Обсуждение: Parallel index build during COPY
It's not uncommon for index creation to take a substantial amount of time for loading data, even when using the 'trick' of loading the data before building the indexes. On fast RAID arrays, it's also possible for this to be a CPU-bound operation, so I've been wondering if there was some reasonable way to parallelize it in the context of a restore from pg_dump. Needless to say, that's a non-trivial proposition. But the thought occured to me: why read from the table we just loaded multiple times to create the indexes on it? If we're loading into an empty table, we could feed newly created pages (or tuples) into sort processes, one for each index. After the entire table is loaded, each sort could then be finalized, and the appropriate index written out. It's unclear if this would be a win on a small table, but not needing to make multiple read passes over a large table would almost certainly be a win. If someone wants to hack up a patch to allow testing this, I can get some benchmark numbers. -- Jim C. Nasby, Sr. Engineering Consultant jnasby@pervasive.com Pervasive Software http://pervasive.com work: 512-231-6117 vcard: http://jim.nasby.net/pervasive.vcf cell: 512-569-9461
NTT has some ideas about index creation during a large amount of data loading. Our approach is the following: index tuples are created at the same time as heap tuples and added into heapsort. In addition, we use old index tuples as sorted list if the target table has already data. It is not necessary for data loader to sort all the index tuples including old ones. After only new index tuples are sorted, both sorted lists are merged and the whole index is built. It can save both CPU resources and disk accesses dramatically, especially if the target table has already so many tuples. This approach needs to acquire a table lock, which is unlike COPY's lock mode, so we have developed it as another bulk load tool. We will talk about it in PostgreSQL Anniversary Conference at Toronto. Thank you for Josh’s coordination. Best regards, Jim C. Nasby wrote: > It's not uncommon for index creation to take a substantial amount of > time for loading data, even when using the 'trick' of loading the data > before building the indexes. On fast RAID arrays, it's also possible for > this to be a CPU-bound operation, so I've been wondering if there was > some reasonable way to parallelize it in the context of a restore from > pg_dump. Needless to say, that's a non-trivial proposition. > > But the thought occured to me: why read from the table we just loaded > multiple times to create the indexes on it? If we're loading into an > empty table, we could feed newly created pages (or tuples) into sort > processes, one for each index. After the entire table is loaded, each > sort could then be finalized, and the appropriate index written out. > It's unclear if this would be a win on a small table, but not needing to > make multiple read passes over a large table would almost certainly be a > win. > > If someone wants to hack up a patch to allow testing this, I can get > some benchmark numbers. -- Toru SHIMOGAKI NTT Opensource Software Center <shimogaki.toru@oss.ntt.co.jp>
On Jun 15, 2006, at 9:45 PM, Toru SHIMOGAKI wrote: > NTT has some ideas about index creation during a large amount of > data loading. Our approach is the following: index tuples are > created at the same time as heap tuples and added into heapsort. In > addition, we use old index tuples as sorted list if the target > table has already data. It is not necessary for data loader to sort > all the index tuples including old ones. After only new index > tuples are sorted, both sorted lists are merged and the whole index > is built. It can save both CPU resources and disk accesses > dramatically, especially if the target table has already so many > tuples. > This approach needs to acquire a table lock, which is unlike COPY's > lock mode, so we have developed it as another bulk load tool. We > will talk about it in PostgreSQL Anniversary Conference at Toronto. > Thank you for Josh’s coordination. So does that mean you're able to do all that without hacking the back- end? Impressive. :) I look forward to hearing about it. -- Jim C. Nasby, Sr. Engineering Consultant jnasby@pervasive.com Pervasive Software http://pervasive.com work: 512-231-6117 vcard: http://jim.nasby.net/pervasive.vcf cell: 512-569-9461