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MXNet 0.12.0
sandeep-krishnamurthy
released this
30 Oct 20:45
·
14 commits
to v0.12.0
since this release
MXNet Change Log
0.12.0
Performance
- Added full support for NVIDIA Volta GPU Architecture and CUDA 9. Training CNNs is up to 3.5x faster than Pascal when using float16 precision.
- Enabled JIT compilation. Autograd and Gluon hybridize now use less memory and has faster speed. Performance is almost the same with old symbolic style code.
- Improved ImageRecordIO image loading performance and added indexed RecordIO support.
- Added better openmp thread management to improve CPU performance.
New Features - Gluon
- Added enhancements to the Gluon package, a high-level interface designed to be easy to use while keeping most of the flexibility of low level API. Gluon supports both imperative and symbolic programming, making it easy to train complex models imperatively with minimal impact on performance. Neural networks (and other machine learning models) can be defined and trained with
gluon.nn
andgluon.rnn
packages. - Added new loss functions -
SigmoidBinaryCrossEntropyLoss
,CTCLoss
,HuberLoss
,HingeLoss
,SquaredHingeLoss
,LogisticLoss
,TripletLoss
. gluon.Trainer
now allows reading and setting learning rate withtrainer.learning_rate
property.- Added API
HybridBlock.export
for exporting gluon models to MXNet format. - Added
gluon.contrib
package.- Convolutional recurrent network cells for RNN, LSTM and GRU.
VariationalDropoutCell
New Features - Autograd
- Added enhancements to
autograd
package, which enables automatic differentiation of NDArray operations. autograd.Function
allows defining both forward and backward computation for custom operators.- Added
mx.autograd.grad
and experimental second order gradient support (most operators don't support second order gradient yet). - Autograd now supports cross-device graphs. Use
x.copyto(mx.gpu(i))
andx.copyto(mx.cpu())
to do computation on multiple devices.
New Features - Sparse Tensor Support
- Added support for sparse matrices.
- Added limited cpu support for two sparse formats in
Symbol
andNDArray
-CSRNDArray
andRowSparseNDArray
. - Added a sparse dot product operator and many element-wise sparse operators.
- Added a data iterator for sparse data input -
LibSVMIter
. - Added three optimizers for sparse gradient updates:
Ftrl
,SGD
andAdam
. - Added
push
androw_sparse_pull
withRowSparseNDArray
in distributed kvstore.
Other New Features
- Added limited support for fancy indexing, which allows you to very quickly access and modify complicated subsets of an array's values.
x[idx_arr0, idx_arr1, ..., idx_arrn]
is now supported. Features such as combining and slicing are planned for the next release. Checkout master to get a preview. - Random number generators in
mx.nd.random.*
andmx.sym.random.*
now support both CPU and GPU. NDArray
andSymbol
now supports "fluent" methods. You can now usex.exp()
etc instead ofmx.nd.exp(x)
ormx.sym.exp(x)
.- Added
mx.rtc.CudaModule
for writing and running CUDA kernels from python. - Added
multi_precision
option to optimizer for easier float16 training. - Better support for IDE auto-completion. IDEs like PyCharm can now correctly parse mxnet operators.
API Changes
- Operators like
mx.sym.linalg_*
andmx.sym.random_*
are now moved tomx.sym.linalg.*
andmx.sym.random.*
. The old names are still available but deprecated. sample_*
andrandom_*
are now merged asrandom.*
, which supports both scalar andNDArray
distribution parameters.
Bug-fixes
- Fixed a bug that causes
argsort
operator to fail on large tensors. - Fixed numerical stability issues when summing large tensors.
- Fixed a bug that causes arange operator to output wrong results for large ranges.
- Improved numerical precision for unary and binary operators on
float64
inputs.
For more information and examples, see full release notes