Exemple #1
0
            public static float[,] CalcGradientMap(float[,] residuals, Complex[,] psfCorrelation, Rectangle psfSize)
            {
                var yPadding = psfSize.YEnd;
                var xPadding = psfSize.XEnd;

                var resPadded = Pad(residuals, yPadding, xPadding);
                var ResPAdded = FFT.Forward(resPadded, 1.0);
                var B         = Fourier2D.Multiply(ResPAdded, psfCorrelation);
                var bPadded   = FFT.BackwardFloat(B, (double)(B.GetLength(0) * B.GetLength(1)));
                var bMap      = RemovePadding(bPadded, yPadding, xPadding);

                return(bMap);
            }
Exemple #2
0
        public static void DebugILGPU()
        {
            var    frequencies  = FitsIO.ReadFrequencies(@"C:\dev\GitHub\p9-data\small\fits\simulation_point\freq.fits");
            var    uvw          = FitsIO.ReadUVW(@"C:\dev\GitHub\p9-data\small\fits\simulation_point\uvw.fits");
            var    flags        = new bool[uvw.GetLength(0), uvw.GetLength(1), frequencies.Length]; //completely unflagged dataset
            double norm         = 2.0;
            var    visibilities = FitsIO.ReadVisibilities(@"C:\dev\GitHub\p9-data\small\fits\simulation_point\vis.fits", uvw.GetLength(0), uvw.GetLength(1), frequencies.Length, norm);

            var    visibilitiesCount = visibilities.Length;
            int    gridSize          = 256;
            int    subgridsize       = 8;
            int    kernelSize        = 4;
            int    max_nr_timesteps  = 1024;
            double cellSize          = 1.0 / 3600.0 * PI / 180.0;
            var    c = new GriddingConstants(visibilitiesCount, gridSize, subgridsize, kernelSize, max_nr_timesteps, (float)cellSize, 1, 0.0f);

            var watchTotal     = new Stopwatch();
            var watchForward   = new Stopwatch();
            var watchBackwards = new Stopwatch();
            var watchDeconv    = new Stopwatch();

            watchTotal.Start();
            var metadata = Partitioner.CreatePartition(c, uvw, frequencies);

            var psfGrid = IDG.GridPSF(c, metadata, uvw, flags, frequencies);
            var psf     = FFT.Backward(psfGrid, c.VisibilitiesCount);

            FFT.Shift(psf);

            var psfCutDouble = CutImg(psf);
            var psfCut       = ToFloatImage(psfCutDouble);

            FitsIO.Write(psfCut, "psfCut.fits");


            var totalSize      = new Rectangle(0, 0, gridSize, gridSize);
            var imageSection   = new Rectangle(0, 128, gridSize, gridSize);
            var bMapCalculator = new PaddedConvolver(PSF.CalcPaddedFourierCorrelation(psfCut, totalSize), new Rectangle(0, 0, psfCut.GetLength(0), psfCut.GetLength(1)));
            var fastCD         = new FastSerialCD(totalSize, psfCut);

            fastCD.ResetLipschitzMap(ToFloatImage(psf));
            var gpuCD  = new GPUSerialCD(totalSize, psfCut, 100);
            var lambda = 0.5f * fastCD.MaxLipschitz;
            var alpha  = 0.8f;

            var xImage      = new float[gridSize, gridSize];
            var residualVis = visibilities;

            /*var truth = new double[gridSize, gridSize];
             * truth[30, 30] = 1.0;
             * truth[35, 36] = 1.5;
             * var truthVis = IDG.ToVisibilities(c, metadata, truth, uvw, frequencies);
             * visibilities = truthVis;
             * var residualVis = truthVis;*/
            for (int cycle = 0; cycle < 4; cycle++)
            {
                //FORWARD
                watchForward.Start();
                var dirtyGrid  = IDG.Grid(c, metadata, residualVis, uvw, frequencies);
                var dirtyImage = FFT.BackwardFloat(dirtyGrid, c.VisibilitiesCount);
                FFT.Shift(dirtyImage);
                FitsIO.Write(dirtyImage, "dirty_" + cycle + ".fits");
                watchForward.Stop();

