Release 2.5.0
Major Features and Improvements
- Support for Python3.9 has been added.
tf.data
:tf.data
service now supports strict round-robin reads, which is useful for synchronous training workloads where example sizes vary. With strict round robin reads, users can guarantee that consumers get similar-sized examples in the same step.- tf.data service now supports optional compression. Previously data would always be compressed, but now you can disable compression by passing
compression=None
totf.data.experimental.service.distribute(...)
. tf.data.Dataset.batch()
now supportsnum_parallel_calls
anddeterministic
arguments.num_parallel_calls
is used to indicate that multiple input batches should be computed in parallel. Withnum_parallel_calls
set,deterministic
is used to indicate that outputs can be obtained in the non-deterministic order.- Options returned by
tf.data.Dataset.options()
are no longer mutable. - tf.data input pipelines can now be executed in debug mode, which disables any asynchrony, parallelism, or non-determinism and forces Python execution (as opposed to trace-compiled graph execution) of user-defined functions passed into transformations such as
map
. The debug mode can be enabled throughtf.data.experimental.enable_debug_mode()
.
tf.lite
- Enabled the new MLIR-based quantization backend by default
- The new backend is used for 8 bits full integer post-training quantization
- The new backend removes the redundant rescales and fixes some bugs (shared weight/bias, extremely small scales, etc)
- Set
experimental_new_quantizer
in tf.lite.TFLiteConverter to False to disable this change
- Enabled the new MLIR-based quantization backend by default
tf.keras
tf.keras.metrics.AUC
now support logit predictions.- Enabled a new supported input type in
Model.fit
,tf.keras.utils.experimental.DatasetCreator
, which takes a callable,dataset_fn
.DatasetCreator
is intended to work across alltf.distribute
strategies, and is the only input type supported for Parameter Server strategy.
tf.distribute
tf.distribute.experimental.ParameterServerStrategy
now supports training with KerasModel.fit
when used withDatasetCreator
.- Creating
tf.random.Generator
undertf.distribute.Strategy
scopes is now allowed (except fortf.distribute.experimental.CentralStorageStrategy
andtf.distribute.experimental.ParameterServerStrategy
). Different replicas will get different random-number streams.
- TPU embedding support
- Added
profile_data_directory
toEmbeddingConfigSpec
in_tpu_estimator_embedding.py
. This allows embedding lookup statistics gathered at runtime to be used in embedding layer partitioning decisions.
- Added
- PluggableDevice
- Third-party devices can now connect to TensorFlow as plug-ins through StreamExecutor C API.
and PluggableDevice interface.- Add custom ops and kernels through kernel and op registration C API.
- Register custom graph optimization passes with graph optimization C API.
- Third-party devices can now connect to TensorFlow as plug-ins through StreamExecutor C API.
- oneAPI Deep Neural Network Library (oneDNN) CPU performance optimizations from Intel-optimized TensorFlow are now available in the official x86-64 Linux and Windows builds.
- They are off by default. Enable them by setting the environment variable
TF_ENABLE_ONEDNN_OPTS=1
. - We do not recommend using them in GPU systems, as they have not been sufficiently tested with GPUs yet.
- They are off by default. Enable them by setting the environment variable
- TensorFlow pip packages are now built with CUDA11.2 and cuDNN 8.1.0
Breaking Changes
- The
TF_CPP_MIN_VLOG_LEVEL
environment variable has been renamed to toTF_CPP_MAX_VLOG_LEVEL
which correctly describes its effect.
Bug Fixes and Other Changes
-
tf.keras
:- Preprocessing layers API consistency changes:
StringLookup
addedoutput_mode
,sparse
, andpad_to_max_tokens
arguments with same semantics asTextVectorization
.IntegerLookup
addedoutput_mode
,sparse
, andpad_to_max_tokens
arguments with same semantics asTextVectorization
. Renamedmax_values
,oov_value
andmask_value
tomax_tokens
,oov_token
andmask_token
to align withStringLookup
andTextVectorization
.TextVectorization
default forpad_to_max_tokens
switched to False.CategoryEncoding
no longer supportsadapt
,IntegerLookup
now supports equivalent functionality.max_tokens
argument renamed tonum_tokens
.Discretization
addednum_bins
argument for learning bins boundaries through callingadapt
on a dataset. Renamedbins
argument tobin_boundaries
for specifying bins withoutadapt
.
