Are Relational Databases Obsolete?

jpkunst sends us to Computerworld for a look at Michael Stonebraker's opinion that RDBMSs "should be considered legacy technology." Computerworld adds some background and analysis to Stonebraker's comments, which appear in a new blog, The Database Column. Stonebraker co-created the Ingres and Postgres technology while a researcher at UC Berkeley in the early 1970s. He predicts that "column stores will take over the [data] warehouse market over time, completely displacing row stores."

dual-mode db?

[192939495969798999]

Is there a dual-mode db, that lets you create a row-based or column-based "table"? I imagine cross-mode queries would kill performance, but at least you could have a system front-loaded with row tables, where data comes in, and then archive this data over time into the column-based tables, so that reads were fast.

Re:They're not mutually exclusive.

[XenoPhage]

Since when is a column store database and a relational database mutually exclusive concepts? I thought that both column store and row store (i.e. traditional) databases were just different means of storing data, and had nothing to do with whether a database was relational or not. I think the article misinterpreted what he said.

Agreed. It definitely looks like a storage preference. Though column-based storage has definite benefits over row-based when it comes to store once, read many operations. Kinda like what you'd find in a data warehouse situation...

Also, I don't think it's news that Michael Stonebraker (a great name, by the way), co-founder and CEO of a company that (surprise!) happens to develop column store database software, thinks that column store databases are going to be the Next Big Thing. Right or wrong, his opinion can't exactly be considered unbiased...

Hrm.. You must be new here....

Re:They're not mutually exclusive.

[stoolpigeon]

You are exactly right and this is backed up by the home page for c-store. It says: "C-Store is a read-optimized relational DBMS " - c-store is the open source project that apparently is the basis for Vertica - Stonebraker's commercial offering.

The guy...

[AKAImBatman]

...is duping himself and thus Slashdot is duping the stories by extension.

Stonebraker has been pushing the concept of column-oriented databases for quite some time now, trying to get someone, ANYONE, to listen that it's superior. While I think he has a point, I'm not sure if he really goes far enough. Our relational databases of today are heavily based on the ISAM files of yesteryear. Far too many products threw foreign keys on top of a collection of ISAMs and called it a day. Which is why we STILL have key integrity issues to this day.

It would be nice if we could take a step back and re-engineer our databases with more modern technology in mind. e.g. Instead of passing around abstract id numbers, it would be nice if we had reference objects that abstracted programmers away from the temptation of manually managing identifiers. Data storage is another area that can be improved, with Object Databases (really just fancy relational databases with their own access methods) showing how it's possible to store something more complex than integers and varchars.

The demands on our DBMSes are only going to grow. So there's something to be said for going back and reengineering things. If column-oriented databases are the answer, my opinion is that they're only PART of the answer. Take the redesign to its logical conclusion. Let's see databases that truly store any data, and enforce the integrity of their sets.

Should be, but isn't, and won't.

[dada21]

In my IT business, a vast majority of our top tier clients (grossing over US$100 million annually) are still using antiquated software that is still using a relational database backend. While these companies are generally VERY efficient in terms of providing services or products to their market, their accounting, purchase orders and project management software is decades outdated. Many of the companies that maintain these packages have merely made the interface more current (but still 5+ years old, but are still using terribly outdated software. I can't begin to tell you how often the words "FoxPro" and "MS SQL" come up and it ends up being a relational database "solution" or even worse.

It is very frustrating because we do have programmers on staff that create third party plug-ins to these databases to try to make solutions that the OEM code doesn't. When you meet younger programmers, many of them are frustrated themselves to work on ancient solutions that have no hope of being upgraded, because these industries we work in are not in a rush to try anything new and shiny, but instead are happy with the status quo.

I just bid a job a few months back that would cost $150,000 to upgrade their database infrastructure, and likely save the company $300,000+ annually in added efficiency, less downtime, and a more robust report system. Guess what they said? "We all think it is fine the way it is." That's money thrown out the window, employees who are frustrated (without knowing why), and forcing the company to lose efficiency by not being able to compete with newer companies that are utilizing newer technology to better their bottom line.

Ugh.

Re:Yea, it's all the same.

[theGreater]

So it seems to me the -real- money is in integrating an RDBMS which, for usage purposes, is row-oriented; but which, for archival purposes, is column-oriented. This could either be a backup-type thing, or an aging-type thing. Quick, to the Pat(ent)mobile!

-theGreater

Re:Yea, it's all the same.

[stoolpigeon]

Maybe, but I doubt it. The money is in the data warehouse market and the etl tools that move the data from the oltp environment to the warehouse environment. I think what the author points out is not that people are trying to use the same database to do both, but rather that they are trying to use the same product to both. He says it would make more sense to use Oracle (for example) for oltp - and something else for the warehouse, rather than trying to get Oracle to do both well.

Re:They're not mutually exclusive.

