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We got this data model. Knowing the limited tree depth, our current tables are 1:1 to the model, with foreign keys to the parent node. Channel to Station, Measurement to Channel and Station. 90% of the queries is:

select value from measurements where
fk_station=X and fk_channel=Y and timestamp>=A and timestamp<=B
order by timestamp asc

The rest 10% is similar on the other timestamped tables, only simpler due to missing fk_channel.

Problem we are facing: there is hundreds of millions of unique [station,channel,timestamp] rows in Measurement table and growing. The timestamp index was alredy so huge and the ordering clause so slow that we had to start splitting it per Station Id; so we have tables Measurement_<Station Id> and the Station foreign key is left out. It helped significantly, but still some tables got tens of millions rows. In load peaks we got around 80000 queries/minute and queries on these bigger tables are observably lazier. We still run from one MySQL/ISAM instance without any fancy optimization hacks. About 150GB on the filesystem.

  1. is there any significantly different/better way to store such data model?
  2. with the current structure, is it normal that we got this kind of performance hiccups with this size/load? The machine is today's average hw, no embedded atom neither 8+ core beast
  3. was the splitting of Measurement table the right thing to do? We are no SQL gurus, but the query and the required index seemed so obvious that we didn't even consider "optimizing" it. Splitting helped a lot, but something else might too
  4. is there any other way of speeding up the index? It's kinda stupid that we must do the same index walking over and over, getting subsets of the same result. We won't ever use any other indexing, not even change to desc. It's very specialized appliance. Would be nice if the index is somehow "native order" :-)
  5. would it help to distribute/shard the splitted Measurement tables? As i said, some tables are still huge and the problem feels to be about the index size which distribution won't help, so perhaps just lowering the query load...
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2 Answers 2

up vote 1 down vote accepted

Simple rules to think about in relational dbs like mysql:

  1. Fetching too much data is never fast. Aggregating it can be. - your sample query is not aggregating anything. Makes me wonder if you crunch and aggregate those value in you application. Hint: Aggregate using column store engine eg. infinidb, it supports parallelism in query execution too, innodb doesn't.
  2. Sorting huge amount of data is never fast - ask yourself, if the query returns 100K records, how much does your crunching job/frontend grid etc consumes ? Can a web user consume 100K data on screen. Not really, then LIMIT it. Moreover sort by auto increment ID instead of timestamp. Relational db engines are not good for sorting huge chucks of data, you will hit ceiling soon.
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1. Aggregation is not an option, we need all those data. The only alternative would be implementing some kind of downsampling in a stored procedure, which is way beyond what we want to throw at the problem. –  Pavel Zdenek Oct 1 '12 at 17:23
2. The query returns max on the order of 10000 rows. It's all fed as-is to the frontend graphing package - which does the decimation mentioned in bullet 1. But i am genuinely interested in the "sort by ID" - we can imagine post-sorting at the frontend side. Does it mean that we won't need the index even for the timestamp range [A,B] selection? –  Pavel Zdenek Oct 1 '12 at 17:26
"Relational db engines are not good for sorting huge chucks of data" surprising news for me (SQL guru i am not). Can you point me to some enligtening reading about the matter? –  Pavel Zdenek Oct 1 '12 at 17:27
2. Do you have clustered index/primary key on timestamp? If not, try to write the same query so that you use the primary key. –  Nikhil S Oct 2 '12 at 9:00
I wrote some sample query, may be it might give you some idea as to how to play around clustered index. –  Nikhil S Oct 2 '12 at 9:20

Is there a possibility that splitting up Measurement data over more than one table can reduce the size? If 90% of the queries are over the last 24 hours of timestamps, then you might want to finetune that data, and store the rest in a separate table or even database. I believe the Measurement should have a FK only to Channel, which has only its ID as PK, and an FK to Station.

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I didn't say that 90% are limited to the last X hours :-) Quite opposite so. Very popular queries are like "give me the current month for years 2012-2009". –  Pavel Zdenek Oct 1 '12 at 17:30

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