Can move forcing vector information now from the host to device.

next step in to generate random waves in the CPU with a chosen degree of helicity etc.
2019-06-26 17:41:39 +08:00
parent 231a8aa06e
commit be0e46c814
4 changed files with 41 additions and 22 deletions
--- a/acc/mhd_solver/stencil_process.sps
+++ b/acc/mhd_solver/stencil_process.sps
@@ -253,11 +253,11 @@ forcing(int3 globalVertexIdx)


    //Placeholders until determined properly
-    //Scalar magnitude = 0.05;
-    //Vector k_force = (Vector){2.0, 0.0, 0.0};
-    //Vector ff_re   = (Vector){0.0, 0.5, 0.0};
-    //Vector ff_im   = (Vector){0.0, 0.8666, 0.0};
-    //Scalar phase   = Scalar(0.79); 
+    Scalar magnitude = DCONST_REAL(AC_forcing_magnitude);
+    Scalar phase     = DCONST_REAL(AC_forcing_phase);   
+    Vector k_force   = (Vector){  DCONST_REAL(AC_k_forcex),   DCONST_REAL(AC_k_forcey),   DCONST_REAL(AC_k_forcez)};
+    Vector ff_re     = (Vector){DCONST_REAL(AC_ff_hel_rex), DCONST_REAL(AC_ff_hel_rey), DCONST_REAL(AC_ff_hel_rez)};
+    Vector ff_im     = (Vector){DCONST_REAL(AC_ff_hel_imx), DCONST_REAL(AC_ff_hel_imy), DCONST_REAL(AC_ff_hel_imz)};


    //Determine that forcing funtion type at this point. 
--- a/include/astaroth.h
+++ b/include/astaroth.h
@@ -158,6 +158,19 @@ extern "C" {
        FUNC(AC_angl_uu), \
        FUNC(AC_lnrho_edge),\
        FUNC(AC_lnrho_out),\
+	/* Forcing parameters. User configured. */\
+        FUNC(AC_forcing_magnitude),\
+	/* Forcing parameters. Set by the generator. */\
+        FUNC(AC_forcing_phase),\
+        FUNC(AC_k_forcex),\
+        FUNC(AC_k_forcey),\
+        FUNC(AC_k_forcez),\
+        FUNC(AC_ff_hel_rex),\
+        FUNC(AC_ff_hel_rey),\
+        FUNC(AC_ff_hel_rez),\
+        FUNC(AC_ff_hel_imx),\
+        FUNC(AC_ff_hel_imy),\
+        FUNC(AC_ff_hel_imz),\
        /* Additional helper params */\
        /* (deduced from other params do not set these directly!) */\
        FUNC(AC_G_CONST),\
@@ -373,6 +386,11 @@ AcResult acQuit(void);
    unless otherwise stated. */
 AcResult acSynchronize(void);

+/** Tool for loading forcing vector information into the device memory
+ */
+AcResult acForcingVec(const AcReal forcing_magnitude, const AcReal3 k_force, const AcReal3 ff_hel_re, 
+                      const AcReal3 ff_hel_im, const AcReal forcing_phase);
+ 
 /* End extern "C" */
 #ifdef __cplusplus
 }
--- a/src/core/astaroth.cu
+++ b/src/core/astaroth.cu
@@ -494,28 +494,29 @@ acSynchronize(void)
    return AC_SUCCESS;
 }

-//Tool for loadin forcing vector information into the device memory
+//Tool for loading forcing vector information into the device memory
 AcResult
-acForcingVec(const AcReal magnitude, const AcReal3 k_force, const AcReal3 ff_hel_re, 
-             const AcReal3 ff_hel_im, const AcReal phase)
+acForcingVec(const AcReal forcing_magnitude, const AcReal3 k_force, const AcReal3 ff_hel_re, 
+             const AcReal3 ff_hel_im, const AcReal forcing_phase)
 {

-    loadDeviceConstant(device[i], AC_forcing_magnitude, AC_forcing_magnitude);
-    loadDeviceConstant(device[i], AC_forcing_phase,     AC_forcing_phase    );
+    for (int i = 0; i < num_devices; ++i) {
+        loadDeviceConstant(devices[i], AC_forcing_magnitude, forcing_magnitude);
+        loadDeviceConstant(devices[i], AC_forcing_phase,     forcing_phase    );

-    loadDeviceConstant(device[i], AC_k_forcex, k_force.x);
-    loadDeviceConstant(device[i], AC_k_forcey, k_force.y);
-    loadDeviceConstant(device[i], AC_k_forcez, k_force.z);
+        loadDeviceConstant(devices[i], AC_k_forcex, k_force.x);
+        loadDeviceConstant(devices[i], AC_k_forcey, k_force.y);
+        loadDeviceConstant(devices[i], AC_k_forcez, k_force.z);

+        loadDeviceConstant(devices[i], AC_ff_hel_rex, ff_hel_re.x);
+        loadDeviceConstant(devices[i], AC_ff_hel_rey, ff_hel_re.y);
+        loadDeviceConstant(devices[i], AC_ff_hel_rez, ff_hel_re.z);

-    loadDeviceConstant(device[i], AC_ff_hel_rex, ff_hel_re.x);
-    loadDeviceConstant(device[i], AC_ff_hel_rey, ff_hel_re.y);
-    loadDeviceConstant(device[i], AC_ff_hel_rez, ff_hel_re.z);
-                                                         
-    loadDeviceConstant(device[i], AC_ff_hel_imx, ff_hel_im.x);
-    loadDeviceConstant(device[i], AC_ff_hel_imy, ff_hel_im.y);
-    loadDeviceConstant(device[i], AC_ff_hel_imz, ff_hel_im.z);
-
+        loadDeviceConstant(devices[i], AC_ff_hel_imx, ff_hel_im.x);
+        loadDeviceConstant(devices[i], AC_ff_hel_imy, ff_hel_im.y);
+        loadDeviceConstant(devices[i], AC_ff_hel_imz, ff_hel_im.z);
+    }
+ 
    return AC_SUCCESS;
 }

--- a/src/standalone/simulation.cc
+++ b/src/standalone/simulation.cc
@@ -247,7 +247,7 @@ run_simulation(void)
        //Generate a forcing vectors before canculating an integration step. 
        //Placeholders until determined properly
        AcReal  magnitude = 0.05;
-        AcReal  phase   = Scalar(0.79); 
+        AcReal  phase   = 0.79; 
        AcReal3 k_force = (AcReal3){2.0, 0.0, 0.0};
        AcReal3 ff_hel_re   = (AcReal3){0.0, 0.5, 0.0};
        AcReal3 ff_hel_im   = (AcReal3){0.0, 0.8666, 0.0};