I am trying to apply for a job, which asks for the experiences on handling large scale data sets using relational database, like mySQL.
I would like to know which specific skill sets are required for handling large scale data using MySQL.
Handling large scale data with MySQL isn't just a specific set of skills, as there are a bazillion ways to deal with a large data set. Some basic things to understand are:
These are just a few things that get thought about in regards to big data in MySQL. There's a TON more, which is why the company is looking for experience in the area. Knowing what to do, or having experience with things that have worked or failed for you is an absolutely invaluable asset to bring to a company that deals with high traffic, high availability, and high volume services.
edit -- good structure for balanced writes and reads
There are different levels of normalization (as @Adam Robinson pointed out in the comments below) which are referred to as normal forms. Almost every web application I've worked with hasn't had much benefit beyond the 3NF (3rd Normal Form). Which the definition of, if you were to read that wikipedia link above, will probably make your head hurt. So in lamens (at the risk of dumbing it down too far...) a 3NF structure satisfies the following rules:
A fully normalized (3NF) database table structure is great, if you've got a very heavy write-load. If your server is doing a lot of writes, it's very easy to write small bits of data, especially when you're running fewer of them. The drawback is, all your reads become much more expensive, because you have to (typically) run a lot of
This is the balancing part. You have to decide what kind of traffic the data you're reading/writing is going to be serving more of, and design that to be fast. In some instances, people don't mind writes being slow because they happen less frequently. In other cases, writes have to be very fast, and the reads don't have to be fast because the data isn't accessed that often (or at all, or even in real time).
Workloads that require a lot of reads benefit the most from a middle-tier caching layer. The idea is that your writes are still fast (because you're 'normal') and your reads can be slow because you're going to cache it (in memcached or something competitive to it), so you don't hit the database very frequently. The drawback here is, if your cache gets invalidated quickly, then the cache is not reducing the read load by a meaningful amount and that results in no added performance (and possibly even more overhead to check/invalidate the caches).
With workloads that have the requirement for high throughput in writes, with data that is read frequently, and can't be cached (constantly changes), you have to come up with another strategy. This could mean that you start to de-normalize your tables, by removing some of the normalization requirements you choose to satisfy, or something else. Instead of making smaller tables with less repetitive data, you make larger tables with more repetitive / redundant data. The advantage here is that your data is all in the same table, so you don't have to perform as many (or, any)
So with any given situation the developer(s) have to identify what kind of use the data structure is going to have to serve, and balance between any number of technologies and paradigms to achieve an acceptable solution that meets their needs. No two systems or solutions are the same which is why the employer is looking for someone with experience on how to deal with these large datasets. Finding these solutions is not something that can really be learned out of a book, it typically takes some experience in the field and experience with how different solutions performed.
I hope that helps. I know I rambled a bit, but it's really a lot of information. This is why DBAs make the big dollars (:
You need to know how to process the data in "chunks". That means instead of simply trying to manipulate the entire data set, you need to break it into smaller more manageable pieces. For example, if you had a table with 1 Billion records, a single update statement against the entire table would likely take a long time to complete, and may possibly bring the server to it's knees.
You could, however, issue a series of update statements within a loop that would update 20,000 records at a time. Each iteration of the loop you would increment your range/counters/whatever to identify the next set of records.
Also, you commit your changes at the end of each loop, thereby allowing you to stop the process and continue where you left off.
This is just one aspect of managing large data sets. You still need to know:
You can raed/learn how to handle large dataset with MySQL But it is not equivalent to having actual experiences.
Straight and simple answer: Study about partitioned database and find appropriate MySQL data structure types for large scale datasets similar with the partitioned database architecture.