In what way would you try to use multiple computers to compute a number like PI, i.e.?
Are there existing algorithms or solutions that make this easy to do? How do you split up the work and let the results from other machines come into effect?
In what way would you try to use multiple computers to compute a number like PI, i.e.? Are there existing algorithms or solutions that make this easy to do? How do you split up the work and let the results from other machines come into effect? 

closed as not a real question by Henk Holterman, karim79, Mat, bmargulies, John Saunders Jul 30 '11 at 22:33It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question. 


Here's one simple way:
Pi, then, can be calculated from the ratio of inside to outside points. A very large number of points is necessary for this to approach pi, but if you have many machines, you can have each computer generate as many as you like, then simply return the counts to some leader machine, which would collect all the results and calculate the final ratio. This method can be used to calculate pi to any precision you want...the more points, the more precision. It's called a 'Monte Carlo' method because it uses randomness. See http://math.fullerton.edu/mathews/n2003/montecarlopimod.html for more information. 


An "easy" version would be using the Bailey–Borwein–Plouffe formula, or its faster variant Bellard Formula. It allows calculating individual (binary) digits of π without calculating the previous ones before. This means that you can distribute your calculation effort on different computers, which do not have to communicate much. For larger digit indices, you still need distribute the calculation even for a single digit (since you are doing some multiplications and divisions of really large integers). This was used by the PiHex project to calculate some (binary) digits around digit number 5·10^{12}, some around 4·10^{13} and some around 10^{15}. 


On .Net platform, you can try .net remoting 

