ITK Registration Optimization
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Home < ITK Registration Optimization
Goals
There are two components to this research
- Identify registration algorithms that are suitable for non-rigid registration problems that are indemic to NA-MIC
- Develop implementations of those algorithms that take advantage of multi-core and multi-processor hardware.
Algorithmic Requirements and Use Cases
- Requirements
- relatively robust, with few parameters to tweak
- runs on grey scale images
- has already been published
- relatively fast (ideally speaking a few minutes for volume to volume).
- not patented
- can be implemented in ITK and parallelized.
- Use-cases
- Intersubject mapping
- Example data set (Kilian)
- fMRI to hi-res brain morphology mapping
- Example data set (Steve Pieper)
- DTI: components of the diffusion tensor
- Example data (Sylvain)
- Intersubject mapping
Hardware Platform Requirements and Use Cases
- Requirements
- Shared memory
- Single and multi-core machines
- Single and multi-processor machines
- AMD and Intel - Windows, Linux, and SunOS
- Use-cases
- Intel Core2Duo
- Intel quad-core Xeon processors (?)
- 6 CPU Sun, Solaris 8 (SPL: vision)
- 12 CPU Sun, Solaris 8 (SPL: forest and ocean)
- 16 core Opteron (SPL: john, ringo, paul, george)
- 16 core, Sun Fire, AMDOpteron (UNC: Styner)
Data
Workplan
Establish testing and reporting infrastructure
- Identify timing tools
- Cross platform and multi-threaded
- Timing and profiling
- Status
- Instrumenting modular tests
- Extending itk's cross-platform high precision timer
- Adding thread affinity to ensure valid timings
- Adding method for increasing process priority
- Profiling complete registration solutions for use cases
- Using CacheGrind on single and multi-core linux systems
- Instrumenting modular tests
- Develop performance dashboard for collecting results
- Each test will report time and accuracy to a central server
- The performance of a test, over time, for a given platform can be viewed on one page
- The performance of a set of tests, at one point in time, for all platforms can be viewed on one page
- Status
- BatchMake database communication code being isolated
- Performance dashboard web pages being designed
Develop tests
- Develop modular tests
- Status
- Developed itkCheckerboardImageSource so no IO required
- Developing tests as listed in the "Modular Tests" section below
- Status
- Develop C-style tests
- Tests should represent the non-ITK way of doing image analysis
- Use standard C/C++ arrays and pointers to access blocks of memory as images
- Tests should represent the non-ITK way of doing image analysis
- Develop complete registration solutions for use cases
- Status
- Centralized data and provide easy access
- Identified relevant registration algorithms
- rigid, affine, bspline, multi-level bspline, and Demons'
- normalized mutual information, mean squared difference, and cross correlation
- Developing traditional ITK-style implementations
- Status
Compute performance on target platforms
- Ongoing
Optimize bottlenecks
- Target bottlenecks
- Use random, sub-sampling iterator in mean squared difference and cross correlation
- Multi-thread metric calculation
- Integrate metrics with transforms and interpolators for tailored performance
MattesMutualInformationImageToImageMetric
Notes
- Added multi-threading to GetValue function - partitions the samples (thereby their transforms from fixed to moving image)
- Added the pre-computation of the FixedImageMarginalPDF for the samples
- Required the concept of an AdjustedFixedImageMarginalPDF that is updated with a fixed sample does not map into the moving image and thereby isn't valid for the current computations. By only updating when samples are missed, mutex lock is needed less often.
- Removed the computation and application of the parzen window function for each sample. Instead, parzen windowing is applied after all samples have been mapped into the joint pdf space. Thereby computation is a function of joint histogram size and not number of samples.
