public void PerformIteration(int i)
        {
            //Основной рассчет
            //for (int i = 1; i < modellingParams.Nt; i++)
            //{
            LayerData result = solver.Solve(true);

            //Кладем данные в DataSet
            u.Append(result.U.ToArray(), "t");
            v.Append(result.V.ToArray(), "t");
            w.Append(result.W.ToArray(), "t");
            T.Append(result.T.ToArray(), "t");
            div.Append(result.Div.ToArray(), "t");
            time.Append(new double[1] {
                (double)i / modellingParams.Nt
            });
            dataSet.Commit();
            //Переходим на следующий слой
            solver   = new LayerSolver(prevData, result, modellingParams);
            prevData = result;

            double temp  = 0;
            int    count = result.Width * result.Height * result.Thickness;

            for (int ii = 1; ii < result.Width; ii++)
            {
                for (int jj = 1; jj < result.Height; jj++)
                {
                    for (int kk = 1; kk < result.Thickness; kk++)
                    {
                        temp += result.Div[ii, jj, kk];
                    }
                }
            }
            temp = temp / count * modellingParams.Dx * modellingParams.Dy * modellingParams.Dz;

            Console.WriteLine((double)i / modellingParams.Nt * 100 + "% Error = " + temp);
            //}
            //dataSet.Commit();
        }
		public void SolveAll(string ctorString)
		{
			//dataSet = ProxyDataSet.Open("msds:nc?file=../../../temp.nc");
			dataSet = ProxyDataSet.Open("msds:memory");

			//Инициализируем DataSet
			Variable X = dataSet.AddVariable<double>("X", "x");
			Variable Y = dataSet.AddVariable<double>("Y", "y");
			Variable Z = dataSet.AddVariable<double>("Z", "z");
			Variable time = dataSet.AddVariable<double>("Time", "t");

			Variable u = dataSet.AddVariable<double>("U velocity", "x", "y", "z", "t");
			Variable v = dataSet.AddVariable<double>("V velocity", "x", "y", "z", "t");
			Variable w = dataSet.AddVariable<double>("W velocity", "x", "y", "z", "t");
			Variable T = dataSet.AddVariable<double>("Temperature", "x", "y", "z", "t");
			Variable div = dataSet.AddVariable<double>("Divergence", "x", "y", "z", "t");
			dataSet.Commit();

			double[] wArr = new double[modellingParams.Nx];
			for (int i = 0; i < modellingParams.Nx; i++)
			{
				wArr[i] = i * modellingParams.Dx;
			}
			X.PutData(wArr);
			wArr = new double[modellingParams.Ny];
			for (int i = 0; i < modellingParams.Ny; i++)
			{
				wArr[i] = i * modellingParams.Dy;
			}
			Y.PutData(wArr);
			wArr = new double[modellingParams.Nz];
			for (int i = 0; i < modellingParams.Nz; i++)
			{
				wArr[i] = i * modellingParams.Dz;
			}
			Z.PutData(wArr);

			//Инициализируем рассчетный модуль для слоя начальными условиями
			LayerSolver solver = new LayerSolver(prevData, modellingParams);
			u.Append(prevData.U.ToArray(), "t");
			v.Append(prevData.V.ToArray(), "t");
			w.Append(prevData.W.ToArray(), "t");
			T.Append(prevData.T.ToArray(), "t");
			div.Append(prevData.Div.ToArray(), "t");

			time.PutData(new double[1] { 0 });
			dataSet.Commit();

			//Основной рассчет
			for (int i = 1; i < modellingParams.Nt; i++)
			{
				LayerData result = solver.Solve(true);
				//Кладем данные в DataSet
				u.Append(result.U.ToArray(), "t");
				v.Append(result.V.ToArray(), "t");
				w.Append(result.W.ToArray(), "t");
				T.Append(result.T.ToArray(), "t");
				div.Append(result.Div.ToArray(), "t");
				time.Append(new double[1] { (double)i / modellingParams.Nt });
				dataSet.Commit();
				//Переходим на следующий слой
				solver = new LayerSolver(prevData, result, modellingParams);
				prevData = result;

				double temp = 0;
				int count = 0;
				for (int ii = 1; ii < result.Width; ii++)
				{
					for (int jj = 1; jj < result.Height; jj++)
					{
						for (int kk = 1; kk < result.Thickness; kk++)
						{
							temp += result.Div[ii, jj, kk];
							count++;
						}
					}
				}
				temp = temp / count * modellingParams.Dx * modellingParams.Dy * modellingParams.Dz;