                //DECONVOLVE
                watchDeconv.Start();
                bMapCalculator.ConvolveInPlace(dirtyImage);
                FitsIO.Write(dirtyImage, "bMap_" + cycle + ".fits");
                //var result = fastCD.Deconvolve(xImage, dirtyImage, lambda, alpha, 1000, 1e-4f);
                var result = gpuCD.Deconvolve(xImage, dirtyImage, lambda, alpha, 1000, 1e-4f);

                if (result.Converged)
                {
                    Console.WriteLine("-----------------------------CONVERGED!!!!------------------------");
                }
                else
                {
                    Console.WriteLine("-------------------------------not converged----------------------");
                }
                FitsIO.Write(xImage, "xImageGreedy" + cycle + ".fits");
                FitsIO.Write(dirtyImage, "residualDebug_" + cycle + ".fits");
                watchDeconv.Stop();

                //BACKWARDS
                watchBackwards.Start();
                FFT.Shift(xImage);
                var xGrid = FFT.Forward(xImage);
                FFT.Shift(xImage);
                var modelVis = IDG.DeGrid(c, metadata, xGrid, uvw, frequencies);
                residualVis = Visibilities.Substract(visibilities, modelVis, flags);
                watchBackwards.Stop();

                var hello = FFT.Forward(xImage, 1.0);
                hello = Common.Fourier2D.Multiply(hello, psfGrid);
                var hImg = FFT.Backward(hello, (double)(128 * 128));
                //FFT.Shift(hImg);
                FitsIO.Write(hImg, "modelDirty_FFT.fits");

                var imgRec = IDG.ToImage(c, metadata, modelVis, uvw, frequencies);
                FitsIO.Write(imgRec, "modelDirty" + cycle + ".fits");
            }
        }
Exemple #3
0
        public static void DebugSimulatedApprox()
        {
            var    frequencies  = FitsIO.ReadFrequencies(@"C:\dev\GitHub\p9-data\small\fits\simulation_point\freq.fits");
            var    uvw          = FitsIO.ReadUVW(@"C:\dev\GitHub\p9-data\small\fits\simulation_point\uvw.fits");
            var    flags        = new bool[uvw.GetLength(0), uvw.GetLength(1), frequencies.Length]; //completely unflagged dataset
            double norm         = 2.0;
            var    visibilities = FitsIO.ReadVisibilities(@"C:\dev\GitHub\p9-data\small\fits\simulation_point\vis.fits", uvw.GetLength(0), uvw.GetLength(1), frequencies.Length, norm);

            var    visibilitiesCount = visibilities.Length;
            int    gridSize          = 256;
            int    subgridsize       = 8;
            int    kernelSize        = 4;
            int    max_nr_timesteps  = 1024;
            double cellSize          = 1.0 / 3600.0 * PI / 180.0;
            var    c = new GriddingConstants(visibilitiesCount, gridSize, subgridsize, kernelSize, max_nr_timesteps, (float)cellSize, 1, 0.0f);

            var watchTotal     = new Stopwatch();
            var watchForward   = new Stopwatch();
            var watchBackwards = new Stopwatch();
            var watchDeconv    = new Stopwatch();

            watchTotal.Start();
            var metadata = Partitioner.CreatePartition(c, uvw, frequencies);

            var psfGrid = IDG.GridPSF(c, metadata, uvw, flags, frequencies);
            var psf     = FFT.BackwardFloat(psfGrid, c.VisibilitiesCount);

            FFT.Shift(psf);
            var psfCut = PSF.Cut(psf);

