The thing that matters is not the number of columns on a table but the "width" of the table.
For example, if all 50 of those columns are bit columns then you are looking at 7 bytes per row which is tiny.
On the other hand if all 50 columns are
VARCHAR(4000) columns then you are looking at a potential maximum row size of around 200 MB per row (yes SQL Server will let you do this), which could obviously cause problems (actually it probably won't, but my point is that the width of the data matters, not the number of columns).
The only sure-fire way of knowing whether or not you are going to have problems is to try and it and see, but as a very general rule its a good idea to try and keep the row size below 4KB (1 page), however this is a very general rule as:
- Normally you probably want your row size to be much less than this so that you can fit many rows onto a page
- However if you have a couple of large object fields (such as
VARCHAR(MAX)) on your table row sizes are probably going to exceed 4KB fairly regularly, this is perfectly OK.
Its a complicated subject - like I said the only sure-fire way of knowing is try it and see if it performs.
Note that with the exception of large objects (such as
VARCHAR) SQL Server won't let you create a row larger than 1 page.
Why might a "wide" table cause problems?
Because it increases the amount of data that needs to be read.
As a very simple / contrived example suppose you have a table ordered by ID (i.e. has a clustered index on ID) and you want to retrieve records for IDs 100 to 110 inclusive. If the row size is small (say 200 bytes) then the size of all those records combined is around 2KB, which is much less than the page size (4KB). Because the table is ordered by ID its very likely that these records all fit onto 1 page, at most 2, and so a only a couple of reads are needed to read all 10 records.
Now suppose the row size is larger (say 2KB), then the total size of all those records combined is now 20KB. The minimum number of reads needed is now 5 at a minimum, possibly 6. On a busy database server these reads add up to extra I/O and extra memory pressure in the cahce.
Depending on the amount of data stored, large object and variable length fields (such as
VARCHAR) may store the data in separate pages, either LOB pages or row-overflow pages.
What does this mean? Well if you have a table with many such columns defined and you execute a
SELECT * ... query then SQL Server needs to retrieve all these extra pages to read all this extra data. We end up with the same situation as above - lots of reads which is bad.
However if instead we only specify some of the columns in our query, e.g.
SELECT ID, Address ... then SQL Server doesn't need to bother reading pages that contain data we aren't interested in. Despite the fact that this table may define many columns with a huge row width, because we specified the columns we are interested in and because this data is stored in separate pages the number of reads needed is still relatively low.