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Below is a portion of code parallelized via openMP. Arrays, ap[] and sc[], are emposed to addition assignment so, I decided to make them shared and then put them in critical clause section since reduction clause does not accept arrays. But it gives a different result than its serial counterpart. Where is the problem?

Vector PN, Pf, Nf; // Vector is user-defined structure
Vector NNp, PPp;
Vector gradFu, gradFv, gradFw;
float dynVis_eff, SGSf; 
float Xf_U, Xf_H;
float mf_P, mf_N;
float an_diff, an_conv_P, an_conv_N, an_trans;  
float sc_cd, sc_pres, sc_trans, sc_SGS, sc_conv_P, sc_conv_N;   
float ap_trans;

#pragma omp parallel for
for (int e=0; e<nElm; ++e)
{
    ap[e] = 0.f;
    sc[e] = 0.f;
}

#pragma omp parallel for shared(ap,sc)
for (int f=0; f<nFaces; ++f)
{
    PN = cntE[face_N[f]] - cntE[face_P[f]];
    Pf = cntF[f] - cntE[face_P[f]];
    Nf = cntF[f] - cntE[face_N[f]];
    PPp = Pf - (Pf|norm(PN))*norm(PN);
    NNp = Nf - (Nf|norm(PN))*norm(PN);

    mf_P = mf[f];
    mf_N = -mf[f];

    SGSf = (1.f-ifac[f]) * SGSvis[face_P[f]]
         +      ifac[f]  * SGSvis[face_N[f]];

    dynVis_eff = dynVis + SGSf;

    an_diff = dynVis_eff * Ad[f] / mag(PN);

    an_conv_P = -neg(mf_P);
    an_conv_N = -neg(mf_N);

    an_P[f] = an_diff + an_conv_P;
    an_N[f] = an_diff + an_conv_N;

    // cross-diffusion
    sc_cd = an_diff * ( (gradVel[face_N[f]]|NNp) - (gradVel[face_P[f]]|PPp) );

    #pragma omp critical
    {       
        ap[face_P[f]] += an_N[f];   
        ap[face_N[f]] += an_P[f];

        sc[face_P[f]] += sc_cd + sc_conv_P;
        sc[face_N[f]] += -sc_cd + sc_conv_N;
    }
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How are all your other variables declared? –  Pedro Jun 19 '12 at 20:59
    
@Pedro: Added what you want. –  Shibli Jun 19 '12 at 21:02
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1 Answer

up vote 3 down vote accepted

You have not declared whether all the other variables in your parallel clause should be shared or not. You can do this generically with the default clause. If no default is specified, the variables are all shared, which is causing the problems in your code.

In your case, I'm guessing you should go for

#pragma omp parallel for default(none), shared(ap,sc,face_N,face_P,cntF,cntE,mf,ifac,Ad,an_P,an_N,SGSvis,dynVis), private(PN,Pf,Nf,PPp,NNp,mf_P,mf_N,SGSf,dynVis_eff,an_diff,an_conv_P,an_conv_N,sc_cd)

I strongly recommend always using default(none) so that the compiler complains every time you don't declare a variable explicitly and forces you to think about it explicitly.

share|improve this answer
    
I added default(none) just after shared(ap,sc) but now it gives for example, "sc_cd" must be specified in a variable list at enclosing OpenMP parallel pragma. There would be no problem in defining local variables at the beginning of omp clause however, it gives same error for global variables as well. –  Shibli Jun 19 '12 at 21:13
    
@Shibli: If you specify default(none) you have to explicitly declare each variable in either a private(...) or shared(...) clause. –  Pedro Jun 19 '12 at 21:15
    
default(static) is not permitted; only two choices: shared and none. Since I have a lot of private variables I am looking for something like default(private). –  Shibli Jun 19 '12 at 21:23
    
@Shibli: Oops, forgot that default(static) won't work. Have amended my reply accordingly. If you're using C++, you can always try declaring the static variables inside the OMP for-loop. –  Pedro Jun 19 '12 at 21:30
    
Gives error for static: syntax error in omp clause –  Shibli Jun 19 '12 at 21:37
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