ready for vectorization
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@ -654,13 +654,12 @@ math_mul33xx33
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integer(pInt) :: &
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integer(pInt) :: &
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j
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j
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real(pReal) :: dvel_slip, vel_slip
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real(pReal), intent(out), dimension(prm%totalNslip) :: &
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real(pReal), intent(out), dimension(prm%totalNslip) :: &
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gdot_slip_pos,dgdot_dtauslip_pos,tau_slip_pos,gdot_slip_neg,dgdot_dtauslip_neg,tau_slip_neg
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gdot_slip_pos,dgdot_dtauslip_pos,tau_slip_pos,gdot_slip_neg,dgdot_dtauslip_neg,tau_slip_neg
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real(pReal), dimension(prm%totalNslip) :: &
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real(pReal), dimension(prm%totalNslip) :: &
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StressRatio, BoltzmannRatio, &
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StressRatio, BoltzmannRatio, &
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StressRatio_p,StressRatio_pminus1, &
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StressRatio_p,StressRatio_pminus1, &
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DotGamma0
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DotGamma0, dvel_slip, vel_slip
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gdot_slip_pos = 0.0_pReal
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gdot_slip_pos = 0.0_pReal
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gdot_slip_neg = 0.0_pReal
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gdot_slip_neg = 0.0_pReal
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@ -676,15 +675,13 @@ math_mul33xx33
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DotGamma0 = stt%rhoEdge(:,of)*prm%burgers*prm%v0
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DotGamma0 = stt%rhoEdge(:,of)*prm%burgers*prm%v0
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do j = 1_pInt, prm%totalNslip
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do j = 1_pInt, prm%totalNslip
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significantPositiveTau: if(abs(tau_slip_pos(j))-dst%threshold_stress(j,of) > tol_math_check) then
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significantPositiveTau: if((abs(tau_slip_pos(j))-dst%threshold_stress(j, of)) > tol_math_check) then
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StressRatio(j) = (abs(tau_slip_pos(j))-dst%threshold_stress(j,of)) &
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/ (prm%solidSolutionStrength+prm%tau_Peierls(j))
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StressRatio(j) = ((abs(tau_slip_pos(j))-dst%threshold_stress(j, of)) &
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/ (prm%solidSolutionStrength+prm%tau_Peierls(j)))
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StressRatio_p(j) = StressRatio(j)** prm%p(j)
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StressRatio_p(j) = StressRatio(j)** prm%p(j)
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StressRatio_pminus1(j) = StressRatio(j)**(prm%p(j)-1.0_pReal)
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StressRatio_pminus1(j) = StressRatio(j)**(prm%p(j)-1.0_pReal)
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vel_slip = 2.0_pReal*prm%burgers(j) * prm%kink_height(j) * prm%omega(j) &
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vel_slip(j) = 2.0_pReal*prm%burgers(j) * prm%kink_height(j) * prm%omega(j) &
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* ( dst%mfp(j,of) - prm%kink_width(j) ) &
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* ( dst%mfp(j,of) - prm%kink_width(j) ) &
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* (tau_slip_pos(j) &
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* (tau_slip_pos(j) &
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* exp(-BoltzmannRatio(j)*(1-StressRatio_p(j)) ** prm%q(j)) ) &
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* exp(-BoltzmannRatio(j)*(1-StressRatio_p(j)) ** prm%q(j)) ) &
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@ -695,9 +692,9 @@ math_mul33xx33
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* exp(-BoltzmannRatio(j)*(1-StressRatio_p(j)) ** prm%q(j)) &
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* exp(-BoltzmannRatio(j)*(1-StressRatio_p(j)) ** prm%q(j)) &
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)
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)
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gdot_slip_pos(j) = DotGamma0(j) * sign(vel_slip,tau_slip_pos(j))
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gdot_slip_pos(j) = DotGamma0(j) * sign(vel_slip(j),tau_slip_pos(j))
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dvel_slip = 2.0_pReal*prm%burgers(j) * prm%kink_height(j) * prm%omega(j) &
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dvel_slip(j) = 2.0_pReal*prm%burgers(j) * prm%kink_height(j) * prm%omega(j) &
