First you need to explore what is happening inside the garbage collector when your program is running. Usually garbage collector is good at deciding when to remove objects without your intervention. However, it is not error prone. For example, you may be keeping a list of small objects that hold references to large objects that you expect to die soon. To understand the bottlenecks in GC you need to profile GC memory allocation. To do this...
1 ) Search "performance monitor" in windows start
2)Under monitoring tools tab select performance monitor. Clear any counters you already have by "right click-> remove all counters"
3)right click ->add counters
4) Select all the counters under ".NET CLR memory". When you add them make sure you start your program and select the program from the list to your left side. This will make sure your counters are going to report the performance of your program but not anything else
5) Once you have your counters running please read following articles to find the bottle necks in your program.
Garbage collector basics
What performance monitor counters tell you
Once you are familiar with basics look for following issues
1) Large object heap is fragmenting too quickly
2) Objects you want to die fast end up in generation 2
E.g. mid-life crisis http://blogs.msdn.com/b/ricom/archive/2003/12/04/41281.aspx
3) Total committed bytes keep increasing
4) You spend too much time garbage collecting
5) and many more... (google for GC memory issues)
Since you can't identify which objects live in different generations you can use something like ANST memory profile to see whether you are inadvertently promoting short lived objects into generation 2. The profiler allows you to see who holds references to large objects and peak into different garbage collector storages (e.g who live in generation 2 who live is large object heap). But before doing any advance performance tuning use windows performance monitor to identify whether your bottlenecks are in fact with GC.