- Improvements to model saving/loading:
model.load_weights
now accepts paths to saved models.
- Keras inputs can now be created directly from arbitrary
tf.TypeSpecs
. - Two new learning rate schedules added:
tf.keras.optimizers.schedules.CosineDecay
andtf.keras.optimizers.schedules.CosineDecayRestarts
.
- Preprocessing layers API consistency changes:
-
tf.data
:- Exposing
tf.data.experimental.ExternalStatePolicy
, which can be used to control how external state should be handled during dataset serialization or iterator checkpointing. - Changing
tf.data.experimental.save
to store the type specification of the dataset elements. This avoids the need for explicitly specifying theelement_spec
argument oftf.data.experimental.load
when loading the previously saved dataset. - Add
.element_spec
property totf.data.DatasetSpec
to access the inner spec. This can be used to extract the structure of nested
datasets. - Add
tf.data.experimental.AutoShardingPolicy.HINT
which can be used to provide hints to tf.distribute-based auto-sharding as to where in the input pipeline to insert sharding transformations. - Make tf.data.Options persistent across
tf.function
andGraphDef
boundaries.
- Exposing
-
XLA compilation:
tf.function(experimental_compile=True)
has become a stable API, renamedtf.function(jit_compile=True)
.- XLA can now compile MirroredStrategy: the step function passed to
strategy.run
can now be annoted withjit_compile=True
.
-
tf.distribute
:- Rename
experimental_prefetch_to_device
intf.distribute.InputOptions
toexperimental_fetch_to_device
to better reflect the purpose.
- Rename
-
tf.lite
:- class
tflite::Subgraph
:- Removed the
tensors()
method and the non-const overload of thenodes_and_registration()
method, both of which were previously documented as temporary and to be removed.- Uses of
tensors()
can be replaced by calling the existing methodstensors_size()
andtensor(int)
. - Uses of the non-const overload of
nodes_and_registration
can be replaced by calling the existing methodsnodes_size()
andcontext()
, and then calling theGetNodeAndRegistration
method in theTfLiteContext
returned bycontext()
.
- Uses of
- Removed the
- NNAPI
- Removed deprecated
Interpreter::UseNNAPI(bool)
C++ API.- Use
NnApiDelegate()
and related delegate configuration methods directly.
- Use
- Replaced the model cache key for models computation algorithm with one guaranteed to be stable across runs.
- Removed deprecated
- 16 bits quantization
- Added int16x8 support for ABS, REDUCE_MAX and REDUCE_MIN operators.
- Additional tests and fixes for ADD and SUB operators.
- Added support for saved model's session initializer through
TFLiteConverter.from_saved_model
. - Added DEPTH_TO_SPACE support in Post training quantization.
- Added dynamic range quantization support for the BatchMatMul op.
- Both symmetric and asymmetric quantized input tensor are supported.
- Add
RFFT2D
as builtin op. (RFFT2D
also supportsRFFTD
.) Currently only supports float32 input. - Add 5D support to
SLICE
op. - TFLite Supports SingatureDef:
- TFLiteConverter exports models with SignatureDef
- Interpreter supports getting a list of signatures and getting callable function for a given signaturedef.
- Add int8 support for
ReshapeV2
. - Add experimental support for optimization with sparsity.
- Add nominal support for unsigned 32-bit integer tensor types. Note that very few TFLite kernels support this type natively, so its use in mobile ML authoring is generally discouraged.
- Add support for static hash tables through
TFLiteConverter.from_saved_model
. - The Python TF Lite Interpreter bindings now has an option
experimental_preserve_all_tensors
to aid in debugging conversion. - Quantized x86 execution defaults to Ruy GEMM library for platforms with AVX support.
- Deprecate
tf.compat.v1.lite.experimental.get_potentially_supported_ops
. Usetf.lite.TFLiteConverter
directly to check whether a model is convertible. - Add support to select one of three different built-in op resolvers
- Enabled post training with calibrations for models that require user provided TensorFlow Lite custom op libraries via
converter.target_spec._experimental_custom_op_registerers
. used in Python Interpreter API.
