Lee,
Thank you very much for your answer.
Using the signature field as the uniqueKey is effectively what I was
doing, so the "overwriteDupes=true" parameter in my solrconfig was
somehow redundant, although I wasn't aware of it! =D
In practice it works perfectly and that's the nice part.
By the way, I wonder what happens when we enter in the following code
snippet when the id field is the same as the signature field, from
addDoc@DirectUpdateHandler2(AddUpdateCommand) :
if(del) { // ensure id remains unique
BooleanQuery bq = new BooleanQuery();
bq.add(new BooleanClause(new TermQuery(updateTerm),
Occur.MUST_NOT));
bq.add(new BooleanClause(new TermQuery(idTerm), Occur.MUST));
writer.deleteDocuments(bq);
}
May be all my problems started from here...
I'll try to reproduce using a different uniqueKey field and turning
overwriteDupes back to "on" to see if the problem was because of the
signature field being the same as the uniqueKey field *and* having
overwriteDupes on, when I'll have some time. If so, maybe that a simple
configuration check should be performed to avoid the issue. Otherwise it
means that having overwriteDupes turned on simply doesn't scale and that
should be added to the wiki's Deduplication page, IMHO.
Thank you again.
Regards,
--
Tanguy
On 31/05/2011 14:58, lee carroll wrote:
Tanguy
You might have tried this already but can you set overwritedupes to
false and set the signiture key to be the id. That way solr
will manage updates?
from the wiki
http://wiki.apache.org/solr/Deduplication
<!-- An example dedup update processor that creates the "id" field on the fly
based on the hash code of some other fields. This example has
overwriteDupes
set to false since we are using the id field as the
signatureField and Solr
will maintain uniqueness based on that anyway. -->
HTH
Lee
On 30 May 2011 08:32, Tanguy Moal<tanguy.m...@gmail.com> wrote:
Hello,
Sorry for re-posting this but it seems my message got lost in the mailing
list's messages stream without hitting anyone's attention... =D
Shortly, has anyone already experienced dramatic indexing slowdowns during
large bulk imports with overwriteDupes turned on and a fairly high duplicates
rate (around 4-8x) ?
It seems to produce a lot of deletions, which in turn appear to make the
merging of segments pretty slow, by fairly increasing the number of little
reads operations occuring simultaneously with the regular large write
operations of the merge. Added to the poor IO performances of a commodity SATA
drive, indexing takes ages.
I temporarily bypassed that limitation by disabling the overwriting of
duplicates, but that changes the way I request the index, requiring me to turn
on field collapsing at search time.
Is this a known limitation ?
Has anyone a few hints on how to optimize the handling of index time
deduplication ?
More details on my setup and the state of my understanding are in my previous
message here-after.
Thank you very much in advance.
Regards,
Tanguy
On 05/25/11 15:35, Tanguy Moal wrote:
Dear list,
I'm posting here after some unsuccessful investigations.
In my setup I push documents to Solr using the StreamingUpdateSolrServer.
I'm sending a comfortable initial amount of documents (~250M) and wished to
perform overwriting of duplicated documents at index time, during the update,
taking advantage of the UpdateProcessorChain.
At the beginning of the indexing stage, everything is quite fast; documents
arrive at a rate of about 1000 doc/s.
The only extra processing during the import is computation of a couple of
hashes that are used to identify uniquely documents given their content, using
both stock (MD5Signature) and custom (derived from Lookup3Signature) update
processors.
I send a commit command to the server every 500k documents sent.
During a first period, the server is CPU bound. After a short while (~10
minutes), the rate at which documents are received starts to fall dramatically,
the server being IO bound.
I've been firstly thinking of a normal speed decrease during the commit, while
my push client is waiting for the flush to occur. That would have been a normal
slowdown.
The thing that retained my attention was the fact that unexpectedly, the server
was performing a lot of small reads, way more the number writes, which seem to
be larger.
The combination of the many small reads with the constant amount of bigger
writes seem to be creating a lot of IO contention on my commodity SATA drive,
and the ETA of my built index started to increase scarily =D
I then restarted the JVM with JMX enabled so I could start investigating a
little bit more. I've the realized that the UpdateHandler was performing many
reads while processing the update request.
Are there any known limitations around the UpdateProcessorChain, when
overwriteDupes is set to true ?
I turned that off, which of course breaks the intent of my built index, but for
comparison purposes it's good.
That did the trick, indexing is fast again, even with the periodic commits.
I therefor have two questions, an interesting first one and a boring second
one :
1 / What's the workflow of the UpdateProcessorChain when one or more processors
have overwriting of duplicates turned on ? What happens under the hood ?
I tried to answer that myself looking at DirectUpdateHandler2 and my
understanding stopped at the following :
- The document is added to the lucene IW
- The duplicates are deleted from the lucene IW
The dark magic I couldn't understand seems to occur around the idTerm and
updateTerm things, in the addDoc method. The deletions seem to be buffered
somewhere, I just didn't get it :-)
I might be wrong since I didn't read the code more than that, but the point
might be at how does solr handles deletions, which is something still unclear
to me. In anyways, a lot of reads seem to occur for that precise task and it
tends to produce a lot of IO, killing indexing performances when overwriteDupes
is on. I don't even understand why so many read operations occur at this stage
since my process had a comfortable amount of RAM (with Xms=Xmx=8GB), with only
4.5GB are used so far.
Any help, recommandation or idea is welcome :-)
2 / In the case there isn't a simple fix for this, I'll have to do with
duplicates in my index. I don't mind since solr offers a great grouping
feature, which I already use in some other applications. The only thing I don't
know yet is that if I do rely on grouping at search time, in combination with
the Stats component (which is the intent of that index), and limiting the
results to 1 document per group, will the computed statistics take those
duplicates into account or not ? Shortly, how well does the Stats component
behave when combined to hits collapsing ?
I had firstly implemented my solution using overwriteDupes because it would
have reduced both the target size of my index and the complexity of queries
used to obtain statistics on the search results, at one time.
Thank you very much in advance.
--
Tanguy
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--
Tanguy
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--
Tanguy