Re: [SPAM] Re: [PERFORM] Architectural question
On 3/23/16 4:14 AM, Moreno Andreo wrote: The main goal is to be *quick*. A doctor with a patient on the other side of his desk does not want to wait, say, 30 seconds for a clinical record to open. Let me explain what is the main problem (actually there are 2 problems). 1. I'm handling health data, and sometines they store large images (say an hi-res image of an x-ray). When their team mates (spread all over the city, not in the same building) ask for that bitmap (that is, 20 megabytes), surely it can't be cached (images are loaded only if requested by user) and searching a 35k rows, 22 GB table for the matching image should not be that fast, even with proper indexing (patient record number) Why wouldn't that be fast? Unless the TOAST table for that particular table is pretty fragmented, pulling up thumbnails should be very fast. I'd expect it to be the cost of reading a few pages sequentially. If you're mixing all your blobs together, then you might end up with a problem. It might be worth partitioning the blob table based on the size of what you're storing. 2. When I load patient list, their photo must be loaded as well, because when I click on the table row, a small preview is shown (including a small thumbnail of the patient's photo). Obviously I can't load all thumbs while loading the whole patient list (the list can be up to 4-5000 records and photo size is about 4-500kBytes, so it would be an enormous piece of data to be downloaded. I would think a thumbnail would be 30-40k or less, not 500k. It sounds like part of the problem is you should keep the thumbnails separate from the high-res file. But really you should probably do that for everything... I suspect there's parts of the UI when you want to display a fairly low-res version of something like an xray, only pulling the raw image if someone actually needs it. -- Jim Nasby, Data Architect, Blue Treble Consulting, Austin TX Experts in Analytics, Data Architecture and PostgreSQL Data in Trouble? Get it in Treble! http://BlueTreble.com -- Sent via pgsql-performance mailing list (pgsql-performance@postgresql.org) To make changes to your subscription: http://www.postgresql.org/mailpref/pgsql-performance
Re: [PERFORM] Architectural question
Il 23/03/2016 13:29, Mike Sofen ha scritto: -Original Message- Thomas Kellerer Wednesday, March 23, 2016 2:51 AM Jim Nasby schrieb am 11.03.2016 um 17:37: If the blob is in the database then you have nothing extra to do. It's handled just like all your other data. If it's a file in a file system then you need to: - Have application code that knows how and where to get at the file - Have a way to make those files available on all your webservers - Have completely separate backup and recovery plans for those files That's a lot of extra work. Sometimes it's necessary, but many times it's not. Don't forget the code you need to write to properly handle transactional access (writing, deleting) to the files You usually also need to distribute the files over many directories. Having millions of files in a single directory is usually not such a good idea. In my experience you also need some cleanup job that removes orphaned files from the file system. Because no matter how hard you try, to get updates/writes to the file system right, at some point this fails. Also from a security point of view having this in the database is more robust then in the file system. The downside of bytea is that you can't stream them to the client. The application always needs to read the whole blob into memory before it can be used. This might put some memory pressure on the application server. Thomas This is really an excellent conversation, and highlights the never-ending contemplation of blob storage. That seems like discussing about politics or religion :-) I've had to go through this dialog in two different industries - healthcare and now genomics, creating a new EMR (electronic medical record) system and storing and manipulating huge genomic data sets. I have, in both cases, ended up leaving the blob-type data outside of the database. Even though, as Thomas mentioned, it requires more database and app code to manage, it ends up allowing for both systems to be optimized for their respective duties. Our approach, still mantaining BLOBs in databases, is quite an hybrid, because BLOBs are not spread among DB tables, but we have a dedicated table, with an appropriate indexing, where 95% of our blobs (and 99% of blob storage) reside, so if we need to have a quick dump, we can exclude BLOBs table or treat it in a separate way (i.e. backup util in our app is made of two separate steps, clinical data and blobs). As I wrote in a previous post, we have our blobs encrypted, so it's more handy keeping them in DB rather than saving to a file (and, I think, quicker when the user request for any of these) In addition, the vastly smaller database sizes result in far faster backups and restores, transactional replication maintains it's speed, and in general, I find the fault tolerant behaviors to be excellent. Yes, losing track of a file would