Time in Functions
| Time in self | Time in subfuncs | Function |
|---|---|---|
| 0.00 | 86.64 | __tmainCRTStartup" |
| 0.00 | 48.47 | main" |
| 0.00 | 37.98 | itk::MattesMutualInformationImageToImageMetric<itk::Image<float,3>,itk::Image<float,3> >::GetDerivative" |
| 8.49 | 20.99 | itk::MattesMutualInformationImageToImageMetric<itk::Image<float,3>,itk::Image<float,3> >::GetValueAndDerivative" |
| 0.57 | 19.27 | itk::CentralDifferenceImageFunction<itk::Image<float,3>,double>::Evaluate" |
| 13.40 | 13.55 | itk::CentralDifferenceImageFunction<itk::Image<float,3>,double>::EvaluateAtIndex" |
| 11.70 | 11.83 | itk::BSplineKernelFunction<3>::Evaluate [1]" |
| 9.06 | 9.16 | itk::BSplineKernelFunction<2>::Evaluate [1]" |
| 3.21 | 8.40 | itk::MattesMutualInformationImageToImageMetric<itk::Image<float,3>,itk::Image<float,3> >::GetValue" |
| 8.11 | 8.21 | floor ?" |
| 0.00 | 7.25 | itk::CheckerBoardImageSource<itk::Image<float,3> >::GenerateData" |
| 0.00 | 4.20 | itk::ImageSource<itk::Image<float,3> >::ThreaderCallback" |
| 3.77 | 3.82 | itk::NearestNeighborInterpolateImageFunction<itk::Image<float,3>,double>::EvaluateAtContinuousIndex" |
| 3.21 | 3.24 | itk::StatisticsImageFilter<itk::Image<float,3> >::ThreadedGenerateData" |
| 3.02 | 3.05 | itk::ImageFunction<itk::Image<float,3>,double,double>::IsInsideBuffer" |
| 2.83 | 2.86 | itk::BSplineDerivativeKernelFunction<3>::Evaluate" |
| 2.26 | 2.29 | itk::InterpolateImageFunction<itk::Image<float,3>,double>::Evaluate" |
| 0.00 | 2.10 | endthreadex ?" |
| 2.08 | 2.10 | itk::MattesMutualInformationImageToImageMetric<itk::Image<float,3>,itk::Image<float,3> >::TransformPoint" |
| 2.08 | 2.10 | thunk@403355 ?" |
| 1.89 | 1.91 | _ftol2_pentium4" |
| 1.70 | 1.72 | itk::MattesMutualInformationImageToImageMetric<itk::Image<float,3>,itk::Image<float,3> >::ComputePDFDerivatives" |
| 1.70 | 1.72 | thunk@402f54 ?" |
| 1.51 | 1.53 | itk::BSplineKernelFunction<2>::Evaluate" |
| 1.51 | 1.53 | itk::ImageBase<3>::GetSpacing" |
| 1.13 | 1.53 | itk::ImageFunction<itk::Image<float,3>,double,double>::ConvertContinuousIndexToNearestIndex" |
| 0.94 | 1.34 | itk::CheckerBoardSpatialFunction<double,3,itk::Point<double,3> >::Evaluate" |
| 1.13 | 1.15 | itk::ImageFunction<itk::Image<float,3>,double,double>::IsInsideBuffer [1]" |
| 0.94 | 0.95 | itk::BSplineKernelFunction<3>::Evaluate" |
| 0.75 | 0.76 | itk::ImageBase<3>::GetBufferedRegion" |
| 0.75 | 0.76 | itk::Point<double,3>::operator+" |
| 0.75 | 0.76 | thunk@4036d4 ?" |
| 0.75 | 0.76 | thunk@403cec ?" |
| 0.19 | 0.57 | itk::ImageFunction<itk::Image<float,3>,itk::CovariantVector<double,3>,double>::ConvertContinuousIndexToNearestIndex" |
| 0.57 | 0.57 | itk::MattesMutualInformationImageToImageMetric<itk::Image<float,3>,itk::Image<float,3> >::ComputeImageDerivatives" |
| 0.57 | 0.57 | itk::Point<double,3>::operator=" |
| 0.57 | 0.57 | itk::ShiftScaleImageFilter<itk::Image<float,3>,itk::Image<float,3> >::ThreadedGenerateData" |
| 0.57 | 0.57 | itk::TranslationTransform<double,3>::TransformPoint" |
Time in files
| Time in self | Time in subfuncs | Files |
|---|---|---|
