update ion flux BC; to be built and tested

2021-05-25 01:59:24 -04:00
parent 6db8c554bb
commit 536fc6e8c0
5 changed files with 508 additions and 46 deletions
--- a/cuda/D3Q7BC.cu
+++ b/cuda/D3Q7BC.cu
@@ -316,7 +316,133 @@ __global__ void dvc_ScaLBL_D3Q7_AAodd_Ion_Concentration_BC_Z(int *d_neighborList
 	}
 }

-__global__ void dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_BC_z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np)
+__global__ void dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_Diff_BC_z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np)
+{
+    //NOTE: FluxIn is the inward flux
+    int idx,n;
+	double f0,f1,f2,f3,f4,f5,f6;
+    double fsum_partial;
+    double uz;
+	idx = blockIdx.x*blockDim.x + threadIdx.x;
+	if (idx < count){
+		n = list[idx];
+		f0 = dist[n];
+		f1 = dist[2*Np+n];
+		f2 = dist[1*Np+n];
+		f3 = dist[4*Np+n];
+		f4 = dist[3*Np+n];
+		f6 = dist[5*Np+n];
+        fsum_partial = f0+f1+f2+f3+f4+f6;
+        uz = VelocityZ[n];
+		//...................................................
+        f5 =(FluxIn+(1.0-0.5/tau)*(f6+uz*fsum_partial))/(1.0-0.5/tau)/(1.0-uz); 
+		dist[6*Np+n] = f5;
+	}
+}
+
+__global__ void dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_Diff_BC_Z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np)
+{
+    //NOTE: FluxIn is the inward flux
+    int idx,n;
+	double f0,f1,f2,f3,f4,f5,f6;
+    double fsum_partial;
+    double uz;
+	idx = blockIdx.x*blockDim.x + threadIdx.x;
+	if (idx < count){
+		n = list[idx];
+		f0 = dist[n];
+		f1 = dist[2*Np+n];
+		f2 = dist[1*Np+n];
+		f3 = dist[4*Np+n];
+		f4 = dist[3*Np+n];
+		f5 = dist[6*Np+n];
+        fsum_partial = f0+f1+f2+f3+f4+f5;
+        uz = VelocityZ[n];
+		//...................................................
+        f6 =(FluxIn+(1.0-0.5/tau)*(f5-uz*fsum_partial))/(1.0-0.5/tau)(1.0+uz); 
+		dist[5*Np+n] = f6;
+	}
+}
+
+__global__ void dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_Diff_BC_z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np)
+{
+    //NOTE: FluxIn is the inward flux
+	int idx, n;
+    int nread,nr5;
+	double f0,f1,f2,f3,f4,f5,f6;
+    double fsum_partial;
+    double uz;
+	idx = blockIdx.x*blockDim.x + threadIdx.x;
+	if (idx < count){
+		n = list[idx];
+		f0 = dist[n];
+
+		nread = d_neighborList[n];
+		f1 = dist[nread];
+
+		nread = d_neighborList[n+2*Np];
+		f3 = dist[nread];
+
+		nread = d_neighborList[n+Np];
+		f2 = dist[nread];
+
+		nread = d_neighborList[n+3*Np];
+		f4 = dist[nread];
+
+		nread = d_neighborList[n+5*Np];
+		f6 = dist[nread];
+
+        fsum_partial = f0+f1+f2+f3+f4+f6;
+        uz = VelocityZ[n];
+		//...................................................
+        f5 =(FluxIn+(1.0-0.5/tau)*(f6+uz*fsum_partial))/(1.0-0.5/tau)/(1.0-uz); 
+
+		// Unknown distributions
+		nr5 = d_neighborList[n+4*Np];
+		dist[nr5] = f5;
+	}
+}
+
+__global__ void dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_Diff_BC_Z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np)
+{
+    //NOTE: FluxIn is the inward flux
+	int idx, n;
+    int nread,nr6;
+	double f0,f1,f2,f3,f4,f5,f6;
+    double fsum_partial;
+    double uz;
+	idx = blockIdx.x*blockDim.x + threadIdx.x;
+	if (idx < count){
+		n = list[idx];
+		f0 = dist[n];
+
+		nread = d_neighborList[n];
+		f1 = dist[nread];
+
+		nread = d_neighborList[n+2*Np];
+		f3 = dist[nread];
+
+		nread = d_neighborList[n+4*Np];
+		f5 = dist[nread];
+
+		nread = d_neighborList[n+Np];
+		f2 = dist[nread];
+
+		nread = d_neighborList[n+3*Np];
+		f4 = dist[nread];
+
+        fsum_partial = f0+f1+f2+f3+f4+f5;
+        uz = VelocityZ[n];
+		//...................................................
+        f6 =(FluxIn+(1.0-0.5/tau)*(f5-uz*fsum_partial))/(1.0-0.5/tau)(1.0+uz); 
+
+		// unknown distributions
+		nr6 = d_neighborList[n+5*Np];
+		dist[nr6] = f6;
+	}
+}
+
+__global__ void dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvc_BC_z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np)
 {
    //NOTE: FluxIn is the inward flux
    int idx,n;
@@ -340,7 +466,7 @@ __global__ void dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_BC_z(int *list, double *dist, do
 	}
 }

