9 |          PX SEND BROADCAST      | :TQ10000                    | 29188 |   370K| 50575   (5)| 00:11:49 |       |       |        | S->P | BROADCAST  |
16  |  10 |           VIEW                  | V_CRM_CASE_ID_EXISTS_IN_DWH | 29188 |   370K| 50575   (5)| 00:11:49 |       |       |        |      |            |
17  |* 11 |            HASH JOIN            |                             | 29188 |   399K| 50575   (5)| 00:11:49 |       |       |        |      |            |
18  |  12 |             TABLE ACCESS FULL   | CRM_PS_RC_CASE              | 29188 |   199K|   570   (1)| 00:00:08 |       |       |        |      |            |
19  |  13 |             INDEX FAST FULL SCAN| DIM_CRM_CASES$1PK           |   103M|   692M| 48894   (3)| 00:11:25 |       |       |        |      |            |
20  |  14 |        PX BLOCK ITERATOR        |                             | 29188 |    10M|    87   (2)| 00:00:02 |       |       |  Q1,02 | PCWC |            |
21  |  15 |         TABLE ACCESS FULL       | STG_DIM_CRM_CASES           | 29188 |    10M|    87   (2)| 00:00:02 |       |       |  Q1,02 | PCWP |            |
22  |  16 |     BUFFER SORT                 |                             |       |       |            |          |       |       |  Q1,03 | PCWC |            |
23  |  17 |      PX RECEIVE                 |                             |   515M|    14G|   507K  (3)| 01:58:28 |       |       |  Q1,03 | PCWP |            |
24  |  18 |       PX SEND HASH              | :TQ10001                    |   515M|    14G|   507K  (3)| 01:58:28 |       |       |        | S->P | HASH       |
25  |  19 |        PARTITION RANGE ALL      |                             |   515M|    14G|   507K  (3)| 01:58:28 |     1 |  2982 |        |      |            |
26  |  20 |         TABLE ACCESS FULL       | STG_SCD_CUSTOMERS_KEY       |   515M|    14G|   507K  (3)| 01:58:28 |     1 |  2982 |        |      |            |
27  ------------------------------------------------------------------------------------------------------------------------------------------------------------
28   
29  Predicate Information (identified by operation id):
30  ---------------------------------------------------
31   
32     3 - access("STG_DIM_CRM_CASES"."ACCOUNT_NUMBER"="STG_SCD_CUSTOMERS_KEY"."ACCOUNT_NUMBER"(+))
33         filter("STG_DIM_CRM_CASES"."CASE_CREATE_DATE">="STG_SCD_CUSTOMERS_KEY"."START_DATE"(+) AND 
34                "STG_DIM_CRM_CASES"."CASE_CREATE_DATE"<="STG_SCD_CUSTOMERS_KEY"."END_DATE"(+))
35     6 - access("STG_DIM_CRM_CASES"."CRM_CASE_ID"="V_CRM_CASE_ID_EXISTS_IN_DWH"."CASE_ID"(+))
36    11 - access("T"."CASE_ID"="X"."CRM_CASE_ID")

Notes: Adding indexes may be an issue, depends on the index. This is not the only place this tables are being used, so indexes may interfere with other commands(Inserts mostly) on these tables.

I've also tried adding a filter on stg_scd and excluding all the dates smaller than the minimum date in Table_Cases, but that didn't help because it filtered only 1 year of records.

Thanks in advance.

  • I would consider that indexes are your best bet. – Mike Robinson Jul 27 '16 at 12:47
  • 1
    It is full plan? I don't see Table_Cases and stg_scd. – Evgeniy K. Jul 27 '16 at 13:25
  • Also I see at least one blocked operation 'BUFFER SORT'. It would be helpful if you post full plan. There can be more than one DFO tree. – Evgeniy K. Jul 27 '16 at 13:59
  • 1
    May be I don't understand smt but in your explain plan I see view V_Cases_Dwh and table CRM_PS_RC_CASE. In you description I don't see any mention about table CRM_PS_RC_CASE and for what query this explain plan(The query when your join Table_Cases,V_Cases_Dwh,stg_scd)?. (Please include @username when answer. Last time you for some reason have forgotten do that and I remember about this question tool late) – Evgeniy K. Jul 30 '16 at 8:46
  • 1
    Is there any chance of replacing (manually or otherwise) the query with modern join syntax? – Bohemian Aug 4 '16 at 22:43

THEORY: What I believe to be happening is the engine is having to resolve the 100m+ records from view join to 500m records BEFORE it applies limiting criteria (thus it creates a cross join and even if it can use indexes that's alot of records to generate then parse. So even though you wrote it as an outer join, the engine isn't able to processes it that way (I don't know why)

So at a minimum 100m*500m = 50,000m that's a lot of data to generate and then parse/limit.

