I'm new to open source stacks and have been playing with hibernate/jpa/jdbc and memcache. I have a large data set per jdbc query and possibly will have a number these large data sets where I eventually bind to a chart.
However, I'm very focused on performance instead of hitting the database per page load to display it on my web page chart.
Are there some examples of how (memcache, redis, local or distributed) and where to cache this data (jSON or raw result data) to load in memory? Also I need to figure out how to refresh the cache unless it's a time based eviction marking algorithm (i.e. 30min expires so grab new data from data base query instead of using cache or perhaps an automated feed of data into the cache every xhrs/min/etc).?
Thanks!
This is typical problem and solution not straight forward. There are many factor which determine your design. Here is what we did sometime ago
Since our queries to extract data were a bit complex (took around a min to execute) and large dataset, we populated the memcache from a batch which used to pull data from database every 1 hour and push it to the memcached. By keeping the expiry cache larger than the batch interval, we made sure that where will always be data in cache.
There was another used case for dynamic caching, wherein on receiving the request for data, we checked first the memcached and if data not found, query the database, fetch the data, push it to memcached and return the results. But I would advise for this approach only when your database queries are simple and fast enough not to cause the poor overall response.
You can also used Hibernat's second level cache. It depends on your database schema, queries etc. to use this feature efficiently.
Hibernate has built-in support for 2nd level caching. Take a look at EhCache for example.
Also see: http://docs.jboss.org/hibernate/orm/3.3/reference/en/html/performance.html#performance-cache
Related
Give this
public void do(RequestObject request, Callback<RequestObject> callback);
Where Callback is called when the request is processed. One client has to set status of the request to the database. The client fetches some items passes them to the above method and the callback sets the status.
It was working ok for small number of items and slower IO. But now, the IO is speed up and the status is written to database vary frequently. This is causing my database (MySQL) to make so many disk read write calls. My disk usage goes through the roof.
I was thinking of aggregating the setting of status but power in not reliable, that is not a plausible solution. How should re'design this?
EDIT
When the process is started I insert a value and when there is an update, I fetch the item and update the item. #user2612030 Your question lead me to believe, using hibernate might be what is causing more reads than it is necessary.
I can upgrade my disk drive to SSD but that would only do so much. I want a solution that scales.
An SSD is a good starting point, more RAM to MySQL should also help. It can't get rid of the writes, but with enough RAM (and MySQL configured to use it!) there should be few physical reads. If you are using the default configuration, tune it. See for example https://www.percona.com/blog/2016/10/12/mysql-5-7-performance-tuning-immediately-after-installation/ or just search for MySQL memory configuration.
You could also add disks and spread the writes to multiple disks with multiple controllers. That should also help a bit.
It is hard to give good advice without knowing how you record status values. Inserts or updates? How many records are there? Data model? However, to really scale you need to shard the data somehow. That way one server can handle data in one range and another server data in another range and so on.
For write-heavy applications that is non-trivial to set up with MySQL unless you do the sharding in the application code. Most solutions with replication work best for read-mostly applications. You may want to look into a NoSQL database, for example MongoDB, that has been designed for distributing writes from the outset. MongoDB has other challenges (eventual consistency), but it can deliver scalable writes.
Some of the RDBMS tables have million of records and some have few thousands. I am already caching those records in ehcache. Say I have million of customers already cached in
ehcache from DB table. Now have to search/filter customers on multiple attributes which is decided at run time
One approach is apply filtering on cached data. Good thing is here i can save IO calls which are costly Bad thing is I need to do filtering in application(java)
Second approach is fetch the data from DB using DB index. Good thing is i can use DB index which will eliminate scanning through all records . Bad thing is i need to make
IO calls.
Which is better approach performance wise ?
One approach is apply filtering on cached data. Good thing is here i can save IO calls which are costly Bad thing is I need to do filtering in application(java)
You cannot be sure that your cache contains all data, and that it is consistent. Making your cache is in sync with the database, possibly honoring transactions, leads you to many other problems.
If we are talking about a read-only, analytical and data fits complete in memory, you can load everything into the appropriate data structures (HashMap, Tree, etc.). Then you don't need a cache.
Filtering on cached data, typically means sequential scan through the data. This might be not very fast. Some caches provide indexing, but then you are locked in to very vendor specific extensions.
Second approach is fetch the data from DB using DB index. Good thing is i can use DB index which will eliminate scanning through all records . Bad thing is i need to make IO calls.
If all your data is not in the cache, you need to do a DB request anyways and the DB needs to do the index access anyway, too. A database query can just return IDs so you can save the redundant transfer of the row data. Consistency may be an issue here.
Which is better approach performance wise?
Also keep in mind that there is also your personal performance as programmer. Making to complex solutions will not make you happy and look good in the long run.
What you need to do depends on the cost of database I/O and your problem domain.
