# How to implement multithreading - if possible - on this piece of code?

I am building a Finite Element Analysis library in C#. In each structure I am to analyze, there is a need to perform several calculations on element level and bring the results together on a structure level. All these calculations take quite a woke when there are many elements.

For example, there is the calculation of element stiffness matrices and the assembly of the same into the global stiffness matrix.

Is there a way to make the process take advantage of threading?

public class FEStructure
{
public List<Element> elements = new List<Element>;
public Matrix K;

Struct()
{
// Do some stuff not relevant here
}

public void CalcK()
{
// Create a Global stiffness matrix (n x n)
K = new DenseMatrix(SizeK());

// Process all elements - can it be threaded?
foreach (Element e in elements)
{
// Get the element stiffness matrix  and assemble it into K
Matrix Ke = e.CalcKe();
Assemble(Ke);
}
}

public void Assemble(Matrix Ke)
{
// Assembles Ke into K using the element topology
// and lot of fields and methods left out. Code
// operates on K using syntax similar to:
K[i, j] = Ke[k, l];
}
}

Edit:

The calculation of the element matrices through e.CalcKe() is an independent calculation and can be performed in any order.

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Is it possible to calculate each Element e separately or do they require being calculated in order? If they are unrelated to each other and don't rely on some sort of progressive state, you might get away with Parallel.ForEach. –  Adam Houldsworth Jun 19 '12 at 20:48
Is it the e.CalcKe(); that takes so long? –  corn3lius Jun 19 '12 at 20:49
@AdamHouldsworth, there is no need for a specific calculation order. –  sehlstrom Jun 19 '12 at 20:54
@corn3lius I do not know if it is e.CalcKe() or Assemble() that consumes the most time, all I know is that the entire process takes to long when working with thousands of elements. Furthermore, this is just a piece of the entire code and there are several similar processes that I'd like to cut down processing time on. –  sehlstrom Jun 19 '12 at 20:56
I would also avoid naming the class Struct to avoid confusion with the struct keyword. –  Bryan Crosby Jun 19 '12 at 20:58

You should be able to parellize the for each loop on threads easily using Parallel.ForEach.

You will just need to ensure that the assignments into the matrix is thread-safe, and that the individual calculations does not depend on being done in order.

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Thank you. How do I ensure that the assignments are thread-safe? Can you point me to a good example? –  sehlstrom Jun 19 '12 at 20:57
It depends on the implementation of the Matrix class. Is the [i,j] unique for elements ? Would assigning to two different indexes at the same time on different threads be a problem ? Is the storage pre-allocated, or does it need to grow ? Etc, etc. –  driis Jun 19 '12 at 21:00
The Matrix class is part of the Math.NET Numerics library and as far as I know, the Matrix object is just holding a Double array[][] in which data is stored and then the class provides linear algebraic operations through various methods. If you can assign several positions in a array, I guess it is possible as well in the Matrix object. Some elements will be assembled into the same position [i, j] in the global matrix K, but not all. The storage is preallocated through K = new DenseMatrix(SizeK()). –  sehlstrom Jun 19 '12 at 21:13
Parallel.ForEach(elements, e =>
{
var eResult = e.CalcKe();
AggregateResults(eResult);
}

void AggregateResults(Matix r)
{
lock(denseMatrix)
denseMatix[a,b] = r[k,l];
}
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