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xiaotian zhu
44 articles
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  • - Added self.use_ninja = False in the __init__ function of BuildExtension class in ...\site-packages\torch\utils\cpp_extension.py, to get more informative output about where the build errors are. Instead of hacking the code like that, there might be a way to pass some argument to disable ninja build; I didn't explore that. - For "Warning: Error checking compiler version for cl: [WinError 2] The system cannot find the file specified". - In each Anaconda prompt, before "cl" is invoked, we need to run appropriate Visual Studio Developer command file to set up the environment variables. Example: "call "C:\Program Files (x86)\Microsoft Visual Studio\2019\Enterprise\VC\Auxiliary\Build\vcvars64.bat". The exact batch file to execute depends on the architecture for which we want to compile etc. - I decided not to use develop.sh, because it leads to "Python: unknown command" error due to bash not being aware of Anaconda environment (??). The first line in develop.sh is for cleaning up -- which can be done manually. I chose to directly run the second line "python setup.py develop". - Handling the <tr1/functional> file not found error - "tr1" was a temporary namespace that was in use when "functional" was still not part of the C++ standard. - In "sparseconfig.h" under "sparseconvnet\SCN\Metadata\sparsehash\internal", made the following changes: - Changed "#define HASH_FUN_H <tr1/functional>" to "#define HASH_FUN_H <functional>" - Changed "#define HASH_NAMESPACE std::tr1" to "#define HASH_NAMESPACE std" - In cpp_extension.py, line 1398, set num_workers = 1 - On line 297, self.use_ninja = False - There are several occurrences of "or" (instead of "||") and "and" (instead of "&&") in Metadata.cpp, NetworkInNetwork.cpp etc. To get them to build with Microsoft compiler, we need to pass the "/permissive-" option (Note: Though '/Za' flag is supposed to fix them, it causes other errors). Updated setup.py to add that option. - c:\blahblah\SparseConvNet\sparseconvnet\SCN\Metadata\sparsehash\internal\hashtable-common.h(166): error C2760: syntax error: unexpected token 'typedef', expected ';' - In hashtable-common.h, changed the definition of SPARSEHASH_COMPILE_ASSERT(expr, msg) to static_assert(expr, "message") - c:\blahblah\SparseConvNet\sparseconvnet\SCN\CUDA/SparseToDense.cpp(29): error C2664: 'at::Tensor &at::Tensor::resize_(c10::IntArrayRef,c10::optional<c10::MemoryFormat>) const': cannot convert argument 1 from 'std::array<long,3>' to 'c10::IntArrayRef' - Changed "std::array<long, Dimension + 2> sz" to "std::array<int64_t, Dimension + 2> sz" - c:\blahblah\SparseConvNet\sparseconvnet\SCN\CUDA/BatchNormalization.cu(83): error: calling a __host__ function("pow<float, double, (int)0> ") from a __global__ function("BatchNormalization_f_test<float, (int)16, (int)64> ") is not allowed - Changed "pow(_saveInvStd / nActive + eps, -0.5)" to "pow(double(_saveInvStd / nActive + eps), -0.5)". Otherwise, the calling signature happens to be pow(float, double) which does not correspond to the signature of any variant of "pow" function available on CUDA. - Big one: After doing all of the above, I got the code to compile, but a mysterious link error appeared. The error said something like this: sparseconvnet_cuda.obj : error LNK2001: unresolved external symbol "public: long * __cdecl at::Tensor::data_ptr<long>(void)const " (??$data_ptr@J@Tensor@at@@QEBAPEAJXZ) - This was too mysterious. A knowledgeable poster on CUDA forum offered a clue to help this. As that poster said, code meant to be cross-platform should not be using "long". It would end up being 32 bit wide on 64-bit Windows machines while being 64 bit wide on 64-bit Linux machines. - Replaced all occurrences of "long" by "int64_t" and the mysterious link error went away.
1 annotation
  • it learns a representation that uses cues from other tasks, such as segmentation
  • our model can learn multi-task weightings and outperform separate models trained individually on each task.
  • use homoscedastic uncertainty to weight the losses in multi-task learning models
  • because it is tested on the same problem with the same sensor.
  • train a model with dropout. Then, at test time, rather than performing model averaging, we can stochastically sample from the network with different random dropout masks. The statistics of this distribution of outputs will reflect the model’s epistemic uncertainty
  • model distributions over models and their parameters
  • the uncertainty parameter will no longer be a model output, but a free parameter we optimise.
  • learned loss attenuation
  • model Heteroscedastic aleatoric uncertainty just by changing our loss functions
  • Bayesian deep learning models typically form uncertainty estimates by either placing distributions over model weights, or by learning a direct mapping to probabilistic outputs
  • when the model is unfamiliar with the footpath, and the corresponding increased epistemic uncertainty
  • aleatoric uncertainty captures object boundaries where labels are noisy
  • Task-dependant or Homoscedastic uncertainty is aleatoric uncertainty which is not dependant on the input data. It is not a model output, rather it is a quantity which stays constant for all input data and varies between different tasks
  • Data-dependant or Heteroscedastic uncertainty is aleatoric uncertainty which depends on the input data and is predicted as a model output
  • Aleatoric uncertainty captures our uncertainty with respect to information which our data cannot explain
  • model uncertainty
  • Epistemic uncertainty captures our ignorance about which model generated our collected data
17 annotations