By eliminating the view, the engine may be better able to optimize and use the indexes thus eliminating the need for the 50,000m record join.

Areas where I would focus my time in troubleshooting:

  • Eliminate the view just to remove it as a potential overhead issue.
  • Recognize no tie between stg_scd_customers_key and V_CRM_CASE_ID_EXISTS_IN_DWH exists. This means the engine may be doing a cross join BEFORE the results of STG_DIM_CRM_CASES to stg_scd_customers_key have been resolved.

CONSIDER eliminating the view, or using an inline view

Eliminating the view:

SELECT *
  FROM STG_DIM_CRM_CASES 
      ,crm_ps_rc_case t
      ,dim_crm_cases x 
      ,stg_scd_customers_key
 WHERE t.case_id=x.crm_case_id
   AND STG_DIM_CRM_CASES.CRM_CASE_ID = t.CASE_ID(+)
   AND STG_DIM_CRM_CASES.account_number = stg_scd_customers_key.account_number(+)
   AND STG_DIM_CRM_CASES.Case_Create_Date 
       between  stg_scd_customers_key.start_date(+) and stg_scd_customers_key.end_date(+)

using an inline view:

SELECT *
  FROM STG_DIM_CRM_CASES 
  (select  t.case_id
   from crm_ps_rc_case t, dim_crm_cases x
   where t.case_id=x.crm_case_id) V_CRM_CASE_ID_EXISTS_IN_DWH
      ,stg_scd_customers_key
 WHERE STG_DIM_CRM_CASES.CRM_CASE_ID = V_CRM_CASE_ID_EXISTS_IN_DWH.CASE_ID(+)
   AND STG_DIM_CRM_CASES.account_number = stg_scd_customers_key.account_number(+)
   AND STG_DIM_CRM_CASES.Case_Create_Date 
       between  stg_scd_customers_key.start_date(+) and stg_scd_customers_key.end_date(+)

As to why: - http://www.dba-oracle.com/art_hints_views.htm

While order of the where clause SHOULDN'T matter consider: On the off chase the engine is executing in the order listed, limiting the 500m down and then adding the supplemental data from the view would logically be faster.

SELECT *
  FROM STG_DIM_CRM_CASES,stg_scd_customers_key,V_CRM_CASE_ID_EXISTS_IN_DWH
 WHERE STG_DIM_CRM_CASES.account_number = stg_scd_customers_key.account_number(+)
   and STG_DIM_CRM_CASES.Case_Create_Date between  stg_scd_customers_key.start_date(+) and  stg_scd_customers_key.end_date(+)
   and STG_DIM_CRM_CASES.CRM_CASE_ID = V_CRM_CASE_ID_EXISTS_IN_DWH.CASE_ID(+)
  • The execution plan does not show any cross joins. – Jon Heller Aug 5 '16 at 16:44
  • I think I wasn't clear enough in the question, the view returns 270k records, and I believe the view is being processed by the optimizer before the outer query.. I'll give it a try when I'll get to work. Thanks for the answer . – sagi Aug 6 '16 at 0:12
  • 2
    maths: 100m*500m = 50,000mm = 50,000,000,000m (assuming m is million) – user5994461 Aug 12 '16 at 20:08

The problem is in scanning all partitions:

18 | PX SEND HASH | :TQ10001 | 515M| 14G| 507K (3)| 01:58:28 | | | | S->P | HASH | 25 | 19 | PARTITION RANGE ALL |
| 515M| 14G| 507K (3)| 01:58:28 | 1 | 2982 | |
| | 26 | 20 | TABLE ACCESS FULL | STG_SCD_CUSTOMERS_KEY | 515M| 14G|

It happens because you are using left join to this table. Can you select 1 partition using bind variable? What is partition key? I don't see hint for parallel but according to you plan it uses parallel. Is there parallel degree on any object level? Can you remove parallel and post explain plan without parallel please?

