Merge branch 'no-FMA' into 'development'
let the compiler do the work See merge request damask/DAMASK!824
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commit
f8cead9e0a
10
src/math.f90
10
src/math.f90
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@ -1049,26 +1049,16 @@ pure subroutine math_eigh33(w,v,m)
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U = max(T, T**2)
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threshold = sqrt(5.68e-14_pREAL * U**2)
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#ifndef __INTEL_LLVM_COMPILER
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v(1:3,1) = [m(1,3)*w(1) + v(1,2), &
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m(2,3)*w(1) + v(2,2), &
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#else
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v(1:3,1) = [IEEE_FMA(m(1,3),w(1),v(1,2)), &
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IEEE_FMA(m(2,3),w(1),v(2,2)), &
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#endif
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(m(1,1) - w(1)) * (m(2,2) - w(1)) - v(3,2)]
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norm = norm2(v(1:3, 1))
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fallback1: if (norm < threshold) then
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call math_eigh(w,v,error,m)
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else fallback1
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v(1:3,1) = v(1:3, 1) / norm
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#ifndef __INTEL_LLVM_COMPILER
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v(1:3,2) = [m(1,3)*w(2) + v(1,2), &
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m(2,3)*w(2) + v(2,2), &
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#else
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v(1:3,2) = [IEEE_FMA(m(1,3),w(2),v(1,2)), &
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IEEE_FMA(m(2,3),w(2),v(2,2)), &
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#endif
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(m(1,1) - w(2)) * (m(2,2) - w(2)) - v(3,2)]
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norm = norm2(v(1:3, 2))
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fallback2: if (norm < threshold) then
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@ -693,11 +693,7 @@ function integrateStateEuler(F_0,F,Fp0,Fi0,state0,Delta_t,ph,en) result(broken)
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if (any(IEEE_is_NaN(dotState))) return
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sizeDotState = plasticState(ph)%sizeDotState
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#ifndef __INTEL_LLVM_COMPILER
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plasticState(ph)%state(1:sizeDotState,en) = state0 + dotState*Delta_t
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#else
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plasticState(ph)%state(1:sizeDotState,en) = IEEE_FMA(dotState,Delta_t,state0)
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#endif
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broken = plastic_deltaState(ph,en)
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if (broken) return
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@ -736,11 +732,7 @@ function integrateStateAdaptiveEuler(F_0,F,Fp0,Fi0,state0,Delta_t,ph,en) result(
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sizeDotState = plasticState(ph)%sizeDotState
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r = - dotState * 0.5_pREAL * Delta_t
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#ifndef __INTEL_LLVM_COMPILER
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plasticState(ph)%state(1:sizeDotState,en) = state0 + dotState*Delta_t
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#else
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plasticState(ph)%state(1:sizeDotState,en) = IEEE_FMA(dotState,Delta_t,state0)
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#endif
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broken = plastic_deltaState(ph,en)
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if (broken) return
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@ -861,18 +853,10 @@ function integrateStateRK(F_0,F,Fp0,Fi0,state0,Delta_t,ph,en,A,B,C,DB) result(br
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dotState = A(1,stage) * plastic_RKdotState(1:sizeDotState,1)
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do n = 2, stage
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#ifndef __INTEL_LLVM_COMPILER
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dotState = dotState + A(n,stage)*plastic_RKdotState(1:sizeDotState,n)
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#else
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dotState = IEEE_FMA(A(n,stage),plastic_RKdotState(1:sizeDotState,n),dotState)
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#endif
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end do
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#ifndef __INTEL_LLVM_COMPILER
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plasticState(ph)%state(1:sizeDotState,en) = state0 + dotState*Delta_t
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#else
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plasticState(ph)%state(1:sizeDotState,en) = IEEE_FMA(dotState,Delta_t,state0)
