Exemplo n.º 1
0
        private GreenTensor CalculateGreenTensorAtoOSiteElectric(ObservationSite site)
        {
            var plan             = _plansCreater.CreateForAnomalyToObservationSites(site);
            var transceiver      = TranceiverUtils.CreateAnomalyToObservation(Model.Anomaly, site);
            var scalarCalculator = GreenScalarCalculator.NewAtoOElectricCalculator(Logger, Model);
            var scalars          = scalarCalculator.Calculate(plan, transceiver);

            var calc     = new AtoOSiteGreenTensorCalculator(Logger, Model, MemoryProvider);
            var segments = ScalarSegments.AllocateAndConvert(MemoryProvider, plan, scalars);

            var gt = calc.CalculateAtoOElectric(segments, site, MemoryLayoutOrder.AlongLateral);

            segments.Dispose();

            return(gt);
        }
Exemplo n.º 2
0
        private GreenTensor CalculateGreenTensorElectric(SourceLayer layer, ObservationLevel level)
        {
            var plan             = _plansCreater.CreateForSourceToObservation(layer, level);
            var transceiver      = TranceiverUtils.CreateSourceToObservations(SourceThickness, layer, level);
            var scalarCalculator = GreenScalarCalculator.NewAtoOElectricCalculator(Logger, Model);
            var scalars          = scalarCalculator.Calculate(plan, transceiver);

            using (var segments = ScalarSegments.AllocateAndConvert(MemoryProvider, plan, scalars))
            {
                var tensorPlan = new TensorPlan(_templateTensorPlan, layer, level);
                _gtc.ResetKnots();
                var gt = _gtc.CalculateAtoOElectric(segments, MemoryLayoutOrder.AlongVertical, tensorPlan);

                PerformGreenTensorFft(gt);
                return(gt);
            }
        }
Exemplo n.º 3
0
        private unsafe GreenTensor CalculateGreenTensorAtoOLevelElectric(ObservationLevel level)
        {
            using (Solver.Profiler?.StartAuto(ProfilerEvent.AtoOGreenCalc))
            {
                var plan             = _plansCreater.CreateForAnomalyToObservationLevels(level);
                var transceiver      = TranceiverUtils.CreateAnomalyToObservation(Model.Anomaly, level);
                var scalarCalculator = GreenScalarCalculator.NewAtoOElectricCalculator(Logger, Model);
                var scalars          = scalarCalculator.Calculate(plan, transceiver);

                using (var segments = ScalarSegments.AllocateAndConvert(MemoryProvider, plan, scalars))
                {
                    var tensorPlan = new TensorPlan(_templateTensorPlan, level);
                    _gtc.ResetKnots();
                    var gt = _gtc.CalculateAtoOElectric(segments, MemoryLayoutOrder.AlongVertical, tensorPlan);

                    PerformGreenTensorFft(gt);
                    return(gt);
                }
            }
        }
        private GreenTensor CalculateSymmGreenTensorAtoA()
        {
            _plan.SetOnlySymm();
            var trcSymm = TranceiverUtils.CreateAnomalyToAnomalySymm(Model.Anomaly);

            MemoryUtils.PrintMemoryReport("Before scalars SYM", Logger, MemoryProvider);
            var scalarsSymm = CalculateScalars(_plan, trcSymm.ToArray());

            MemoryUtils.PrintMemoryReport("After scalars SYM", Logger, MemoryProvider);

            using (Profiler?.StartAuto(ProfilerEvent.GreenTensorAtoA))
            {
                GreenTensor tensor;
                using (Profiler?.StartAuto(ProfilerEvent.GreenTensorAtoACalc))
                {
                    MemoryUtils.PrintMemoryReport("Before tensors SYM", Logger, MemoryProvider);
                    tensor = _tensorCalc.CalculateSymmAtoA(scalarsSymm, MemoryLayoutOrder.AlongVertical, _mirroringX);
                    MemoryUtils.PrintMemoryReport("After tensors SYM", Logger, MemoryProvider);
                    scalarsSymm.Dispose();
                    MemoryUtils.PrintMemoryReport("after SCAl Dispose SYM", Logger, MemoryProvider);
                }

                PopulateForFft(tensor, MemoryLayoutOrder.AlongVertical, _totalNxLength, true);

                if (_mirroringX)
                {
                    AddMinusToXy(tensor);
                }

                using (Profiler?.StartAuto(ProfilerEvent.GreenTensorAtoAFft))
                {
                    PerformFftSymm(tensor, MemoryLayoutOrder.AlongVertical);
                }

                return(tensor);
            }
        }