- class
-
TF Core:
- Corrected higher-order gradients of control flow constructs (
tf.cond
,tf.while_loop
, and compositions liketf.foldl
) computed withtf.GradientTape
inside atf.function
. - Changed the default step size in
gradient_checker_v2.compute_gradients
to be exactly representable as a binary floating point numbers. This avoids poluting gradient approximations needlessly, which is some cases leads to false negatives in op gradient tests. - Added
tf.config.experimental.get_memory_info
, returning a dict with the current and peak memory usage. Deprecatedtf.config.experimental.get_memory_usage
in favor of this new function. - Extended
tf.config.experimental.enable_tensor_float_32_execution
to control Tensor-Float-32 evaluation in RNNs. - Added a 'experimental_payloads' field to tf.errors.OpError and its subclasses to support more detailed error reporting. This is inspired from Abseil Status payloads: https://github.com/abseil/abseil-cpp/blob/master/absl/status/status.h
- Corrected higher-order gradients of control flow constructs (
-
tf.summary
:- New
tf.summary.graph
allows manual write of TensorFlow graph (tf.Graph
ortf.compat.v1.GraphDef
) as a summary. This is not a replacement for the trace-based API.
- New
-
Set
/d2ReducedOptimizeHugeFunctions
by default for Windows builds. This provides a big compile-time speedup, and effectively raises the minimum supported MSVC version to 16.4 (current: 16.8). -
TensorRT
- Removed the deprecated
session_config
parameter for the TF1-TRT converterTrtGraphConverter
. Previously, we issued a warning when the value of the parameter is not None. - The TF2-TRT converter
TrtGraphConverterV2
takes an object of class TrtConversionParams as a parameter. Removed three deprecated fields from this class:rewriter_config_template
,is_dynamic_op
, andmax_batch_size
. Previously, we issued a warning when the value ofrewriter_config_template
is not None. We issued an error when the value ofis_dynamic_op
is not True. We didn't use the value formax_batch_size
for building TensorRT engines. Add parametersuse_dynamic_shape
to enable dynamic shape support. The default is to disable dynamic shape support. Adddynamic_shape_profile_strategy
for selecting a dynamic shape profile strategy. The default is profile strategy isRange
. - Issue a warning when function get_tensorrt_rewriter_config is used.
- Removed the deprecated
-
TF XLA
- Add new enum value
MLIR_BRIDGE_ROLLOUT_SAFE_MODE_ENABLED
totf.config.experimental.mlir_bridge_rollout
to enable a "safe" mode. This runs the MLIR bridge only when an analysis of the graph only when an analysis of the graph determines that it is safe to run. - Add new enum value
MLIR_BRIDGE_ROLLOUT_SAFE_MODE_FALLBACK_ENABLED' to
tf.config.experimental.mlir_bridge_rollout` to enable a fallback for the MLIR bridge in a "safe" mode. This runs the MLIR bridge in a FallbackEnabled mode when an analysis of the graph determines that the graph does not have unsupported features.
- Add new enum value
-
Deterministic Op Functionality:
- Add determinism-unimplemented exception-throwing to the segment-sum ops. When the environment variable
TF_DETERMINISTIC_OPS
is set to"true"
or"1"
(when op-determinism is expected), an attempt to run the following ops on a GPU will throwtf.errors.UnimplementedError
(with an understandable message) whendata
is a floating-point type, including complex types (if supported):tf.math.segment_prod
,tf.math.segment_sum
,tf.math.unsorted_segment_mean
,tf.math.unsorted_segment_sqrt_n
,tf.math.unsorted_segment_prod
,tf.math.unsorted_segment_sum
, and therefore alsotf.convert_to_tensor
whenvalue
is of typetf.IndexedSlices
(such as in the back prop thoughtf.gather
into a dense embedding). See issue 39751 which this change addresses, but does not solve. This exception-throwing behavior can be disabled by setting the environment variableTF_DISABLE_SEGMENT_REDUCTION_OP_DETERMINISM_EXCEPTIONS
to"true"
or
"1"
. For more information about these changes, see the description in pull request 47772. - In previous versions of TensorFlow, when a GPU was available,
tf.sparse.sparse_dense_matmul
introduced truly random noise in the forward path for data of typetf.float32
but not for data of typetf.float64
(for which there was no GPU implementation). In this current release, GPU support for other floating-point types (tf.float16
,tf.float64
,tf.complex64
, andtf.complex128
) has been added for this op. If you were relying on the determinism of thetf.float64
CPU implementation being automatically selected because of the absence of thetf.float64
GPU implementation, you with either need to force the op to run on the CPU or use a different data type.