            FitsIO.Write(psfCut, "psfCut.fits");

            var random         = new Random(123);
            var totalSize      = new Rectangle(0, 0, gridSize, gridSize);
            var bMapCalculator = new PaddedConvolver(PSF.CalcPaddedFourierCorrelation(psfCut, totalSize), new Rectangle(0, 0, psfCut.GetLength(0), psfCut.GetLength(1)));
            var fastCD         = new FastSerialCD(totalSize, psfCut);
            //fastCD.ResetAMap(psf);
            var lambda  = 0.5f * fastCD.MaxLipschitz;
            var alpha   = 0.8f;
            var approx  = new ApproxParallel();
            var approx2 = new ApproxFast(totalSize, psfCut, 4, 8, 0f, 0.25f, false, true);

            var xImage      = new float[gridSize, gridSize];
            var residualVis = visibilities;

            /*var truth = new double[gridSize, gridSize];
             * truth[30, 30] = 1.0;
             * truth[35, 36] = 1.5;
             * var truthVis = IDG.ToVisibilities(c, metadata, truth, uvw, frequencies);
             * visibilities = truthVis;
             * var residualVis = truthVis;*/
            var data = new ApproxFast.TestingData(new StreamWriter("approxConvergence.txt"));

            for (int cycle = 0; cycle < 4; cycle++)
            {
                //FORWARD
                watchForward.Start();
                var dirtyGrid  = IDG.Grid(c, metadata, residualVis, uvw, frequencies);
                var dirtyImage = FFT.BackwardFloat(dirtyGrid, c.VisibilitiesCount);
                FFT.Shift(dirtyImage);
                FitsIO.Write(dirtyImage, "dirty_" + cycle + ".fits");
                watchForward.Stop();

                //DECONVOLVE
                watchDeconv.Start();
                //approx.ISTAStep(xImage, dirtyImage, psf, lambda, alpha);
                //FitsIO.Write(xImage, "xIsta.fits");
                //FitsIO.Write(dirtyImage, "dirtyFista.fits");
                //bMapCalculator.ConvolveInPlace(dirtyImage);
                //FitsIO.Write(dirtyImage, "bMap_" + cycle + ".fits");
                //var result = fastCD.Deconvolve(xImage, dirtyImage, 0.5f * fastCD.MaxLipschitz, 0.8f, 1000, 1e-4f);
                //var converged = approx.DeconvolveActiveSet(xImage, dirtyImage, psfCut, lambda, alpha, random, 8, 1, 1);
                //var converged = approx.DeconvolveGreedy(xImage, dirtyImage, psfCut, lambda, alpha, random, 4, 4, 500);
                //var converged = approx.DeconvolveApprox(xImage, dirtyImage, psfCut, lambda, alpha, random, 1, threads, 500, 1e-4f, cycle == 0);

                approx2.DeconvolveTest(data, cycle, 0, xImage, dirtyImage, psfCut, psf, lambda, alpha, random, 10, 1e-4f);


                if (data.converged)
                {
                    Console.WriteLine("-----------------------------CONVERGED!!!!------------------------");
                }
                else
                {
                    Console.WriteLine("-------------------------------not converged----------------------");
                }
                FitsIO.Write(xImage, "xImageApprox_" + cycle + ".fits");
                watchDeconv.Stop();

                //BACKWARDS
                watchBackwards.Start();
                FFT.Shift(xImage);
                var xGrid = FFT.Forward(xImage);
                FFT.Shift(xImage);
                var modelVis = IDG.DeGrid(c, metadata, xGrid, uvw, frequencies);
                residualVis = Visibilities.Substract(visibilities, modelVis, flags);
                watchBackwards.Stop();
            }


            var dirtyGridCheck = IDG.Grid(c, metadata, residualVis, uvw, frequencies);
            var dirtyCheck     = FFT.Backward(dirtyGridCheck, c.VisibilitiesCount);

            FFT.Shift(dirtyCheck);

            var l2Penalty      = Residuals.CalcPenalty(ToFloatImage(dirtyCheck));
            var elasticPenalty = ElasticNet.CalcPenalty(xImage, (float)lambda, (float)alpha);
            var sum            = l2Penalty + elasticPenalty;

            data.writer.Close();
        }