be very bad, and...we're only storing things like xray photos or ct scans (healthcare), or genomic processing results. In both cases, usually, the results can be recreated. That said, I've never lost a file so haven't needed to pull on that lever. In our case we have to assume that blob contents cannot be recreated. Patients can change family doctor... if a trial arise and a critical document is lost, he's on his own. That's why we have a daily-based automatic backup policy on the customer local server. My latest model is placing large genomic data onto the AWS S3 file system, keeping all of the metadata inside the database. It's working very well so far, but we're still in development. Mike -- Sent via pgsql-performance mailing list (pgsql-performance@postgresql.org) To make changes to your subscription: http://www.postgresql.org/mailpref/pgsql-performance
Re: [PERFORM] Architectural question
I have another suggestion. How about putting the images in RethinkDB? RethinkDB is easy to set up and manage, and is scalable and easy (almost trivial) to cluster. Many of the filesystem disadvantages you mention would be much more easily managed by RethinkDB. A while back I wrote a Foreign Data Wrapper for RethinkDB. I haven't updated it to the latest version, but it wouldn't be hard to bring it up to date. (It might even work as-is.) By leveraging the FDW, you could have all of the awesome Relational Power and performance of PostgreSQL combined with the scalable, easily clustered, NoSQL powers of RethinkDB, yet still have a common interface - if you need it. On Wed, Mar 23, 2016 at 8:29 AM, Mike Sofen wrote: > > -Original Message- > > Thomas Kellerer Wednesday, March 23, 2016 2:51 AM > > > > Jim Nasby schrieb am 11.03.2016 um 17:37: > > > If the blob is in the database then you have nothing extra to do. It's > handled > > just like all your other data. > > > > > > If it's a file in a file system then you need to: > > > > > > - Have application code that knows how and where to get at the file > > > - Have a way to make those files available on all your webservers > > > - Have completely separate backup and recovery plans for those files > > > > > > That's a lot of extra work. Sometimes it's necessary, but many times > it's not. > > > > Don't forget the code you need to write to properly handle transactional > access > > (writing, deleting) to the files > > > > You usually also need to distribute the files over many directories. > > Having millions of files in a single directory is usually not such a > good idea. > > > > In my experience you also need some cleanup job that removes orphaned > files > > from the file system. > > Because no matter how hard you try, to get updates/writes to the file > system > > right, at some point this fails. > > > > Also from a security point of view having this in the database is more > robust > > then in the file system. > > > > The downside of bytea is that you can't stream them to the client. The > > application always needs to read the whole blob into memory before it > can be > > used. This might put some memory pressure on the application server. > > > > Thomas > > This is really an excellent conversation, and highlights the never-ending > contemplation > of blob storage. I've had to go through this dialog in two different > industries - healthcare > and now genomics, creating a new EMR (electronic medical record) system > and storing > and manipulating huge genomic data sets. > > I have, in both cases, ended up leaving the blob-type data outside of the > database. Even > though, as Thomas mentioned, it requires more database and app code to > manage, it > ends up allowing for both systems to be optimized for their respective > duties. > > In addition, the vastly smaller database sizes result in far faster > backups and restores, > transactional replication maintains it's speed, and in general, I find the > fault tolerant > behaviors to be excellent. > > Yes, losing track of a file would be very bad, and...we're only storing > things like xray photos > or ct scans (healthcare), or genomic processing results. In both cases, > usually, the results > can be recreated. That said, I've never lost a file so haven't needed to > pull on that lever. > > My latest model is placing large genomic data onto the AWS S3 file system, > keeping all of > the metadata inside the database. It's working very well so far, but > we're still in development. > > Mike > > > > -- > Sent via pgsql-performance mailing list (pgsql-performance@postgresql.org) > To make changes to your subscription: > http://www.postgresql.org/mailpref/pgsql-performance >
Re: [PERFORM] Architectural question