				Console.WriteLine((double)i / modellingParams.Nt * 100 + "% Error = " + temp);
			}
			dataSet.Commit();
		}
        public void SolveAll(string ctorString)
        {
            //dataSet = ProxyDataSet.Open("msds:nc?file=../../../temp.nc");
            dataSet = ProxyDataSet.Open("msds:memory");

            //Инициализируем DataSet
            Variable X    = dataSet.AddVariable <double>("X", "x");
            Variable Y    = dataSet.AddVariable <double>("Y", "y");
            Variable Z    = dataSet.AddVariable <double>("Z", "z");
            Variable time = dataSet.AddVariable <double>("Time", "t");

            Variable u   = dataSet.AddVariable <double>("U velocity", "x", "y", "z", "t");
            Variable v   = dataSet.AddVariable <double>("V velocity", "x", "y", "z", "t");
            Variable w   = dataSet.AddVariable <double>("W velocity", "x", "y", "z", "t");
            Variable T   = dataSet.AddVariable <double>("Temperature", "x", "y", "z", "t");
            Variable div = dataSet.AddVariable <double>("Divergence", "x", "y", "z", "t");

            dataSet.Commit();

            double[] wArr = new double[modellingParams.Nx];
            for (int i = 0; i < modellingParams.Nx; i++)
            {
                wArr[i] = i * modellingParams.Dx;
            }
            X.PutData(wArr);
            wArr = new double[modellingParams.Ny];
            for (int i = 0; i < modellingParams.Ny; i++)
            {
                wArr[i] = i * modellingParams.Dy;
            }
            Y.PutData(wArr);
            wArr = new double[modellingParams.Nz];
            for (int i = 0; i < modellingParams.Nz; i++)
            {
                wArr[i] = i * modellingParams.Dz;
            }
            Z.PutData(wArr);

            //Инициализируем рассчетный модуль для слоя начальными условиями
            LayerSolver solver = new LayerSolver(prevData, modellingParams);

            u.Append(prevData.U.ToArray(), "t");
            v.Append(prevData.V.ToArray(), "t");
            w.Append(prevData.W.ToArray(), "t");
            T.Append(prevData.T.ToArray(), "t");
            div.Append(prevData.Div.ToArray(), "t");

            time.PutData(new double[1] {
                0
            });
            dataSet.Commit();

            //Основной рассчет
            for (int i = 1; i < modellingParams.Nt; i++)
            {
                LayerData result = solver.Solve(true);
                //Кладем данные в DataSet
                u.Append(result.U.ToArray(), "t");
                v.Append(result.V.ToArray(), "t");
                w.Append(result.W.ToArray(), "t");
                T.Append(result.T.ToArray(), "t");
                div.Append(result.Div.ToArray(), "t");
                time.Append(new double[1] {
                    (double)i / modellingParams.Nt
                });
                dataSet.Commit();
                //Переходим на следующий слой
                solver   = new LayerSolver(prevData, result, modellingParams);
                prevData = result;

                double temp  = 0;
                int    count = 0;
                for (int ii = 1; ii < result.Width; ii++)
                {
                    for (int jj = 1; jj < result.Height; jj++)
                    {
                        for (int kk = 1; kk < result.Thickness; kk++)
                        {
                            temp += result.Div[ii, jj, kk];
                            count++;
                        }
                    }
                }
                temp = temp / count * modellingParams.Dx * modellingParams.Dy * modellingParams.Dz;

                Console.WriteLine((double)i / modellingParams.Nt * 100 + "% Error = " + temp);
            }
            dataSet.Commit();
        }