From 12fd6925502d3ead9b73498f44f9b2f9abbc9bea Mon Sep 17 00:00:00 2001 From: Willem Jan Palenstijn Date: Thu, 2 Oct 2014 13:50:59 +0200 Subject: Add CUDA SIRT::doSlabCorrections() function This function optionally compensates for effectively infinitely large slab-like objects of finite thickness 1. --- cuda/2d/arith.cu | 9 +++++++++ cuda/2d/arith.h | 1 + cuda/2d/sirt.cu | 45 +++++++++++++++++++++++++++++++++++++++++++++ cuda/2d/sirt.h | 4 ++++ 4 files changed, 59 insertions(+) (limited to 'cuda') diff --git a/cuda/2d/arith.cu b/cuda/2d/arith.cu index 04d4de9..93b1ee0 100644 --- a/cuda/2d/arith.cu +++ b/cuda/2d/arith.cu @@ -68,6 +68,14 @@ struct opMul { out *= in; } }; +struct opDiv { + __device__ void operator()(float& out, const float in) { + if (in > 0.000001f) // out is assumed to be positive + out /= in; + else + out = 0.0f; + } +}; struct opMul2 { __device__ void operator()(float& out, const float in1, const float in2) { out *= in1 * in2; @@ -682,6 +690,7 @@ INST_DtoD(opDividedBy) INST_toD(opInvert) INST_FtoD(opSet) INST_FtoD(opMul) +INST_DtoD(opDiv) INST_DFtoD(opMulMask) INST_FtoD(opAdd) INST_FtoD(opClampMin) diff --git a/cuda/2d/arith.h b/cuda/2d/arith.h index f730e2f..5a7d034 100644 --- a/cuda/2d/arith.h +++ b/cuda/2d/arith.h @@ -41,6 +41,7 @@ struct opAddMul; struct opAdd; struct opAdd2; struct opMul; +struct opDiv; struct opMul2; struct opDividedBy; struct opInvert; diff --git a/cuda/2d/sirt.cu b/cuda/2d/sirt.cu index d34a180..98c7f09 100644 --- a/cuda/2d/sirt.cu +++ b/cuda/2d/sirt.cu @@ -142,6 +142,51 @@ bool SIRT::precomputeWeights() return true; } +bool SIRT::doSlabCorrections() +{ + // This function compensates for effectively infinitely large slab-like + // objects of finite thickness 1. + + // Each ray through the object has an intersection of length d/cos(alpha). + // The length of the ray actually intersecting the reconstruction volume is + // given by D_lineWeight. By dividing by 1/cos(alpha) and multiplying by the + // lineweights, we correct for this missing attenuation outside of the + // reconstruction volume, assuming the object is homogeneous. + + // This effectively scales the output values by assuming the thickness d + // is 1 unit. + + + // This function in its current implementation only works if there are no masks. + // In this case, init() will also have already called precomputeWeights(), + // so we can use D_lineWeight. + if (useVolumeMask || useSinogramMask) + return false; + + // multiply by line weights + processSino(D_sinoData, D_lineWeight, projPitch, dims); + + SDimensions subdims = dims; + subdims.iProjAngles = 1; + + // divide by 1/cos(angle) + // ...but limit the correction to -80/+80 degrees. + float bound = cosf(1.3963f); + float* t = (float*)D_sinoData; + for (int i = 0; i < dims.iProjAngles; ++i) { + float f = fabs(cosf(angles[i])); + + if (f < bound) + f = bound; + + processSino(t, f, sinoPitch, subdims); + t += sinoPitch; + } + + return true; +} + + bool SIRT::setMinMaxMasks(float* D_minMaskData_, float* D_maxMaskData_, unsigned int iPitch) { diff --git a/cuda/2d/sirt.h b/cuda/2d/sirt.h index 5592616..d44a20a 100644 --- a/cuda/2d/sirt.h +++ b/cuda/2d/sirt.h @@ -41,6 +41,10 @@ public: virtual bool init(); + // Do optional long-object compensation. See the comments in sirt.cu. + // Call this after init(). It can not be used in combination with masks. + bool doSlabCorrections(); + // Set min/max masks to existing GPU memory buffers bool setMinMaxMasks(float* D_minMaskData, float* D_maxMaskData, unsigned int pitch); -- cgit v1.2.3