> -Original Message- > Thomas Kellerer Wednesday, March 23, 2016 2:51 AM > > Jim Nasby schrieb am 11.03.2016 um 17:37: > > If the blob is in the database then you have nothing extra to do. It's > > handled > just like all your other data. > > > > If it's a file in a file system then you need to: > > > > - Have application code that knows how and where to get at the file > > - Have a way to make those files available on all your webservers > > - Have completely separate backup and recovery plans for those files > > > > That's a lot of extra work. Sometimes it's necessary, but many times it's > > not. > > Don't forget the code you need to write to properly handle transactional > access > (writing, deleting) to the files > > You usually also need to distribute the files over many directories. > Having millions of files in a single directory is usually not such a good > idea. > > In my experience you also need some cleanup job that removes orphaned files > from the file system. > Because no matter how hard you try, to get updates/writes to the file system > right, at some point this fails. > > Also from a security point of view having this in the database is more robust > then in the file system. > > The downside of bytea is that you can't stream them to the client. The > application always needs to read the whole blob into memory before it can be > used. This might put some memory pressure on the application server. > > Thomas This is really an excellent conversation, and highlights the never-ending contemplation of blob storage. I've had to go through this dialog in two different industries - healthcare and now genomics, creating a new EMR (electronic medical record) system and storing and manipulating huge genomic data sets. I have, in both cases, ended up leaving the blob-type data outside of the database. Even though, as Thomas mentioned, it requires more database and app code to manage, it ends up allowing for both systems to be optimized for their respective duties. In addition, the vastly smaller database sizes result in far faster backups and restores, transactional replication maintains it's speed, and in general, I find the fault tolerant behaviors to be excellent. Yes, losing track of a file would be very bad, and...we're only storing things like xray photos or ct scans (healthcare), or genomic processing results. In both cases, usually, the results can be recreated. That said, I've never lost a file so haven't needed to pull on that lever. My latest model is placing large genomic data onto the AWS S3 file system, keeping all of the metadata inside the database. It's working very well so far, but we're still in development. Mike -- Sent via pgsql-performance mailing list (pgsql-performance@postgresql.org) To make changes to your subscription: http://www.postgresql.org/mailpref/pgsql-performance
Re: [PERFORM] Architectural question
Il 23/03/2016 10:50, Thomas Kellerer ha scritto: Jim Nasby schrieb am 11.03.2016 um 17:37: If the blob is in the database then you have nothing extra to do. It's handled just like all your other data. If it's a file in a file system then you need to: - Have application code that knows how and where to get at the file - Have a way to make those files available on all your webservers - Have completely separate backup and recovery plans for those files That's a lot of extra work. Sometimes it's necessary, but many times it's not. Don't forget the code you need to write to properly handle transactional access (writing, deleting) to the files You usually also need to distribute the files over many directories. Having millions of files in a single directory is usually not such a good idea. In my experience you also need some cleanup job that removes orphaned files from the file system. Because no matter how hard you try, to get updates/writes to the file system right, at some point this fails. Also from a security point of view having this in the database is more robust then in the file system. The downside of bytea is that you can't stream them to the client. The application always needs to read the whole blob into memory before it can be used. This might put some memory pressure on the application server. Thomas I just wrote about it in my last message that I sent a few minutes ago We have blobs in a reserved table in each customer database, so we can keep up with privacy, since every blob is encrypted... so no extra work :-) Thanks Moreno.- -- Sent via pgsql-performance mailing list (pgsql-performance@postgresql.org) To make changes to your subscription: http://www.postgresql.org/mailpref/pgsql-performance
Re: [PERFORM] Architectural question
Jim Nasby schrieb am 11.03.2016 um 17:37: > If the blob is in the database then you have nothing extra to do. It's > handled just like all your other data. > > If it's a file in a file system then you need to: > > - Have application code that knows how and where to get at the file > - Have a way to make those files available on all your webservers > - Have completely separate backup and recovery plans for those files > > That's a lot of extra work. Sometimes it's necessary, but many times it's not. Don't forget the code you need to write to properly handle transactional access (writing, deleting) to the files You usually also need to distribute the files over many directories. Having millions of files in a single directory is usually not such a good idea. In my experience you also need some cleanup job that removes orphaned files from the file system. Because no matter how hard you try, to get updates/writes to the file system right, at some point this fails. Also from a security point of view having this in the database is more robust then in the file system. The downside of bytea is that you can't stream them to the client. The application always needs to read the whole blob into memory before it can be used. This might put some memory pressure on the application server. Thomas -- Sent via pgsql-performance mailing list (pgsql-performance@postgresql.org) To make changes to your subscription: http://www.postgresql.org/mailpref/pgsql-performance