I work with a very large, enterprise application written in Java which queries an Oracle SQL database. We use JavaScript on the front end, and are always looking for ways to improve upon the performance of the application with increased use.
The issue we're having right now is that we are sending a query, via Java, that results in 39,000 records. This is putting a significant load on the server and causes the browser to hang. I should mention that the data is relatively static (only changes about once a year) and we could use an xml map or something similar (flat file) since we know the exact results that will be returned each time.
The query, however, is still taking 1.5 - 2 minutes to load, which is unacceptable. I wanted to see if there were any suggestions as to how this scenario can be optimized, especially if it can be done any quicker with JavaScript (or jQuery) and using AJAX for the db connection. Or, are we going about this problem all wrong?
You want to determine if the slowness is due to:
the query executing in the database
the network is slow returning 39k records
the javascript working with the 39k records after the ajax is complete
If you can run the query in sqlplus or toad, this will eliminate the web-tier and network all together. If this is slow, then tune the query by checking indexes.
If after adding the appropriate indexes, the query is still slow, then you could prebuild the query's results and store the results in a table or you could create a materialized view.
Once you have the query performing well from sqlplus, then add the network back into the equation. Run it from your web browser and see what overhead is being added.
If it is still slow, then you need to determine if the problem is the act of ajaxing the data or if the slowness occurs after the page does something with the data (ie. populating a data grid via javascript).
If the slowness is because the browser is waiting for the data, then you want to make sure it's only ever fetched once. You can do this by setting the cache headers in the ajax request to cache the result for 1 year. Or you can store the results in localstorage.
If the slowness is due to the browser working with the 39k rows (ie. moving the data into a data grid), then you have a few options.
find a better approach or library
use pagination
You may find performance issues from each of these areas. Most likely the query just needs to be tuned and by adding indexes or pre-querying the data and storing it will solve the problem.
Another thing to consider is if you really need 39k rows at one time. If you can, paginate at the db level so you're returning 100 rows per page.
Which is the most efficient way to retrieve data for performing search operation.
Following is the requirement application needs search like feature for known variables(search keywords).
NB:: Currently application already have search keywords stored in keys that are stored in data cache in form of objects maintained at application level and are used for other purpose than performing search.
There are two possibilities now that are available to enable searching
(1) perform some pattern matching with java.util.regex.Pattern and then fetch the identified result rows from the cache or
(2) Ask the database to perform the match and retrieve matching rows?
Need to know which is more efficient.
Any inputs on it or data on simulators performed for similar operation would be appreciated ?
Option 1 is preferable because it does not involve network I/O.
Pattern matching and looking up in local cache will most likely take nanoseconds or a few milliseconds while sending a request to the database over the wire and waiting for the response will take a few dozen (or a few hundred) milliseconds. It's irrelevant that the database possibly implements the actual data look-up a bit faster than your own code.
This became too big to put into a comment:
To simply answer your question: Option 1 is preferable with what you describe, eg a local cache and a database accessible over network.
I'd like to emphasize "local" cache. If we're talking about a distributed cache you incur the network penalty and then the answer would be "we need more information". Factors to consider are the average size of a row, median network latency, read and write probability,... Answering this is a real pain.
When I face such a decision, I usually go through the following steps to decide what to use. The main metric here is simplicity, ie I'm looking for the most simple solution possible to save my time while still having a responsive site.
When starting, I try with no cache.
If that doesn't suffice and I still have one app server, I implement a local cache.
When I need to scale out by adding more app servers (behind a load-balancer), I try with no caches again (relying on the DB cache)
Only if that hits a performance limit, I implement a distributed cache system by attaching redis or memcache instances as needed (probably keeping a small cache on the individual app servers).
Modern database provide caching support. Most of the ORM frameworks cache retrieved data too. Why this duplication is necessary?
Because to get the data from the database's cache, you still have to:
Generate the SQL from the ORM's "native" query format
Do a network round-trip to the database server
Parse the SQL
Fetch the data from the cache
Serialise the data to the database's over-the-wire format
Deserialize the data into the database client library's format
Convert the database client librarie's format into language-level objects (i.e. a collection of whatevers)
By caching at the application level, you don't have to do any of that. Typically, it's a simple lookup of an in-memory hashtable. Sometimes (if caching with memcache) there's still a network round-trip, but all of the other stuff no longer happens.
Here are a couple of reasons why you may want this:
An application caches just what it needs so you should get a better cache hit ratio
Accessing a local cache will probably be a couple of orders of magnitude faster than accessing the database due to network latency - even with a fast network
Scaling read-write transactions using a strongly consistent cache
Scaling read-only transactions can be done fairly easily by adding more Replica nodes.
However, that does not work for the Primary node since that can be only scaled vertically:
And that's where a cache comes into play. For read-write database transactions that need to be executed on the Primary node, the cache can help you reduce the query load by directing it to a strongly consistent cache, like the Hibernate second-level cache:
Using a distributed cache
Storing an application-level cache in the memory of the application is problematic for several reasons.