-__global__ void dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_BC_Z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np)
+__global__ void dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvc_BC_Z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np)
 {
    //NOTE: FluxIn is the inward flux
    int idx,n;
@@ -364,7 +490,7 @@ __global__ void dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_BC_Z(int *list, double *dist, do
 	}
 }

-__global__ void dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_BC_z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np)
+__global__ void dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvc_BC_z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np)
 {
    //NOTE: FluxIn is the inward flux
 	int idx, n;
@@ -403,7 +529,7 @@ __global__ void dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_BC_z(int *d_neighborList, int *li
 	}
 }

-__global__ void dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_BC_Z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np)
+__global__ void dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvc_BC_Z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np)
 {
    //NOTE: FluxIn is the inward flux
 	int idx, n;
@@ -441,6 +567,152 @@ __global__ void dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_BC_Z(int *d_neighborList, int *li
 		dist[nr6] = f6;
 	}
 }
+
+__global__ void dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvcElec_BC_z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, double *ElectricField_Z,
+                                                                  double Di, double zi, double Vt, int count, int Np)
+{
+    //NOTE: FluxIn is the inward flux
+    int idx,n;
+	double f0,f1,f2,f3,f4,f5,f6;
+    double fsum_partial;
+    double uz;
+    double uEPz;//electrochemical induced velocity
+    double Ez;//electrical field
+	idx = blockIdx.x*blockDim.x + threadIdx.x;
+	if (idx < count){
+		n = list[idx];
+		f0 = dist[n];
+		f1 = dist[2*Np+n];
+		f2 = dist[1*Np+n];
+		f3 = dist[4*Np+n];
+		f4 = dist[3*Np+n];
+		f6 = dist[5*Np+n];
+        fsum_partial = f0+f1+f2+f3+f4+f6;
+        uz = VelocityZ[n];
+        Ez = ElectricField_Z[n];
+        uEPz=zi*Di/Vt*Ez;
+		//...................................................
+        f5 =(FluxIn+(1.0-0.5/tau)*f6-(0.5*uz/tau+uEPz)*fsum_partial)/(1.0-0.5/tau+0.5*uz/tau+uEPz); 
+		dist[6*Np+n] = f5;
+	}
+}
+
+__global__ void dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvcElec_BC_Z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, double *ElectricField_Z, 
+                                                                  double Di, double zi, double Vt, int count, int Np)
+{
+    //NOTE: FluxIn is the inward flux
+    int idx,n;
+	double f0,f1,f2,f3,f4,f5,f6;
+    double fsum_partial;
+    double uz;
+    double uEPz;//electrochemical induced velocity
+    double Ez;//electrical field
+	idx = blockIdx.x*blockDim.x + threadIdx.x;
+	if (idx < count){
+		n = list[idx];
+		f0 = dist[n];
+		f1 = dist[2*Np+n];