| 16.42 | 72.33 | itkmattesmutualinformationimagetoimagemetric.txx" |
| 0.00 | 48.47 | mattesmutualinformationimagetoimagemetrictest.cxx" |
| 23.21 | 23.47 | itkbsplinekernelfunction.h" |
| 0.57 | 19.27 | itkcentraldifferenceimagefunction.h" |
| 13.40 | 13.55 | itkcentraldifferenceimagefunction.txx" |
| 0.00 | 7.25 | itkcheckerboardimagesource.txx" |
| 5.66 | 6.49 | itkimagefunction.h" |
| 0.00 | 4.20 | itkimagesource.txx" |
| 3.77 | 3.82 | itknearestneighborinterpolateimagefunction.h" |
| 3.21 | 3.24 | itkstatisticsimagefilter.txx" |
| 2.83 | 2.86 | itkbsplinederivativekernelfunction.h" |
| 2.83 | 2.86 | itkimagebase.h" |
| 2.26 | 2.29 | itkinterpolateimagefunction.h" |
| 0.94 | 1.34 | itkcheckerboardspatialfunction.txx" |
| 1.32 | 1.34 | itkpoint.txx" |
| 0.75 | 0.76 | itktranslationtransform.txx" |
| 0.57 | 0.57 | itkshiftscaleimagefilter.txx" |
| 0.38 | 0.38 | vnl_matrix.txx" |
| 0.00 | 0.19 | itkbsplinedeformabletransform.txx" |
| 0.19 | 0.19 | itkfixedarray.txx" |
| 0.19 | 0.19 | itkimageregionconstiterator.txx" |
| 0.19 | 0.19 | itkobject.cxx" |
| 0.19 | 0.19 | vnl_vector.txx" |
| 0.19 | 0.19 | vector" |
| 0.19 | 0.19 | secchk.c" |
Modular tests
All tests send two values to performance dashboards
- the time required
- an measure of the error (0 = no error; 1 = 100% error)
Tests being developed and their parameter spaces
- NearestNeighborInterpTest <numThreads> <dimSize> <factor> [<outputImage>]
- LinearInterpTest <numThreads> <dimSize> <factor> [<outputImage>]
- BSplineInterpTest <numThreads> <dimSize> <factor> <bSplineOrder> [<outputImage>]
- SincInterpTest <numThreads> <dimSize> <factor> [<outputImage>]
- Uses the Welch window function
- BSplineTransformLinearInterpTest <numThreads> <dimSize> <numNodesPerDim> <bSplineOrder> [<outputImage>]
- 3 nodes are also added outside of the image for interpolation
- MeanSquaresImageToImageMetricTest <numThreads> <dimSize> <iterations>
- CorrelationCoefficientHistogramMetricTest <numThreads> <dimSize> <iterations>
- NormalizedCorreltationImageToImageMetricTest <numThreads> <dimSize> <iterations>
- MattesMutualInformationImageToImageMetricTest <numThreads> <dimSize> <numSamples> <iterations>
- MattesMutualInformationMetric defaults to BSpline interpolator - this test overrides to use nearest neighbor interpolation
- MutualInformationImageToImageMetricTest <numThreads> <dimSize> <numSamples> <iterations>
- NormalizedMutualInformationHistrogramMetricTest <numThreads> <dimSize> <iterations>
- SECOND GENERATION TEST
- Computes runtime for GetValue, GetDerivative, and GetValueAndDerivative for standard ITK implementation and for the optimized version being developed. Also computes difference (if any) between their answers and reports as an error measure
- OptMattesMutualInformationImageToImageMetricTest
Related Pages
Performance Measurement
- LTProf - simple profilter for Windows - Shareware
- Intel's VTune for Linux ($)
- TAU
- Threadmon: Thread usage/blockage
- TotalView ($)
- PerfSuite (POSIX Threads)
- GProf work-around for multi-threaded apps
- References on multi-threaded profiling and code optimization
