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Creating a movie db and I dont like the idea of giving each actor/actress and also each tag its own row as if there are 10 million moives total, each has a cast of atleast 20-30 people we will have 200-300 million rows in the table.

And it gets more complex with tags which can be unlimited per movie. So how to best store these 3 items? Ideally these can be modeled as a Many to Many but still it will have hundreds of millions of rows. Any better suggestions on storing these? I am using MySQL.

I would dump it all in a textfile but I need to link actors between movies and do some analytics also and allow users to rate actors find movies by tag, etc so need to use a DB.

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I'd say you can't really get around many-to-many, it even sounds like the most efficient way to store this. I'm going to sit here and watch as the real DBA's enlighten us with their insights. – Spiny Norman Dec 20 '10 at 22:14
I think you're worrying about a problem you've not got. You have a domain that maps neatly to a relational model, where RDBMs have facilties (indexes, partitioning) that can help with performance. Build the thing along the lines of the design that all the answers are suggesting, and engage with your DBA on ways of optimising it if it should prove necessary – The Archetypal Paul Dec 20 '10 at 22:34
Sadly I am my own DBA! So i am learning along the way. But yes, i will try out what people have said and check the performance with a sample data set of about 10 million then post back on how it worked. – dave Dec 20 '10 at 22:37
@dave how did you eventually solve this problem? – oluckyman Aug 20 '12 at 13:49

10 million movies seems pretty ambitious. IMDb's current statistics show that they have less than 1.8M titles and around 3.9M people.

Having said that, I see no problem with creating a table of titles, a table of actors, and a junction table to resolve the many-to-many relationship between the two. The same holds true for tags.

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IMBD is more for english movies. I am trying to build an all in 1 movie DB, all countries, all languages, all world actors from beginning of time till date. Plus this includes TV shows too. – dave Dec 20 '10 at 22:16
@dave: I still think that, with proper indexing and query tuning, this design will hold up well. – Joe Stefanelli Dec 20 '10 at 22:19
Ok this may hold up for actors. I will benchmark it but what about movie tags? Those can be an open sea to map out. – dave Dec 20 '10 at 22:21
+1: start with this design, and modify as needed. Horizontal paritioning aftwards, IF performance metrics dictate. – p.campbell Dec 20 '10 at 22:22
@dave: I'd take the same approach for tags. As @p.campbell said, start here and adjust as needed. You could always impose a reasonable limit of X tags per movie if things start to get out of hand. – Joe Stefanelli Dec 20 '10 at 22:30

What's the reason for your aversion to the millions of rows? A perceived performance issue?

It's going to have hundreds of millions of relations somewhere. You do have to capture the mapping between actor and film and as you say, there are 200-300 million of those (although I don't believe there are 10 million movies in existence?)

If you really wanted, you could (for example) pack the ids for actors for a film into multiple columns (or into one column) but that would make searching unpleasant.

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Creating huge lookup tables. Increase search time. More rows = more data to manage. Movies are worldwide, plus includes TV shows too. I am trying to create a worldwide entertainment DB so all movies, all tv shows across the globe from start of film till date. – dave Dec 20 '10 at 22:19
But the data is there (that's why I said "relation" and not row). It's inherent in the data you're working with, and you have to manage it somehow. The big "who was in what" table can be partitioned in various ways, but you're going to have to store those relationships somehow – The Archetypal Paul Dec 20 '10 at 22:20
More rows = LESS data to manage. Each change affects only the minimal amount of data — adding a cast member involves an addition of one small row to a subsidiary table, rather than locking the movie's massive main record. And updating the name of an actor, or his birthdate, affects only one actor row in the database. – Larry Lustig Dec 20 '10 at 22:22
Good point. I'll map it out and see. But what about tags? Tags for me is like a dictionary. Each word can map to any of the millions of movies, so dont tell me I need to have (X) million movies x (X) million words for storing movie tags then? – dave Dec 20 '10 at 22:25
@dave: perhaps the point to you is that rows with 2 number are much much less expensive than columns are. Consider the alternative: massively duplicated tags and actor names in varchar columns on the Movie entity. – p.campbell Dec 20 '10 at 22:26

10 million movies w/ 20 to 30 cast members each (although the number sound higher than real life) will invariably lead to 200-300 million associations. If you're storing your data in a relational database, each association will naturally be one row in a table linking movies to actors. Each row will be very small (two columns - movie PK and actor PK; possibly an extra surrogate key column); the bulk of the data will be stored in the movies and actors table.

Any other solution (in an SQL database) will store the same amount of data in a less optimal format.

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It sounds perhaps a bit of premature optimization here. You could denormalize all actors into a TEXT column of some kind onto the Movie table, but your performance + search would suffer, as well as losing all benefits of relational data.

Suggest to keep the normalized schema, as you were originally thinking:

Movie (ID)
Actor (ID)
Tag (ID) --horror, comedy, etc.

MovieActor (MovieID, ActorID)
MovieTag (MovieID, TagID)
  • Create indexes as per normal on the associative entities: MovieActor and MovieTag.
  • Load some dummy data in a Test environment. 10 million movies with 100 million actors with 1 million tags. Create associative entries for each as required.
  • Baseline and performance test.
  • Horizontal partitioning (sharding) if your performance metrics require more performance.

Regardless of the number of movies, or whether the data is DNA sequences: implement a design, test it, judge its performance based on your requirements (user acceptance, SLA, etc)

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MovieTag (MovieID, TagID) = 1 tag per movie? But that tag can be in many movies, so to find all movie with the given tags i need to search table by tag then? – dave Dec 20 '10 at 22:27
@dave: correct. Databases are excellent at finding a given TagID when indexed properly. – p.campbell Dec 20 '10 at 22:28
sounds good, will load dummy data and check the performance, then post back. – dave Dec 20 '10 at 22:34

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