- Add determinism-unimplemented exception-throwing to the segment-sum ops. When the environment variable
-
Security
- Fixes a heap buffer overflow in
RaggedBinCount
(CVE-2021-29512) - Fixes a heap out of bounds write in
RaggedBinCount
(CVE-2021-29514) - Fixes a type confusion during tensor casts which leads to dereferencing null pointers (CVE-2021-29513)
- Fixes a reference binding to null pointer in
MatrixDiag*
ops (CVE-2021-29515) - Fixes a null pointer dereference via invalid Ragged Tensors (CVE-2021-29516)
- Fixes a division by zero in
Conv3D
(CVE-2021-29517) - Fixes vulnerabilities where session operations in eager mode lead to null pointer dereferences (CVE-2021-29518)
- Fixes a
CHECK
-fail inSparseCross
caused by type confusion (CVE-2021-29519) - Fixes a segfault in
SparseCountSparseOutput
(CVE-2021-29521) - Fixes a heap buffer overflow in
Conv3DBackprop*
(CVE-2021-29520) - Fixes a division by 0 in
Conv3DBackprop*
(CVE-2021-29522) - Fixes a
CHECK
-fail inAddManySparseToTensorsMap
(CVE-2021-29523) - Fixes a division by 0 in
Conv2DBackpropFilter
(CVE-2021-29524) - Fixes a division by 0 in
Conv2DBackpropInput
(CVE-2021-29525) - Fixes a division by 0 in
Conv2D
(CVE-2021-29526) - Fixes a division by 0 in
QuantizedConv2D
(CVE-2021-29527) - Fixes a division by 0 in
QuantizedMul
(CVE-2021-29528) - Fixes vulnerabilities caused by invalid validation in
SparseMatrixSparseCholesky
(CVE-2021-29530) - Fixes a heap buffer overflow caused by rounding (CVE-2021-29529)
- Fixes a
CHECK
-fail intf.raw_ops.EncodePng
(CVE-2021-29531) - Fixes a heap out of bounds read in
RaggedCross
(CVE-2021-29532) - Fixes a
CHECK
-fail inDrawBoundingBoxes
(CVE-2021-29533) - Fixes a heap buffer overflow in
QuantizedMul
(CVE-2021-29535) - Fixes a
CHECK
-fail inSparseConcat
(CVE-2021-29534) - Fixes a heap buffer overflow in
QuantizedResizeBilinear
(CVE-2021-29537) - Fixes a heap buffer overflow in
QuantizedReshape
(CVE-2021-29536) - Fixes a division by zero in
Conv2DBackpropFilter
(CVE-2021-29538) - Fixes a heap buffer overflow in
Conv2DBackpropFilter
(CVE-2021-29540) - Fixes a heap buffer overflow in
StringNGrams
(CVE-2021-29542) - Fixes a null pointer dereference in
StringNGrams
(CVE-2021-29541) - Fixes a
CHECK
-fail inQuantizeAndDequantizeV4Grad
(CVE-2021-29544) - Fixes a
CHECK
-fail inCTCGreedyDecoder
(CVE-2021-29543) - Fixes a heap buffer overflow in
SparseTensorToCSRSparseMatrix
(CVE-2021-29545) - Fixes a division by 0 in
QuantizedBiasAdd
(CVE-2021-29546) - Fixes a heap out of bounds in
QuantizedBatchNormWithGlobalNormalization
(CVE-2021-29547) - Fixes a division by 0 in
QuantizedBatchNormWithGlobalNormalization
(CVE-2021-29548) - Fixes a division by 0 in
QuantizedAdd
(CVE-2021-29549) - Fixes a division by 0 in
FractionalAvgPool
(CVE-2021-29550) - Fixes an OOB read in
MatrixTriangularSolve
(CVE-2021-29551) - Fixes a heap OOB in
QuantizeAndDequantizeV3
(CVE-2021-29553) - Fixes a
CHECK
-failure inUnsortedSegmentJoin
(CVE-2021-29552) - Fixes a division by 0 in
DenseCountSparseOutput
(CVE-2021-29554) - Fixes a division by 0 in
FusedBatchNorm
(CVE-2021-29555) - Fixes a division by 0 in
SparseMatMul
(CVE-2021-29557) - Fixes a division by 0 in
Reverse
(CVE-2021-29556) - Fixes a heap buffer overflow in
SparseSplit
(CVE-2021-29558) - Fixes a heap OOB access in unicode ops (CVE-2021-29559)
