diff options
Diffstat (limited to 'Source/FieldSolver/FiniteDifferenceSolver/EvolveE.cpp')
| -rw-r--r-- | Source/FieldSolver/FiniteDifferenceSolver/EvolveE.cpp | 12 |
1 files changed, 6 insertions, 6 deletions
diff --git a/Source/FieldSolver/FiniteDifferenceSolver/EvolveE.cpp b/Source/FieldSolver/FiniteDifferenceSolver/EvolveE.cpp index 09aa9df48..fc43fe209 100644 --- a/Source/FieldSolver/FiniteDifferenceSolver/EvolveE.cpp +++ b/Source/FieldSolver/FiniteDifferenceSolver/EvolveE.cpp @@ -202,7 +202,7 @@ void FiniteDifferenceSolver::EvolveECylindrical ( // Loop over the cells and update the fields amrex::ParallelFor(ter, tet, tez, - [=] AMREX_GPU_DEVICE (int i, int j, int k){ + [=] AMREX_GPU_DEVICE (int i, int j, int /*k*/){ Real const r = rmin + (i + 0.5)*dr; // r on cell-centered point (Er is cell-centered in r) Er(i, j, 0, 0) += c2 * dt*( - T_Algo::DownwardDz(Bt, coefs_z, n_coefs_z, i, j, 0, 0) @@ -219,7 +219,7 @@ void FiniteDifferenceSolver::EvolveECylindrical ( } }, - [=] AMREX_GPU_DEVICE (int i, int j, int k){ + [=] AMREX_GPU_DEVICE (int i, int j, int /*k*/){ Real const r = rmin + i*dr; // r on a nodal grid (Et is nodal in r) if (r != 0) { // Off-axis, regular Maxwell equations Et(i, j, 0, 0) += c2 * dt*( @@ -260,7 +260,7 @@ void FiniteDifferenceSolver::EvolveECylindrical ( } }, - [=] AMREX_GPU_DEVICE (int i, int j, int k){ + [=] AMREX_GPU_DEVICE (int i, int j, int /*k*/){ Real const r = rmin + i*dr; // r on a nodal grid (Ez is nodal in r) if (r != 0) { // Off-axis, regular Maxwell equations Ez(i, j, 0, 0) += c2 * dt*( @@ -302,14 +302,14 @@ void FiniteDifferenceSolver::EvolveECylindrical ( // Loop over the cells and update the fields amrex::ParallelFor(ter, tet, tez, - [=] AMREX_GPU_DEVICE (int i, int j, int k){ + [=] AMREX_GPU_DEVICE (int i, int j, int /*k*/){ Er(i, j, 0, 0) += c2 * dt * T_Algo::UpwardDr(F, coefs_r, n_coefs_r, i, j, 0, 0); for (int m=1; m<nmodes; m++) { // Higher-order modes Er(i, j, 0, 2*m-1) += c2 * dt * T_Algo::UpwardDr(F, coefs_r, n_coefs_r, i, j, 0, 2*m-1); // Real part Er(i, j, 0, 2*m ) += c2 * dt * T_Algo::UpwardDr(F, coefs_r, n_coefs_r, i, j, 0, 2*m ); // Imaginary part } }, - [=] AMREX_GPU_DEVICE (int i, int j, int k){ + [=] AMREX_GPU_DEVICE (int i, int j, int /*k*/){ // Mode m=0: no update Real const r = rmin + i*dr; // r on a nodal grid (Et is nodal in r) if (r != 0){ // Off-axis, regular Maxwell equations @@ -327,7 +327,7 @@ void FiniteDifferenceSolver::EvolveECylindrical ( } } }, - [=] AMREX_GPU_DEVICE (int i, int j, int k){ + [=] AMREX_GPU_DEVICE (int i, int j, int /*k*/){ Ez(i, j, 0, 0) += c2 * dt * T_Algo::UpwardDz(F, coefs_z, n_coefs_z, i, j, 0, 0); for (int m=1; m<nmodes; m++) { // Higher-order modes Ez(i, j, 0, 2*m-1) += c2 * dt * T_Algo::UpwardDz(F, coefs_z, n_coefs_z, i, j, 0, 2*m-1); // Real part |