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#endif
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broken = integrateStress(F_0+(F-F_0)*Delta_t*C(stage),Fp0,Fi0,Delta_t*C(stage), ph,en)
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if (broken) exit
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@ -886,11 +870,7 @@ function integrateStateRK(F_0,F,Fp0,Fi0,state0,Delta_t,ph,en,A,B,C,DB) result(br
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plastic_RKdotState(1:sizeDotState,size(B)) = dotState
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dotState = matmul(plastic_RKdotState,B)
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#ifndef __INTEL_LLVM_COMPILER
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plasticState(ph)%state(1:sizeDotState,en) = state0 + dotState*Delta_t
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#else
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plasticState(ph)%state(1:sizeDotState,en) = IEEE_FMA(dotState,Delta_t,state0)
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#endif
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if (present(DB)) &
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broken = .not. converged(matmul(plastic_RKdotState(1:sizeDotState,1:size(DB)),DB) * Delta_t, &
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@ -1174,18 +1154,12 @@ module function phase_mechanical_dPdF(Delta_t,co,ce) result(dPdF)
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else
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lhs_3333 = 0.0_pREAL; rhs_3333 = 0.0_pREAL
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do o=1,3; do p=1,3
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#ifndef __INTEL_LLVM_COMPILER
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lhs_3333(1:3,1:3,o,p) = lhs_3333(1:3,1:3,o,p) &
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+ matmul(invSubFi0,dLidFi(1:3,1:3,o,p)) * Delta_t
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lhs_3333(1:3,o,1:3,p) = lhs_3333(1:3,o,1:3,p) &
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+ invFi*invFi(p,o)
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rhs_3333(1:3,1:3,o,p) = rhs_3333(1:3,1:3,o,p) &
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- matmul(invSubFi0,dLidS(1:3,1:3,o,p)) * Delta_t
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#else
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lhs_3333(1:3,1:3,o,p) = IEEE_FMA(matmul(invSubFi0,dLidFi(1:3,1:3,o,p)),Delta_t,lhs_3333(1:3,1:3,o,p))
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lhs_3333(1:3,o,1:3,p) = IEEE_FMA(invFi,invFi(p,o),lhs_3333(1:3,o,1:3,p))
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rhs_3333(1:3,1:3,o,p) = IEEE_FMA(matmul(invSubFi0,dLidS(1:3,1:3,o,p)),-Delta_t,rhs_3333(1:3,1:3,o,p))
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#endif
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end do; end do
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call math_invert(temp_99,error,math_3333to99(lhs_3333))
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if (error) then
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@ -1214,12 +1188,8 @@ module function phase_mechanical_dPdF(Delta_t,co,ce) result(dPdF)
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temp_3333(1:3,1:3,p,o) = matmul(matmul(temp_33_2,dLpdS(1:3,1:3,p,o)), invFi) &
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+ matmul(temp_33_3,dLidS(1:3,1:3,p,o))
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end do; end do
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#ifndef __INTEL_LLVM_COMPILER
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lhs_3333 = math_mul3333xx3333(dSdFe,temp_3333) * Delta_t &
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+ math_mul3333xx3333(dSdFi,dFidS)
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#else
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lhs_3333 = IEEE_FMA(math_mul3333xx3333(dSdFe,temp_3333),Delta_t,math_mul3333xx3333(dSdFi,dFidS))
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#endif
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call math_invert(temp_99,error,math_eye(9)+math_3333to99(lhs_3333))
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if (error) then
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@ -105,13 +105,9 @@ pure function eval(self,x) result(y)
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integer :: o
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y = self%coef(ubound(self%coef,1))
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do o = ubound(self%coef,1)-1, 0, -1
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#ifndef __INTEL_LLVM_COMPILER
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y = 0.0_pREAL
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do o = ubound(self%coef,1), 0, -1
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y = y*(x-self%x_ref) + self%coef(o)
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#else
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y = IEEE_FMA(y,x-self%x_ref,self%coef(o))
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#endif
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end do
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end function eval
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