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* ( dst%mfp(j,of) - prm%kink_width(j) ) &
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* ( dst%mfp(j,of) - prm%kink_width(j) ) &
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* ( &
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* ( &
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(exp(-BoltzmannRatio(j)*(1-StressRatio_p(j)) ** prm%q(j)) &
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(exp(-BoltzmannRatio(j)*(1-StressRatio_p(j)) ** prm%q(j)) &
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@ -734,19 +731,17 @@ math_mul33xx33
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)**2.0_pReal &
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)**2.0_pReal &
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)
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)
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dgdot_dtauslip_pos(j) = DotGamma0(j) * dvel_slip
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dgdot_dtauslip_pos(j) = DotGamma0(j) * dvel_slip(j)
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endif significantPositiveTau
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endif significantPositiveTau
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significantNegativeTau: if(abs(tau_slip_neg(j))-dst%threshold_stress(j,of) > tol_math_check) then
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significantNegativeTau: if((abs(tau_slip_neg(j))-dst%threshold_stress(j, of)) > tol_math_check) then
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StressRatio(j) = (abs(tau_slip_neg(j))-dst%threshold_stress(j,of)) &
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/ (prm%solidSolutionStrength+prm%tau_Peierls(j))
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StressRatio(j) = ((abs(tau_slip_neg(j))-dst%threshold_stress(j, of)) &
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/ (prm%solidSolutionStrength+prm%tau_Peierls(j)))
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StressRatio_p(j) = StressRatio(j)** prm%p(j)
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StressRatio_p(j) = StressRatio(j)** prm%p(j)
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StressRatio_pminus1(j) = StressRatio(j)**(prm%p(j)-1.0_pReal)
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StressRatio_pminus1(j) = StressRatio(j)**(prm%p(j)-1.0_pReal)
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vel_slip = 2.0_pReal*prm%burgers(j) * prm%kink_height(j) * prm%omega(j) &
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vel_slip(j) = 2.0_pReal*prm%burgers(j) * prm%kink_height(j) * prm%omega(j) &
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* ( dst%mfp(j,of) - prm%kink_width(j) ) &
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* ( dst%mfp(j,of) - prm%kink_width(j) ) &
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* (tau_slip_neg(j) &
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* (tau_slip_neg(j) &
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* exp(-BoltzmannRatio(j)*(1-StressRatio_p(j)) ** prm%q(j)) ) &
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* exp(-BoltzmannRatio(j)*(1-StressRatio_p(j)) ** prm%q(j)) ) &
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@ -757,9 +752,9 @@ math_mul33xx33
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* exp(-BoltzmannRatio(j)*(1-StressRatio_p(j)) ** prm%q(j)) &
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* exp(-BoltzmannRatio(j)*(1-StressRatio_p(j)) ** prm%q(j)) &
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)
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)
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gdot_slip_neg(j) = DotGamma0(j) * sign(vel_slip,tau_slip_neg(j))
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gdot_slip_neg(j) = DotGamma0(j) * sign(vel_slip(j),tau_slip_neg(j))
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dvel_slip = 2.0_pReal*prm%burgers(j) * prm%kink_height(j) * prm%omega(j) &
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dvel_slip(j) = 2.0_pReal*prm%burgers(j) * prm%kink_height(j) * prm%omega(j) &
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* ( dst%mfp(j,of) - prm%kink_width(j) ) &
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* ( dst%mfp(j,of) - prm%kink_width(j) ) &
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* ( &
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* ( &
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(exp(-BoltzmannRatio(j)*(1-StressRatio_p(j)) ** prm%q(j)) &
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(exp(-BoltzmannRatio(j)*(1-StressRatio_p(j)) ** prm%q(j)) &
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@ -797,7 +792,7 @@ math_mul33xx33
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)
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)
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dgdot_dtauslip_neg(j) = DotGamma0(j) * dvel_slip
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dgdot_dtauslip_neg(j) = DotGamma0(j) * dvel_slip(j)
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endif significantNegativeTau
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endif significantNegativeTau
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enddo
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enddo
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