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I am exploring Parallel_Scan component in Intel Thread Building Blocks which is used in case of an associative operation and i am finding that Parallel_Scan is taking 10 times more than it would have been done in serial.

Code which i have written to check is:

#include <iostream>
#include <stdlib.h>
#include <time.h>
#include "tbb/task_scheduler_init.h"
#include "tbb/blocked_range.h"
#include "tbb/parallel_scan.h"
#include "tbb/tick_count.h"

using namespace std;
using namespace tbb;

template <class T>
class Body 
    T reduced_result;
    T* const y;
    const T* const x;


    Body( T y_[], const T x_[] ) : reduced_result(0), x(x_), y(y_) {}

    T get_reduced_result() const {return reduced_result;}

    template<typename Tag>
    void operator()( const blocked_range<int>& r, Tag ) 
        T temp = reduced_result;

        for( int i=r.begin(); i<r.end(); ++i ) 
            temp = temp+x[i];
            if( Tag::is_final_scan() )
            y[i] = temp;

        reduced_result = temp;

    Body( Body& b, split ) : x(b.x), y(b.y), reduced_result(10) {}

    void reverse_join( Body& a ) 
        reduced_result = a.reduced_result + reduced_result;

    void assign( Body& b ) 
        reduced_result = b.reduced_result;

template<class T>
float DoParallelScan( T y[], const T x[], int n) 
    Body<int> body(y,x);
    tick_count t1,t2,t3,t4;
    parallel_scan( blocked_range<int>(0,n), body , auto_partitioner() );
    cout<<"Time Taken for parallel scan is \t"<<(t2-t1).seconds()<<endl;
    return body.get_reduced_result();

template<class T1>
float SerialScan(T1 y[], const T1 x[], int n)
    tick_count t3,t4;

    T1 temp = 10;

    for( int i=1; i<n; ++i ) 
        temp = temp+x[i];
        y[i] = temp;
    cout<<"Time Taken for serial  scan is \t"<<(t4-t3).seconds()<<endl;
    return temp;


int main()
    task_scheduler_init init1;

    int y1[100000],x1[100000];

    for(int i=0;i<100000;i++)


    cout<<"\n serial scan output is \t"<<SerialScan(y1,x1,100000)<<endl;

    cout<<"\n parallel scan output is \t"<<DoParallelScan(y1,x1,100000)<<endl;

    return 0;

Please help me in finding where i am going wrong.

share|improve this question
@Arch D. Robison should the Body class here (which we should call then Body_child) derive from the Body class defined in the TBB API, described here:… ? if not, why ? –  octoback Sep 11 '14 at 10:14

2 Answers 2

up vote 10 down vote accepted

I'm the original author of tbb::parallel_scan.

Getting speedup out of parallel scan on multicore systems using "big cores" can be hard. The reason is that parallel scan is inherently a two-pass algorithm. If the data does not fit in outer-level cache, parallel scan has to stream in data from memory twice, whereas the serial algorithm only has to do it once. For an operation as simple as integer addition, the memory traffic, not the ALU, is often the bottleneck for a "big core" that devotes a lot of hardware resources to fast serial execution. If the data does fit in outer-level cache, there might not be enough work to amortize parallel overheads.

I was able to get some parallel speedup (about 2x) for your example with the following changes and conditions:

  • I hoisted the read of r.end() into a local variable before the loop, like this:

    int rend = r.end();
    for( int i=r.begin(); i<rend; ++i )

    Doing so helps the compiler generate better code because it knows that rend is loop-invariant. Without the hoisting, the compiler has to assume that writes to y[i] might overwrite the field of r that r.end() reads. It might help to similarly hoist the reads of fields x and y into local variables, though the compiler should be able to tell from type-based alias disambiguation that the writes to y[i] do not affect those fields.

  • I increased the input arrays to have 10,000,000 elements, so there is more work to do, and thus better amortize parallel scheduling overheads. To avoid stack overflow, I allocated the arrays in the heap.

  • I warmed up the TBB run-time. In general, when doing this sort of timing exercise, it is good to do a "throw away" run first so that one-time startup costs are not counted. To do the warm up (for both serial and parallel code), I wrapped a three-trip loop around the timing logic, like this:

    for( int k=0; k<3; ++k ) {
        cout<<"\n serial scan output is \t"<<SerialScan(y1,x1,n)<<endl;
        cout<<"\n parallel scan output is \t"<<DoParallelScan(y1,x1,n)<<endl;

    This is something I do with most timing experiments, so I can see if first-time costs are significant or whether there is other variation of interest.

  • I compiled with "gcc -O2 -ltbb".

  • I ran on a 16-core system with two "Sandy Bridge" chips.

A way to see the impact of memory bandwidth is to change T in your example to a smaller type. When I edited the example to change T from int to char (thus reducing memory bandwidth demands by about 4x), the parallel speedup increased. (Aside: there is a "Body<int>" in the example that should be "Body<T>".)

Another way to see the impact of memory bandwidth is to try the example on a system with many small cores. I tried the example, modified as previously described for type int, on an Intel(R) Xeon Phi(TM), which has high memory bandwidth and many small cores. I can got 4x-7x parallel speedup. Cranking up the problem size to 100,000,000 got me 10x-20x speedup.

To summarize: multi-threaded scan can pay off only when the benefits of parallel computation can outweigh the overhead of making two passes over the data.

share|improve this answer

How long does it take in total? Maybe your input is just too small and thus context switching dominates the runtime of the parallel version. How does it behave if you increase the problem set? How does it behave if you do something more computationally intensive as the simple sum you are doing now?

share|improve this answer
i have checked by increasing input size still it gives same response ....and about computationally intensive can you please suggest some work which we can do with parallel_scan? –  Jasdeep Singh Arora May 15 '13 at 9:54

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