First, the application memory is limited, so the volume of data that can be cached is limited as well.
Second, when traffic increases and we want to start new application nodes to handle the extra traffic, the new nodes would start with a cold cache, making the problem even worse as they incur a spike in database load until the cache is populated with data:
To address this issue, it's better to have the cache running as a distributed system, like Redis. This way, the amount of cached data is not limited by the memory size on a single node since sharding can be used to split the data among multiple nodes.
And, when a new application node is added by the auto-scaler, the new node will load data from the same distributed cache. Hence, there's no cold cache issue anymore.
Even if a database engine caches data, indexes, or query result sets, it still takes a round-trip to the database for your application to benefit from that cache.
An ORM framework runs in the same space as your application. So there's no round-trip. It's just a memory access, which is generally a lot faster.
The framework can also decide to keep data in cache as long as it needs it. The database may decide to expire cached data at unpredictable times, when other concurrent clients make requests that utilize the cache.
Your application-side ORM framework may also cache data in a form that the database can't return. E.g. in the form of a collection of java objects instead of a stream of raw data. If you rely on database caching, your ORM has to repeat that transformation into objects, which adds to overhead and decreases the benefit of the cache.
Also, the database's cache might not be as practical as one think. I copied this from http://highscalability.com/bunch-great-strategies-using-memcached-and-mysql-better-together -- it's MySQL specific, tho.
Given that MySQL has a cache, why is memcached needed at all?
The MySQL cache is associated with just one instance. This limits the cache to the maximum address of one server. If your system is larger than the memory for one server then using the MySQL cache won't work. And if the same object is read from another instance its not cached.
The query cache invalidates on writes. You build up all that cache and it goes away when someone writes to it. Your cache may not be much of a cache at all depending on usage patterns.
The query cache is row based. Memcached can cache any type of data you want and it isn't limited to caching database rows. Memcached can cache complex complex objects that are directly usable without a join.
The performance considerations related to the network roundtrips have correctly been pointed out.
To that, it must be added that caching data anywhere else than in the dbms (NOT "database"), creates a problem of potentially obsoleted data that is still being presented as being "up to date".
Giving in to the temptations of performance improvement goes at the expense of losing the guarantee (watertight or at least close to that) of absolutely reliably and guaranteeably correct and consistent data.
Consider this every time accuracy and consistency is crucial.
A lot of good answers here. I'll add one other point: I know my access pattern, the database doesn't.
Depending on what I'm doing, I know that if the data ends up stale, that's not really a problem. The DB doesn't, and would have to reload the cache with the new data.
I know that I'll come back to a piece of data a few times over the next while, so it's important to keep around. The DB has to guess at what to keep in the cache, it's doesn't have the information I do. So if I fetch it from the DB over and over, it may not be in cache if the server is busy. I could get a cache miss. With my cache, I can be sure I get a hit. This is especially true on data that is non-trivial to get (i.e. a few joins, some group functions) as opposed to just a single row. Getting a row with the primary key of 7 is easy for the DB, but if it has to do some real work, the cost of the cache miss is much higher.
No doubt that modern databases are providing caching facility but when you are having more traffic on you site and that time you need to perform many database transaction then you will no get high performance.So to increase performance in this case hibernate cache will help you,
by optimizing the database applications. The cache actually stores the data already loaded from the database, so that the traffic between our application and the database will be reduced when the application want to access that data again.The access time and traffic will be reduced between the application and the database.
That said - caches can sometimes become a burden and actually slowdown the server. When you have high load the algorithm for what is cached and what is not might not fit right with the requests coming in...what you get is a cache that starts to operate like FIFO in overtime...this begins to make itself known when the table that sits behind the cache has significantly more records than are ever going to be cached in memory...
A good trade off would be to cluster the data for what you want to cache. Have a main server which pumps updates to the clusters, the time for when to send/pump the updates should be able to be tailored for each table depending on TTL (time to live) settings.
Your logic and data on the user node can then sit on the same server which opens up in memory databases or if it does have to fetch data then you could set it up to use a pipe instead of a network call...
This is something that takes some thought on how you want to use the data and when/if you cluster then you have to be aware of distributed transactions (transactions over more than one database)...but if the data being cached will be updated on its own without links into other db spaces then you can get away with this....
The problem with ORM caching is that if the database is updated independently through another application then the ORM cache can become out of date...Also it can get tricky if you do an update to a set...the update might update something that is in your cache and it needs to have some sort of algorithm to identify which records need to be removed/updated in memory (slowing down the update!?) - and then this algorithm becomes incredibly tricky and bug prone!
If using ORM caching then keep to a simple rule...cache simple objects that hardly ever change (user/role details for example) and that are small in size and are hit many times in a request...if its outside of this then I suggest clustering the data for performance.