Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

Is there a way around 500 entities / second / partition with ATS (Azure Table Storage)? OK with dirty reads. If in insert is not immediately available for read then OK.

Looking to move some large tables from SQL to ATS.

  • Scale: Because of these tables the size is bumping the 150 GB limit of SQL Azure

  • Insert speed:  Inverted index for query speed.  Insert order is not sorted by the table clustered index which causes rapid SQL table fragmentation.  ATS most likely has an insert advantage over SQL.

  • Cost: ATS has a lower monthy cost. But ATS has a higher load cost as millions of rows and cannot batch as the order of the load is not by partition.

  • Query speed: A search is almost never on just one partitionKey. A search will have a SQL component and zero or more ATS components. This ATS query is always by partitionKey and returning rowKeys. Raw search on partitionKey is fast the problem is the time to return the entities (rows). A given partitionKey will have on average 1,000 rowKeys which is 2 seconds at 500 entities / second / partition. But there will be some partitionKeys with over 100,000 rowKeys which equates to over 3 minutes. Return 10,000 rows at a time and in SQL and no query is over 10 seconds as with the power of joins don't have to bring down 100,000 rows to have those rows considered in the where.

  • Is there a was around this select entity speed with ATS? For scale and insert speed would like to go to ATS.

Windows Azure Storage Abstractions and their Scalability Targets

How to get most out of Windows Azure Tables

Designing a Scalable Partitioning Strategy for Windows Azure Table Storage

Turn entity tracking off for query results that are not going to be modified: context.MergeOption = MergeOption.NoTracking;

share|improve this question
up vote 2 down vote accepted

One potential workaround is to stripe the data across multiple partitions and/or tables, perform queries across all the (sub)partitions in parallel and merge the results.

For example, for striping across partitions, prepending the partition key with a single digit can multiple the scalability of the partition 10 times.

So a partition key, say ABCDEFGH, could be sub partitioned 0ABCDEFGH to 9ABCDEFGH.
Writes are made to a partition, with the prefix digit generated either randomly or in round robin fashion. Reads would query across all 10 partitions in parallel and merge the results.

For striping across tables, one of N tables can be written to randomly or in round robin fashion and queried similarly in parallel.

share|improve this answer
Thanks, A straight X:1 does not fit the data but I get the concept. Some partitionKeys will have 1 rowKey and some 1 million. Need a smart insert that generates new partitionKeys based on rowKey count. Back to 500/entities/second limit. Understand could use another table to manage the count rather than actually counting. 500 still limits migrating this. If that 500 was a 5000 then I think this approach would get me there. Not going to mark as an answer (yet) but I have up voted many of your answers and thanks again. – Paparazzi Jul 12 '12 at 15:09
@Blam – Yes, you get the concept and as you mentioned, this may not be very efficient/effective if the number of rows per partition vary dramatically. Another approach could be to use dual storage- Azure SQL and blob. Azure SQL would be the primary storage and blob the secondary. A background process would move rows out of the SQL database and into a blob per partition, depending on usage/aging scenarios. At query time, both SQL and blob could be queried in parallel and the results merged. – hocho Jul 14 '12 at 22:42
SQL insert speed is a what I need to get away from. After just two hours of fragmentation fragmentation I wish for 500 inserts / second. I may go the opposite direction and index into ATS then merge to SQL. – Paparazzi Jul 15 '12 at 1:55
Still cannot understand 500 / second limit but Lucifure that is not your problem and you get the check. – Paparazzi Jul 25 '12 at 12:20

Edit: I had originally stated that the limit was 500 transaction/partition/sec. That was incorrect. The limit is actually 500 entities/partition/sec, as stated in the original question.

This also applies to the query speeds you've calculated. If you query an ATS PartitionKey and it returns 1000 entities, that will likely take only a little longer, perhaps a few hundred milliseconds, than returning a single entity. On the other hand, if the query returns more than 1000 entities it will be much slower, as each set of 1000 rows requires an essentially independent transaction and must be done in serial.

It's not completely clear to me what you're doing, but it sounds like a lot of querying. Keep in mind that querying ATS on non-key columns tends to be very slow. If you're doing a lot of that, you might be better served by using SQL Azure Federations and fan-out queries instead.

share|improve this answer
OK, might be better with SQL. Please show me a link on 500 transactions/partition/sec. I see very specific references to 500 entities/partition/sec. See the links I added to the question. On the second link there is even a comment that cannot get past 500 entities even with use of batches. Yes 1000 rows from a single partition is one transaction. Search is on partitionKey and returning rowKey. Why would I need SQL Azure Federation. – Paparazzi Jul 11 '12 at 20:41
You were right about the scalability targets. I remembered the wrong measurement for those. Thanks for setting me straight. I suggested SQL Azure Federations because that would let you scale SQL Azure to larger data capacity, which was one of your reasons for evaluating ATS. – Brian Reischl Jul 11 '12 at 21:49
What is strange is the same limit for read, insert, update, batch insert, and batch update. Clearly there is some throttling going on. Since no one from MSFT has answered I get that impression that is a pretty hard throttle and it is not going away any time soon. – Paparazzi Jul 11 '12 at 22:12

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.