[homb]

I wish we could put this thing to rest once and for all. And I wish so-called "experts" in the field actually were.

Rule of thumb:
- you use row dbs for OLTP. They're great for writing.
- you use column dbs for data mining. They're amazing for reading aggregates (average, max, complex queries...)

The major problem with column dbs is the writing part. If you have to write one row at a time, you're screwed because it needs to take each column, read, insert into it and store. If you can write in batch, the whole process isn't much more expensive. So writing a single row could take 500ms, but writing 1000 rows will take 600ms.
Once the data's in, column dbs are the way to go.

Perl Objects have both column and row DB advantage

[goombah99]

Traditionally perl-objects are hashes with one blessed hash per instance. The hash contains all the instance variable values using their names as keys.

instead one can use blessed scalars holding a single integer value for instances and let the class variable contain all the instance data in arrays indexed by the instances scalar value.

This technique was originally promoted as an indirection to protect object data from direct manipution that bypassed get/set methods. But it also allows the object to be either row or column oriented internally. that is the class could store all the instance hashes in an array indexed by the scalar. or it could store each instance variable in a separate array that is indexed by the scalar value.

Thus the perl class can, on-the-fly, switch itself from column-oriented to row-oriented as needed while maintaining the same external interface.

Of course this is not a perl-exclusive feature and it can implemented in other languages. It just happens to be particularly easy and natural to do in perl.

Re:IMS--Hierarchical DB harder to use?

[cdn-programmer]

On the contrary.

From a standard 3rd generation programing language one can read and write into flat files and we can do close to this with a hierachical database.

We lose this with relational databases because the way the database organises data has no direct mapping to the way it might be set up in a standard programming language.

What this means is that every transaction to and from the database must go through a literally horrible re-mapping. IE. The language data structures do not correspond to the RDBMS data structures and visa versa.

As an example - in postgreSQL the last I looked at writing a simple row into a table where there were something like 100 columns in the row...

In the 3rd generation programming languages this was just a simple structure with 100 entries.

The data transfer from that structure generated a function call with more than 1000 parameters. This was to be mapped and re-mapped with each call to transfer data, this is even though the structure itself is static and determined at compile time.

Next: There were about 10 parameters per field (column).

1: Column name
2: Column name length
3: data type
4: data length
5: character representation ... etc

finally 10: Address where the data lives.

The thing is such a table could be set up very easily and populated with a simple loop that rolls in the required values via say a mapping function with about 10 arguments. This could be done ONCE at run time to prepare for the transfer of data and then the same table could be referenced for each call and simply an address could be sent with the transfer.

Noooo.. It was dynamic and the data was encoded as parameters on the stack. This means the stack must be build and torn down and rebuilt for each call.

Next - the implementation was so bad that the program would run in test mode with only a few parameter but it failed when the whole row was to be transfered.

I gave up on that interface.

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Oracle had pre-compilers. They did the same damn thing. The code generated by the pre-compilers was just awful.

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While there is much good to say about RDBMS's in general. The issue I ran into was the interface from 3rd generation languages took a HUGE step backward. IMHO we should have a high level language statement called DBRead() and DBWrite(). In C this should generally correspond to fread() and fwrite(). If this is too complex then DBWriteStruct() could be implemented with suitable mapping helper function.

Nooo...

In the old days one could read and write into a flat file at a given location with a single statement or function call depending on the language. Of course "where" to read and write became a real issue and I do fully understand the complexity of file based tree structures and so forth, especially since I wrote a lot of code to implement these algorithms.

The thing is now we have RDBMS and other solutions that give us the data organisational abilities we need - and we lose the ease of mapping these structures into a suitable structure or object in the programming language.

I for one do not think we have stepped forward very far at all.

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I'll toss in a case in point made by a good buddy of mine who just happens to be one of the top geophysical programmers in this city.

One of his clients was running an application hooked to an Oracle database running on a fast SUN. Run times were measured in close to a day.

Finally they removed the Oracle interface and replaced it with a glorified flat file. They clearly built in some indexing. The result is the run times dropped to under 20 minuets.

As my buddy says - He will NOT use any RDBMS. He can take 5 views of the data comprising 1000's of seismic lines and the user can click on any trace number, line number, well tie and so forth and in real time he can modify all views of the data on as many as 5 s

Re:Yea, it's all the same.

[Jerry]

Cell-based storage!!! Best of both worlds!!! Mix of both Row and Column based storage, how can we go wrong!

You are years late. The PICK operating system/db already does that. Back in 1985 I used the DOS based Advanced Revelation to write GAP accounting packages. It used the ASCI 253 character to separate "columns" of data in a cell. Reading and writing was parsed automatically. Invoice information, for example, was stored in a Customer's info table, not in a invoice table, and doing a query on accounts receivable produced very fast results. Symbolic dictionary definitions containing formulas allowed for easy column and row totals.

In fact KDB/K looks a lot like a PICK system that uses FORTH as the language.