The first thing you should do is draw a Happens-Before graph of the problem you want to solve by multi-threading. If you can't draw your design, it's too complicated.
For example, this is a happens-before graph of a method which takes two arrays of ints and outputs the sum of all elements.
Once you have your happens-before graph it is really easy to see what has to happen before something else, but more importantly it shows you what does not have to happen before something else.
In this example, you can get the sums of both array1 and array2 at the same time.
You can also get sum1 at the same time as sum2 since they don't depend on each other.
Adding the sums to TotalSum1 can be done in either order, (but you will need to lock around the addition step since you can't do the addition at the same time as another).
C# .net 4.0 has a lot of useful capabilities for parallel programming.
I recommend this book Parallel Programming with Microsoft .Net -- just use the bookmarks on the left to navigate it. It covers the parallel patterns of Loops, Tasks, Aggregation, Futures, and Pipelines.
In the example above, I would use a Task1 to get the Array1 and Task2 to get the Array2, then within both of those I would use the Aggregation patterns built into a Parallel.For loop for the array sums, I would need to use locks or an Interlocked.Add to accumalate the subTotals, then wait for the tasks to finish and return the result.
- Parallel Loops
- Task Parallel Library
- Concurrent DataStructures
- 'lock' keyword
- Monitor (same functionality as 'lock')
- Read/Write locks
- Hardware Atomic Operations
- Assignments to machine word length variables like int
- Message Passing
Basically, understand your problem first then choose the tools/patterns to solve it.