+		f2 = dist[1*Np+n];
+		f3 = dist[4*Np+n];
+		f4 = dist[3*Np+n];
+		f5 = dist[6*Np+n];
+        fsum_partial = f0+f1+f2+f3+f4+f5;
+        uz = VelocityZ[n];
+        Ez = ElectricField_Z[n];
+        uEPz=zi*Di/Vt*Ez;
+		//...................................................
+        f6 =(FluxIn+(1.0-0.5/tau)*f5+(0.5*uz/tau+uEPz)*fsum_partial)/(1.0-0.5/tau-0.5*uz/tau-uEPz); 
+		dist[5*Np+n] = f6;
+	}
+}
+
+__global__ void dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvcElec_BC_z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, double *ElectricField_Z,
+                                                                 double Di, double zi, double Vt, int count, int Np)
+{
+    //NOTE: FluxIn is the inward flux
+	int idx, n;
+    int nread,nr5;
+	double f0,f1,f2,f3,f4,f5,f6;
+    double fsum_partial;
+    double uz;
+    double uEPz;//electrochemical induced velocity
+    double Ez;//electrical field
+	idx = blockIdx.x*blockDim.x + threadIdx.x;
+	if (idx < count){
+		n = list[idx];
+		f0 = dist[n];
+
+		nread = d_neighborList[n];
+		f1 = dist[nread];
+
+		nread = d_neighborList[n+2*Np];
+		f3 = dist[nread];
+
+		nread = d_neighborList[n+Np];
+		f2 = dist[nread];
+
+		nread = d_neighborList[n+3*Np];
+		f4 = dist[nread];
+
+		nread = d_neighborList[n+5*Np];
+		f6 = dist[nread];
+
+        fsum_partial = f0+f1+f2+f3+f4+f6;
+        uz = VelocityZ[n];
+        Ez = ElectricField_Z[n];
+        uEPz=zi*Di/Vt*Ez;
+		//...................................................
+        f5 =(FluxIn+(1.0-0.5/tau)*f6-(0.5*uz/tau+uEPz)*fsum_partial)/(1.0-0.5/tau+0.5*uz/tau+uEPz); 
+
+		// Unknown distributions
+		nr5 = d_neighborList[n+4*Np];
+		dist[nr5] = f5;
+	}
+}
+
+__global__ void dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvcElec_BC_Z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, double *ElectricField_Z,
+                                                                 double Di, double zi, double Vt, int count, int Np)
+{
+    //NOTE: FluxIn is the inward flux
+	int idx, n;
+    int nread,nr6;
+	double f0,f1,f2,f3,f4,f5,f6;
+    double fsum_partial;
+    double uz;
+    double uEPz;//electrochemical induced velocity
+    double Ez;//electrical field
+	idx = blockIdx.x*blockDim.x + threadIdx.x;
+	if (idx < count){
+		n = list[idx];
+		f0 = dist[n];
+
+		nread = d_neighborList[n];
+		f1 = dist[nread];
+
+		nread = d_neighborList[n+2*Np];
+		f3 = dist[nread];
+
+		nread = d_neighborList[n+4*Np];
+		f5 = dist[nread];
+
+		nread = d_neighborList[n+Np];
+		f2 = dist[nread];
+
+		nread = d_neighborList[n+3*Np];
+		f4 = dist[nread];
+
+        fsum_partial = f0+f1+f2+f3+f4+f5;
+        uz = VelocityZ[n];
+        Ez = ElectricField_Z[n];
+        uEPz=zi*Di/Vt*Ez;
+		//...................................................
+        f6 =(FluxIn+(1.0-0.5/tau)*f5+(0.5*uz/tau+uEPz)*fsum_partial)/(1.0-0.5/tau-0.5*uz/tau-uEPz); 
+
+		// unknown distributions
+		nr6 = d_neighborList[n+5*Np];
+		dist[nr6] = f6;
+	}
+}
 //*************************************************************************