  • Nope, no parallel hint anywhere .. I don't know why it says so. Yea, it is a problem, but I do need to use all partitions, at least almost all of them. – sagi Aug 1 '16 at 15:48
  • @sagi You can check the objects for a parallel setting with a statement like this: select degree, dba_tables.* from dba_tables where trim(degree) <> '1';. It's also possible that parallelism is forced at the session level, or automated at the system level. You can override the parallelism with a hint like /*+ no_parallel */. – Jon Heller Aug 1 '16 at 16:56
  • But shouldn't this possibility speed up the process? All partitions are running parallel. @jonheller – sagi Aug 1 '16 at 22:23
  • @sagi Possibly but there are many ways that parallelism can go wrong. For example, if the indexes aren't parallel but the table is, Oracle may decide to use a parallel full table scan instead of a single-threaded index access. Maybe the parallel FTS is 10% faster but uses 64 threads - a slight improvement for the query but horribly inefficient for the system. If other queries are doing the same thing it can quickly bring the whole system to a crawl. It is easy to break a system with unexpected parallel queries - if you have found one of them, you should probably check for others. – Jon Heller Aug 1 '16 at 23:09
  • @sagi It looks like you might be in a situation where there are no magical access paths to make this run in seconds. 300K index reads could be expensive, especially if the index clustering factor is high. (That is, if the data is ordered randomly and thus requires reading 300K blocks from the table.) But even if you're stuck with full table scans there may be ways to improve performance - modify the DOP, try to reduce other system activity, check the raw I/O read performance for system issues, etc. – Jon Heller Aug 1 '16 at 23:18

I think the problem is the view, which I suspect is completely executing and returning all rows before conditions are being applied.

The overall effect of the view is to add the column CASE_ID that is not null if CRM_CASE_ID is found in it, null otherwise. I've replaced the view with two direct joins and a CASE expression. By replacing the convenience of the view with logic, you can join directly to each table in it and so avoid one level of join depth.

Try running this version of the query:

SELECT
  a.*, b.*, c.*,
  CASE WHEN t.case_id is not null and X.case_id is not null then t.case_id END CASE_ID
FROM STG_DIM_CRM_CASES a
LEFT JOIN crm_ps_rc_case t
  ON t.case_id = a.CRM_CASE_ID
LEFT JOIN dim_crm_cases x
  ON x.crm_case_id = a.CRM_CASE_ID
LEFT JOIN V_CRM_CASE_ID_EXISTS_IN_DWH b
  ON a.CRM_CASE_ID = b.CASE_ID
LEFT JOIN stg_scd_customers_key c
  ON a.account_number = c.account_number
 and a.Case_Create_Date between c.start_date and  stg_scd_customers_key.end_date

If you replace a.*, b.*, c.* with only the exact columns you actually need, you'll get a speed up because there's simply less data to return. If you also put indexes on looked-up keys plus all the columns you actually select (a covering index), you will speed it up considerably, because index-only access can be used.

You should verify there are indexes in all joined-to columns as a minimum.

  • Actually the view by it self is very fast, so I doubt this will solve the issue, but I'll try it when I'll get to work. Only the needed columns are being selected, I just didn't write them because they don't matter. Thanks for the answer. – sagi Aug 5 '16 at 18:45
  • @sagi the view could be fast by itself, but could make the other parts of the query very slow, take a llok at my answer – MtwStark Aug 11 '16 at 9:38

Your problem is that Oracle really only has two ways to get the rows it needs from stg_scd_customers_key. Either (A) it does a single FULL SCAN of that table and then filters out the rows it doesn't want or else (B) it does 270,000 index lookups, at 3 to maybe 5 logical I/Os each (depending on the height of your index), plus another 1 logical I/O to actually read the block from the table.

Given the multiblock read and other optimizations available with a FULL SCAN, and based on your table statistics, Oracle's optimizer is guessing that the FULL SCAN would be faster. And there's a good chance that it's right.

