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I have, let's say, a list with 500 objects. For each object, I'm calling a function calculating it's cost. So each of the 500 calls is independent from the others. The overall takes around 30 seconds. Wouldn't it be possible to run all the 500 tasks at the same time as they don't rely on each other ? I know nothing about multi-threading therefore I don't know if it could be a solution.

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3  
The usefulness of multi-threading is going to depend on certain things like whether you are running on multiple CPUs and exactly what the calculation function does. –  Justin Harvey Nov 16 '12 at 12:56
    
Yes, but 500 threads would perform poorly. You should do something based on a threadpool and a limited number of threads (comparable to the number of CPUs). –  cdleonard Nov 16 '12 at 12:58
1  
Theoretically yes, practically No. Only if you have 500 CPUs/Cores available will these threads run simultaneously. So if you only have 4 cores, maximum of 4 threads will run simultaneously rest will contend for these 4 cores. There will be frequent context switching to allot CPU cores to waiting threads, which will consume resources and time. With these many threads, eventually, you may well end up taking more than 30 seconds!!! –  Amit Mittal Nov 16 '12 at 13:04

6 Answers 6

up vote 3 down vote accepted

You can easily parallelize the work using the Parallel.ForEach Method:

Parallel.ForEach(items, item =>
{
    item.CalculateCost();
});
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1  
Damn beated by 11 seconds! :) –  Rui Jarimba Nov 16 '12 at 12:56
    
It does not return result though, unless item.CalculateCost() passes the result through to a shared storage. –  maximpa Nov 16 '12 at 13:26
    
I was assuming that the result would be stored in the item. OP said that all operations are independent from each other. –  dtb Nov 16 '12 at 14:19

Running a single threaded process will only use one-core of your machine (this does allow other cores to run operating system and other application processes).

Your process sounds liek a good contender for multi-threaded processing, however you don't need a new thread for every process - this will create overhead in creating the threads, and also you won't have enough cores to run them all individually, so they will be fighting for CPU resources.

Using Parallel.For in .Net4.0 will cleverly use as many threads as it can.

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Use the Task Parallel Library to start an individual task for each object. In the task, you would call the function to calculate it's cost.

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Wouldn't it be possible to run all the 500 tasks at the same time as they don't rely on each other?

In short, yes if you have 500 cores (CPUs).

Switching the context between threads is a very expensive process and involves suspending the current thread, which is why more effective is to run one thread per CPU.

Since C# 4.0 you can use Task Parallel Library and Parallel LINQ (PLINQ), it simplifies Parallel Programming in the .NET Framework.

// IEnumerable<MyClass> items = ...

var results = items

  // Enables parallel execution of the query
  .AsParallel()

  // Specifies the method for creating values
  .Select(item => Calculate(item))

  // Waits for calculating all the values and returns the result (as an array)
  .ToArray(); 
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Try Parallel.ForEach

You can see an example here: How to: Write a Simple Parallel.ForEach Loop

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Can you spin up 500 threads - yes. Will they run simultaenously - no. That being said, the optimum number of threads to use is unfortunately a more complex issue than a thread per core.

Intel processors, for example, have two execution pipelines per core (called u and v), allowing out-of-order processing which, depending on the conditions, can execute two instructions faster than sequentially processing those same two instructions. The problem is that the execution pipelines do share some resources within the core. They share:

Cache, Branch Prediction resources, Instruction fetching and decoding, and Execution units.

This means that the efficiency of executing two instructions is dependent on things like cache misses and branch prediction misses. The advantage comes in where an instruction is blocking while waiting for a high latency operation (e.g. fetching the contents of memory into the cache on a cache miss), if there is another instruction in the other pipeline, it can be worked on while waiting. This is absolutely not faster than two separate cores, but often works out to be faster than sequential instruction processing (on average roughly 25% faster).

Another thing to keep in mind is that the operating system also needs some time on the processor to execute. Microsoft's recommendation for maximum threads for efficient processing is 25 threads per logical core (There is 1 logical core per physical core without Hyper-Threading, 2 per physical core with HT) (this is the default max threads per core setting in IIS). It should be noted, however, that this is a "rule of thumb". The only way to find the true optimum is to test on a given software/hardware setup. Optimizing for hardware is, however, not practical in practice and not recommended, hence the need for a "rule of thumb".

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