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Picture a simple table structure:

Table1        Table2
----------    ----------
ID<-------|   ID
Name      |-->Table1ID

Table1 has a few million rows (say 3.5 million for example). I issue a delete by PK:


There is no row in Table2 that references Table1 with ID = 100, so the delete works without violating any FK constraints.

How long would you expect the delete to take? On the order of a few milliseconds? A few hundred milliseconds? A second or more? A few seconds? Etc., assuming the machine is not bogged down and readily handles the request.

Now, I have this situation where a delete like this is taking around 700ms. To me, this seems too slow. I'm curious if I'm off-base or if others agree this is too slow, and recommendations to help make it faster!

Here is the actual execution plan:

Execution Plan

(XML Execution plan here: http://pastebin.com/q9hSMLi3)

The Clustered Index Delete (81%) hits the Clustered PK, a Non-Clustered Unique Index, and a Non-Clustered Non-Unique Index.

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When you say this table has a few million rows are you talking about Table1 or Table2? If Table2 has a few millions rows and there's no index on Table1ID, this could be pretty slow.. –  Mike Christensen Dec 12 '12 at 17:30
Sorry, Table1 has 3.5mil rows. –  Josh M. Dec 12 '12 at 17:34
Yea, deleting a single row by its primary key should be super fast.. Doing the lookup on Table2 is probably where the slow-down is. Can you post the execution plan please? –  Mike Christensen Dec 12 '12 at 17:41
Execution plan added. –  Josh M. Dec 12 '12 at 17:45
Could you please post the XML plan? I'm suspicious of the FK validation Scan. It should be a seek into an index. I'd also like to check the delete operator and look at the indexes affected. –  usr Dec 12 '12 at 17:50

2 Answers 2

up vote 3 down vote accepted

The issue is the clustered index scan to validate the foreign key.

When the delete succeeds and there are no matching records that would cause a violation then all of table2 needs to be scanned. This table has 1,117,190 rows so this is an expensive operation that could definitely benefit from an index.

The 10% figure shown in the execution plan is just an estimate based on certain modelling assumptions.

The entire plan is costed at 0.0369164 with the scan on table 2 costed at 0.0036199 and everything else accounting for the remaining 0.0332965. However notice that for the clustered index scan operator the Estimated CPU Cost is 1.22907 and Estimated IO Cost is 10.7142 (totaling 11.94327 not 0.0369164).

The reason for this discrepancy is that the scan is under an anti semi join operator and the scan can stop as soon as a matching row is found. The estimated subtree cost is scaled down under the modelling assumption that this will happen after only a very small proportion of the table has been scanned.

In the case that there are no FK violations and the delete succeeds then the entire table needs to be scanned so it would be more informative to use the unscaled down figure.

If the percentages are reworked out using the 11.94327 cost for that operator that represents the full scan that happened in practice then this scan operator shows up as being 99.7% of the plan cost (11.94327 / (11.94327 + 0.0332965)).

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Thanks, adding an index atop the FK for "Table2" resulted in a 10x faster delete! –  Josh M. Dec 12 '12 at 18:56

If all pages being touched are in cache you can expect about 1ms or less for the CPU cost and the log write. The client library overhead might actually be more in terms of CPU than the server load.

For each page not in cache you can expect a disk seek of 5-10ms on a magnetic disk. Roughly, you can expect one such access per index being touched in Table1 plus one access in Table2 to validate the FK.

The execution plan tells you for sure which physical ops are to be performed.

700ms seems like a lot (70 indexes?!). Please post the actual execution plan. The server is unloaded and there is no blocking due to locks?

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Remember that a foreign key isn't indexed by default, so if it has to scan table2 for validation, I highly doubt we are talking about a single page access. Also the PK in table1 might not be clustered. There could also be triggers, CDC, Change Tracking - all kinds of things that can impact the base operation. –  Aaron Bertrand Dec 12 '12 at 17:40
Thank you. I've added the execution plan to the original post. –  Josh M. Dec 12 '12 at 17:44
@AaronBertrand - thanks. The PK is indeed clustered. As you can see in the execution plan, the FK lookup/validation is 10% of the cost. –  Josh M. Dec 12 '12 at 17:46
The execution plan shows maintenance for 2 non clustered indexes. @JoshM - It is scanning the whole of a 1,117,190 row table (as you say there are no matches) so that 10% cost estimate seems woefully wrong. If you index the FK column in table2 things should improve. Maybe it uses the containment assumption here and assumes that the join will likely to return a match. If so doesn't seem that appropriate an assumption in this case. –  Martin Smith Dec 12 '12 at 18:25
@MartinSmith - looks like you're right. I added an index atop the FK and the delete went from 700ms to 73ms. Excellent! Convert your comment to an answer and I'll accept it. –  Josh M. Dec 12 '12 at 18:30

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