What you need to do is give Oracle a better option.

If you cannot use materialized views where you are, a good "poor man's" materialized view is something called a covering index. Now, that's not reasonable for your query, since you do a SELECT *. But do you really need every column from stg_scd_customers_key?

If you can pare down the list of columns you get from stg_scd_customers_key, you can create an index that (A) starts with account_number, start_date, and end_date and (B) includes all the other columns you need to select.

For example:

SELECT stg_im_crm_cases.*, V_CRM_CASE_ID_EXISTS_IN_DWH.*, stg_scd_customers_key.column_1, stg_scd_customers_key.column_2
  FROM STG_DIM_CRM_CASES,V_CRM_CASE_ID_EXISTS_IN_DWH,stg_scd_customers_key
 WHERE STG_DIM_CRM_CASES.CRM_CASE_ID = V_CRM_CASE_ID_EXISTS_IN_DWH.CASE_ID(+)
   AND STG_DIM_CRM_CASES.account_number = stg_scd_customers_key.account_number(+)
   and STG_DIM_CRM_CASES.Case_Create_Date between  stg_scd_customers_key.start_date(+) and  stg_scd_customers_key.end_date(+)

If you could make that your query, and create an index on stg_scd_customers_key (account_number, start_date, end_date, column_1, column_2), then you will have given Oracle a better alternative. Now it can read the index alone, instead of the table.

With tables that big, there are no guarantees until you try it. But covering indexes are often just what the doctor ordered. (All the usual caveats about new indexes apply of course).

  • Thank you for the answer. I commented about the columns selection in the comments, I forgot to erite it in the question. I actually select only the desired columns(account_number,start_date,end_date) which are indexed and one other column which is not. I can't add indexes on this specific table as it is being used somewhere else with huge inserts.. – sagi Aug 9 '16 at 20:52
  • Option C: A fast full index scan on an index covering Account_Number, Start_Date, and End_Date. ? – David Aldridge Aug 10 '16 at 12:37

some considerations:

1) INDEX
crm_ps_rc_case has no index on case_id this is a problem, you are joining 270k <-> 100m with HASH JOIN (not good)

2) SELECTED COLUMNS
the view V_CRM_CASE_ID_EXISTS_IN_DWH selects t.case_id but it should select x.crm_case_id instead, at least, until you do not resolve indexing of t.case_id. This will spread HASH JOIN over all your execution plan.. (not good)

3) BETWEEN
range joining/filtering is always a problem, especially on large tables but you could restrict the problem adding conditions on range. let me explain, try to add these conditions to your WHERE clause:

AND stg_scd_customers_key.end_date =  (
       SELECT min(r.end_date)
       FROM stg_scd_customers_key r
       WHERE  r.end_date >= STG_DIM_CRM_CASES.Case_Create_Date
)
AND stg_scd_customers_key.start_date =  (
       SELECT max(r.start_date)
       FROM stg_scd_customers_key r
       WHERE  r.start_date <= STG_DIM_CRM_CASES.Case_Create_Date
)

yes, it will calculate 270k * 2 subqueries, but the final join will work on much less recs limiting IO operations (it should be better)

4) INDEX COLUMN ORDER
there are conflicting reports if it does, or if it does not matter, but in my experience.. it does. It could be only a minor improvement but you can try to modify the index on stg_scd_customers_key inverting the order of Start_Date and End_Date, in my experience I have found it more efficient for range filtering to have the upper bound before the lower bound in the index.

I would consider creating a materialized view (with refresh fast on demand) for the join between Table_cases and stg_scd. I assume much of the work in the join is on rows that don't change from day to day.

  • My coworkers don't like MV very much.. So we can cross that of the list. – sagi Jul 28 '16 at 8:10
  • That's a pity. Perhaps you can show them the Oracle documentation for MV's - specifically the part about "one of the main uses of MV's is to pre-calculate expensive joins". Any particular reason they don't like MV's? – mathguy Jul 28 '16 at 10:56
  • We are all familiar here with MV , and I'm not sure exactly why, I guess they have their reasons. I already tried to convince them in the past that the use of MV's can be helpful, but no luck there:) – sagi Jul 28 '16 at 10:58

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