Re: [SPAM] Re: [PERFORM] Architectural question
Il 11/03/2016 17:37, Jim Nasby ha scritto: On 2/22/16 8:40 AM, Moreno Andreo wrote: Il 18/02/2016 21:33, Jim Nasby ha scritto: Depending on your needs, could could use synchronous replication as part of that setup. You can even do that at a per-transaction level, so maybe you use sync rep most of the time, and just turn it off when inserting or updating BLOBS. This sounds good, and when everything is OK we have I/O operation split across the two servers; a small delay in synchronizing blobs should not be a big deal, even if something bad happens (because of XLOG), right? It all depends on what you can tolerate. You also don't have to use synchronous replication; normal streaming replication is async, so if you can stand to lose some data if one of the servers dies then you can do that. I can't tolerate data loss, so synchronous replication is mandatory (I had a case this week of a customer asking for an old document that I couldn't find in the database, either if the "attach present" flag was true... and I had a bit of a hard time trying to convince the customer it was his fault... :-) ) Last thing: should blobs (or the whole database directory itself) go in a different partition, to optimize performance, or in VM environment this is not a concern anymore? First: IMO concerns about blobs in the database are almost always overblown. In many places I've been they say, at last, "BLOBs are slow". So I considered this as another point to analyze while designing server architecture. If you say "don't mind", then I won't. It all depends. They're certainly a lot slower than handling a single int, but in many cases the difference just doesn't matter. The main goal is to be *quick*. A doctor with a patient on the other side of his desk does not want to wait, say, 30 seconds for a clinical record to open. Let me explain what is the main problem (actually there are 2 problems). 1. I'm handling health data, and sometines they store large images (say an hi-res image of an x-ray). When their team mates (spread all over the city, not in the same building) ask for that bitmap (that is, 20 megabytes), surely it can't be cached (images are loaded only if requested by user) and searching a 35k rows, 22 GB table for the matching image should not be that fast, even with proper indexing (patient record number) 2. When I load patient list, their photo must be loaded as well, because when I click on the table row, a small preview is shown (including a small thumbnail of the patient's photo). Obviously I can't load all thumbs while loading the whole patient list (the list can be up to 4-5000 records and photo size is about 4-500kBytes, so it would be an enormous piece of data to be downloaded. 30GB of blobs on modern hardware really isn't a big deal, and there's a *lot* to be said for not having to write the extra code to manage all that by hand. What do you mean? Extra code? If the blob is in the database then you have nothing extra to do. It's handled just like all your other data. If it's a file in a file system then you need to: - Have application code that knows how and where to get at the file - Have a way to make those files available on all your webservers - Have completely separate backup and recovery plans for those files That's a lot of extra work. Sometimes it's necessary, but many times it's not. In my case I think it's not necessary, since all blobs go into a bytea field in a table that's just for them. It's an approach that helps us keeping up with privacy, since all blobs are encrypted, and can be accessed only by application. When it comes to your disk layout, the first things I'd look at would be: - Move the temporary statistics directory to a RAM disk - Move pg_xlog to it's own partition So I need another vDisk, not that big, for pg_xlog? Yeah, but note that with virtualization that may or may not help. I was afraid of that. With virtualization we are bound to that hardware lying behind us, and that we can't see nor control. Even if we create 2 vDisk, they should be bound to the same host spindles, and so having two vDisk is completely useless. I'm thinking of increase checkpoint_segments interval, so In the next two week I should have the VM deployed, so I'll see what I'll have in terms of speed and response (looking at the amount we are paying, I hope it will be a very FAST machine... :-D) Thanks Moreno.- -- Sent via pgsql-performance mailing list (pgsql-performance@postgresql.org) To make changes to your subscription: http://www.postgresql.org/mailpref/pgsql-performance