 extern "C" void ScaLBL_Solid_Dirichlet_D3Q7(double *dist, double *BoundaryValue, int *BounceBackDist_list, int *BounceBackSolid_list, int count){
@@ -567,39 +839,116 @@ extern "C" void ScaLBL_D3Q7_AAodd_Ion_Concentration_BC_Z(int *d_neighborList, in
 		printf("CUDA error in ScaLBL_D3Q7_AAodd_Ion_Concentration_BC_Z (kernel): %s \n",cudaGetErrorString(err));
 	}
 }
-
-extern "C" void ScaLBL_D3Q7_AAeven_Ion_Flux_BC_z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np){
+//------------Diff-----------------
+extern "C" void ScaLBL_D3Q7_AAeven_Ion_Flux_Diff_BC_z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np){
 	int GRID = count / 512 + 1;
-	dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_BC_z<<<GRID,512>>>(list, dist, FluxIn, tau, VelocityZ, count, Np);
+	dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_Diff_BC_z<<<GRID,512>>>(list, dist, FluxIn, tau, VelocityZ, count, Np);
 	cudaError_t err = cudaGetLastError();
 	if (cudaSuccess != err){
-		printf("CUDA error in ScaLBL_D3Q7_AAeven_Ion_Flux_BC_z (kernel): %s \n",cudaGetErrorString(err));
+		printf("CUDA error in ScaLBL_D3Q7_AAeven_Ion_Flux_Diff_BC_z (kernel): %s \n",cudaGetErrorString(err));
 	}
 }

-extern "C" void ScaLBL_D3Q7_AAeven_Ion_Flux_BC_Z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np){
+extern "C" void ScaLBL_D3Q7_AAeven_Ion_Flux_Diff_BC_Z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np){
 	int GRID = count / 512 + 1;
-	dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_BC_Z<<<GRID,512>>>(list, dist, FluxIn, tau, VelocityZ, count, Np);
+	dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_Diff_BC_Z<<<GRID,512>>>(list, dist, FluxIn, tau, VelocityZ, count, Np);
 	cudaError_t err = cudaGetLastError();
 	if (cudaSuccess != err){
-		printf("CUDA error in ScaLBL_D3Q7_AAeven_Ion_Flux_BC_Z (kernel): %s \n",cudaGetErrorString(err));
+		printf("CUDA error in ScaLBL_D3Q7_AAeven_Ion_Flux_Diff_BC_Z (kernel): %s \n",cudaGetErrorString(err));
 	}
 }

-extern "C" void ScaLBL_D3Q7_AAodd_Ion_Flux_BC_z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np){
+extern "C" void ScaLBL_D3Q7_AAodd_Ion_Flux_Diff_BC_z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np){
 	int GRID = count / 512 + 1;
-	dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_BC_z<<<GRID,512>>>(d_neighborList, list, dist, FluxIn, tau, VelocityZ, count, Np);
+	dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_Diff_BC_z<<<GRID,512>>>(d_neighborList, list, dist, FluxIn, tau, VelocityZ, count, Np);
 	cudaError_t err = cudaGetLastError();
 	if (cudaSuccess != err){
-		printf("CUDA error in ScaLBL_D3Q7_AAodd_Ion_Flux_BC_z (kernel): %s \n",cudaGetErrorString(err));
+		printf("CUDA error in ScaLBL_D3Q7_AAodd_Ion_Flux_Diff_BC_z (kernel): %s \n",cudaGetErrorString(err));
 	}
 }

