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I found this script on SQL Authority:

USE MyDatabase
GO
EXEC sp_MSforeachtable @command1=“print ’?' DBCC DBREINDEX (’?', ’ ’, 80)”
GO
EXEC sp_updatestats
GO

It has reduced my insert fail rate from 100% failure down to 50%. It is far more effective than the reindexing Maintenance Plan.

Should I also be reindexing master and tempdb? How often? (I write to this database 24 hrs a day) Any cautions that I should be aware of?

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First of all, could you please let us know the specs of the server. Ram is very cheap and so you should consider upgrading the hardware first. –  GateKiller Mar 11 '09 at 16:26
    
Dell Poweredge 2850, 4 Gigs RAM, 2 Procs (Xeon HT 3 GHz), 10/100/100 NIC, 300 GB primary HD (RAID 5), attached NAS (SCSI RAID 5) 3 TB holds user database, Win 2003 server, SQL 2000 v 8.00.2039 SP4 –  Jereme Hall Mar 11 '09 at 20:32
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4 Answers

This could be anything at all. Is the system CPU bound? IO bound? Is the disk too fragemented? Is the system paging too much? Is the network overloaded?

Have you tuned the indexes? I don't recall if there was an index tuning wizard in 2000, but at the least, you could run the profiler to create a workload that could be used by the SQL Server 2005 index tuning wizard.

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CPU bound: yes, 2 Xeon (hyper-threading) 3Ghz RAM bound: yes, 2 Gigs accessible by SQL Windows paging: yes, system pagefile usage is at 2.6 gigs, physical RAM is 4 Gigs, pagefile (not on C:) set at 6 gigs –  Jereme Hall Mar 11 '09 at 16:42
    
Tuned the indexes to 80% fillfactor, not sure if I'm padding to fragments.<br> <br> What is this profiler? –  Jereme Hall Mar 11 '09 at 16:44
    
I would seriously think about upping the ram to 4GB at a minimum. Also, I would change the fillfactor to something like 95-98%. Remember, whenever you do an update, you do a read too. –  GateKiller Mar 11 '09 at 16:50
    
Thank you, John. I'll follow those suggestions and post the results. Getting to know the profiler and index tuning wizard for the first time today. Glad you brought it up. –  Jereme Hall Mar 11 '09 at 19:41
    
GateKiller, I'll set the RAM to 4 GB and set fillfactor to 95. I did not think about every write being a read/write. Thanks. –  Jereme Hall Mar 11 '09 at 19:43
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Check out your query plans also. Some indexes might not be getting used or the SQL could be wholly inefficient.

What table maintenance do you have?

is all the data in the tables relevant to todays processing?

Can you warehouse off some data?

What is your locking like? Are you locking the whole table?

EDIT: The SQL profiler shows all interactions with the SQL Server. It should be a DBAs lifeblood.

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I had daily indexing, stat updating, integrity checking and diff backups. Weekly Sundays I have all of that and full backup instead of the diff. –  Jereme Hall Mar 11 '09 at 19:51
    
Not all of the data is relevant. Only the oldest and the newest Strange but true No idea what my locking situation is nor how to determine that (maybe the profiler?) Getting to know the profiler today –  Jereme Hall Mar 11 '09 at 19:52
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Thanks for all of the help. I'm not there yet, but getting better.

I can't do much about hardware constraints. All available RAM is allowed to SQL Fillfactor is set at 95 Using profiler, an hour's trace offered index tuning with suggested increase of 27% efficiency.

As a result, I doubled the amount of successful INSERTS. Now only 1 out of 4 are failing. Tracing now and will tune after to see if it gets better.

Don't understand locking yet.

For those who maintain SQL Server as a profession, am I on the right track?

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RAID 5 on your NAS? That's your killer.

An INSERT is logged: it writes to the .LDF (log) file. This file is 100% write (well, close enough).

This huge write to read ratio generates a lot of extra writes per disk in RAID 5.

I have an article in work (add later): RAID 5 writes 4 times as much per disk than RAID 10 in 100% write situations.

Solutions

You need to split your data and log files for your database at least.

Edit: Clarified this line: The log files need go to RAID 1 or RAID 10 drives. It's not so important for data (.MDF) files. Log files are 100% write so benefit from RAID 1 or RAID 10.

There are other potential isues too such as fragmented file system or many Vlog segments (depending on how your database has grown), but I'd say your main issue is RAID 5.

For a 3TB DB, I'd also stuff as much RAM as possible in (32GB if Windows Advanced/Enterprise) and set PAE/AWE etc. This will mitigate some disk issues but only for data caching.

Fill factor 85 or 90 is the usual rule of thumb. If your inserts are wide and not strictly monotonic (eg int IDENTITY column) then you'll have lots of page splits with anything higher.

I'm not the only one who does not like RAID 5: BAARF

Edit again:

Look for "Write-Ahead Logging (WAL) Protocol" in this SQL Server 2000 article. It's still relevant: it explains why the log file is important.

I can't find my article on how RAID 5 suffers compared to RAID 10 under 100% write loads.

Finally, SQL Server does I/O in 64k chunks: so format NTFS with 64k clusters.

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I'm reading up on the BAARF pages. Good explanations. I've got a lot of work to do to set up another array and move the databases. I've dreaded this but it is really no surprise. –  Jereme Hall Mar 12 '09 at 22:51
    
GBN, Can you clarify your second line? "The log files need go to RAID 1 or RAID 10 drives. It's not so important as the log files." I really appreciate your answer and want to understand all of it. –  Jereme Hall Mar 12 '09 at 22:54
    
Clarified + I forgot to get links from work.. will do later! –  gbn Mar 13 '09 at 5:54
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