-extern "C" void ScaLBL_D3Q7_AAodd_Ion_Flux_BC_Z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np){
+extern "C" void ScaLBL_D3Q7_AAodd_Ion_Flux_Diff_BC_Z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np){
 	int GRID = count / 512 + 1;
-	dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_BC_Z<<<GRID,512>>>(d_neighborList, list, dist, FluxIn, tau, VelocityZ, count, Np);
+	dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_Diff_BC_Z<<<GRID,512>>>(d_neighborList, list, dist, FluxIn, tau, VelocityZ, count, Np);
 	cudaError_t err = cudaGetLastError();
 	if (cudaSuccess != err){
-		printf("CUDA error in ScaLBL_D3Q7_AAodd_Ion_Flux_BC_Z (kernel): %s \n",cudaGetErrorString(err));
+		printf("CUDA error in ScaLBL_D3Q7_AAodd_Ion_Flux_Diff_BC_Z (kernel): %s \n",cudaGetErrorString(err));
 	}
 }
+//----------DiffAdvc-------------
+extern "C" void ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvc_BC_z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np){
+	int GRID = count / 512 + 1;
+	dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvc_BC_z<<<GRID,512>>>(list, dist, FluxIn, tau, VelocityZ, count, Np);
+	cudaError_t err = cudaGetLastError();
+	if (cudaSuccess != err){
+		printf("CUDA error in ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvc_BC_z (kernel): %s \n",cudaGetErrorString(err));
+	}
+}
+
+extern "C" void ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvc_BC_Z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np){
+	int GRID = count / 512 + 1;
+	dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvc_BC_Z<<<GRID,512>>>(list, dist, FluxIn, tau, VelocityZ, count, Np);
+	cudaError_t err = cudaGetLastError();
+	if (cudaSuccess != err){
+		printf("CUDA error in ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvc_BC_Z (kernel): %s \n",cudaGetErrorString(err));
+	}
+}
+
+extern "C" void ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvc_BC_z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np){
+	int GRID = count / 512 + 1;
+	dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvc_BC_z<<<GRID,512>>>(d_neighborList, list, dist, FluxIn, tau, VelocityZ, count, Np);
+	cudaError_t err = cudaGetLastError();
+	if (cudaSuccess != err){
+		printf("CUDA error in ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvc_BC_z (kernel): %s \n",cudaGetErrorString(err));
+	}
+}
+
+extern "C" void ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvc_BC_Z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, int count, int Np){
+	int GRID = count / 512 + 1;
+	dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvc_BC_Z<<<GRID,512>>>(d_neighborList, list, dist, FluxIn, tau, VelocityZ, count, Np);
+	cudaError_t err = cudaGetLastError();
+	if (cudaSuccess != err){
+		printf("CUDA error in ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvc_BC_Z (kernel): %s \n",cudaGetErrorString(err));
+	}
+}
+//----------DiffAdvcElec-------------
+extern "C" void ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvcElec_BC_z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, double *ElectricField_Z,
+                                                              double Di, double zi, double Vt, int count, int Np){
+	int GRID = count / 512 + 1;
+	dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvcElec_BC_z<<<GRID,512>>>(list, dist, FluxIn, tau, VelocityZ, ElectricField_Z, Di, zi, Vt, count, Np);
+	cudaError_t err = cudaGetLastError();
+	if (cudaSuccess != err){
+		printf("CUDA error in ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvcElec_BC_z (kernel): %s \n",cudaGetErrorString(err));
+	}
+}
+
+extern "C" void ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvcElec_BC_Z(int *list, double *dist, double FluxIn, double tau, double *VelocityZ, double *ElectricField_Z,
+                                                              double Di, double zi, double Vt, int count, int Np){
+	int GRID = count / 512 + 1;
+	dvc_ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvcElec_BC_Z<<<GRID,512>>>(list, dist, FluxIn, tau, VelocityZ, ElectricField_Z, Di, zi, Vt, count, Np);
+	cudaError_t err = cudaGetLastError();
+	if (cudaSuccess != err){
+		printf("CUDA error in ScaLBL_D3Q7_AAeven_Ion_Flux_DiffAdvcElec_BC_Z (kernel): %s \n",cudaGetErrorString(err));
+	}
+}
+
+extern "C" void ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvcElec_BC_z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, double *ElectricField_Z,
+                                                             double Di, double zi, double Vt, int count, int Np){
+	int GRID = count / 512 + 1;
+	dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvcElec_BC_z<<<GRID,512>>>(d_neighborList, list, dist, FluxIn, tau, VelocityZ, ElectricField_Z, Di, zi, Vt, count, Np);
+	cudaError_t err = cudaGetLastError();
+	if (cudaSuccess != err){
+		printf("CUDA error in ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvcElec_BC_z (kernel): %s \n",cudaGetErrorString(err));
+	}
+}
+
+extern "C" void ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvcElec_BC_Z(int *d_neighborList, int *list, double *dist, double FluxIn, double tau, double *VelocityZ, double *ElectricField_Z,
+                                                             double Di, double zi, double Vt, int count, int Np){
+	int GRID = count / 512 + 1;
+	dvc_ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvcElec_BC_Z<<<GRID,512>>>(d_neighborList, list, dist, FluxIn, tau, VelocityZ, ElectricField_Z, Di, zi, Vt, count, Np);
+	cudaError_t err = cudaGetLastError();
+	if (cudaSuccess != err){
+		printf("CUDA error in ScaLBL_D3Q7_AAodd_Ion_Flux_DiffAdvcElec_BC_Z (kernel): %s \n",cudaGetErrorString(err));
+	}
+}
+//-------------------------------