- Fixes a heap buffer overflow in
RaggedTensorToTensor
(CVE-2021-29560) - Fixes a
CHECK
-fail inLoadAndRemapMatrix
(CVE-2021-29561) - Fixes a
CHECK
-fail intf.raw_ops.IRFFT
(CVE-2021-29562) - Fixes a
CHECK
-fail intf.raw_ops.RFFT
(CVE-2021-29563) - Fixes a null pointer dereference in
EditDistance
(CVE-2021-29564) - Fixes a null pointer dereference in
SparseFillEmptyRows
(CVE-2021-29565) - Fixes a heap OOB access in
Dilation2DBackpropInput
(CVE-2021-29566) - Fixes a reference binding to null in
ParameterizedTruncatedNormal
(CVE-2021-29568) - Fixes a set of vulnerabilities caused by lack of validation in
SparseDenseCwiseMul
(CVE-2021-29567) - Fixes a heap out of bounds read in
MaxPoolGradWithArgmax
(CVE-2021-29570) - Fixes a heap out of bounds read in
RequantizationRange
(CVE-2021-29569) - Fixes a memory corruption in
DrawBoundingBoxesV2
(CVE-2021-29571) - Fixes a reference binding to nullptr in
SdcaOptimizer
(CVE-2021-29572) - Fixes an overflow and a denial of service in
tf.raw_ops.ReverseSequence
(CVE-2021-29575) - Fixes a division by 0 in
MaxPoolGradWithArgmax
(CVE-2021-29573) - Fixes an undefined behavior in
MaxPool3DGradGrad
(CVE-2021-29574) - Fixes a heap buffer overflow in
MaxPool3DGradGrad
(CVE-2021-29576) - Fixes a heap buffer overflow in
AvgPool3DGrad
(CVE-2021-29577) - Fixes an undefined behavior and a
CHECK
-fail inFractionalMaxPoolGrad
(CVE-2021-29580) - Fixes a heap buffer overflow in
FractionalAvgPoolGrad
(CVE-2021-29578) - Fixes a heap buffer overflow in
MaxPoolGrad
(CVE-2021-29579) - Fixes a segfault in
CTCBeamSearchDecoder
(CVE-2021-29581) - Fixes a heap OOB read in
tf.raw_ops.Dequantize
(CVE-2021-29582) - Fixes a
CHECK
-fail due to integer overflow (CVE-2021-29584) - Fixes a heap buffer overflow and undefined behavior in
FusedBatchNorm
(CVE-2021-29583) - Fixes a division by zero in padding computation in TFLite (CVE-2021-29585)
- Fixes a division by zero in optimized pooling implementations in TFLite (CVE-2021-29586)
- Fixes a division by zero in TFLite's implementation of
SpaceToDepth
(CVE-2021-29587) - Fixes a division by zero in TFLite's implementation of
GatherNd
(CVE-2021-29589) - Fixes a division by zero in TFLite's implementation of
TransposeConv
(CVE-2021-29588) - Fixes a heap OOB read in TFLite's implementation of
Minimum
orMaximum
(CVE-2021-29590) - Fixes a null pointer dereference in TFLite's
Reshape
operator (CVE-2021-29592) - Fixes a stack overflow due to looping TFLite subgraph (CVE-2021-29591)
- Fixes a division by zero in TFLite's implementation of
DepthToSpace
(CVE-2021-29595) - Fixes a division by zero in TFLite's convolution code (CVE-2021-29594)
- Fixes a division by zero in TFLite's implementation of
EmbeddingLookup
(CVE-2021-29596) - Fixes a division by zero in TFLite's implementation of
BatchToSpaceNd
(CVE-2021-29593) - Fixes a division by zero in TFLite's implementation of
SpaceToBatchNd
(CVE-2021-29597) - Fixes a division by zero in TFLite's implementation of
SVDF
(CVE-2021-29598) - Fixes a division by zero in TFLite's implementation of
Split
(CVE-2021-29599) - Fixes a division by zero in TFLite's implementation of
OneHot
(CVE-2021-29600) - Fixes a division by zero in TFLite's implementation of
DepthwiseConv
(CVE-2021-29602) - Fixes a division by zero in TFLite's implementation of hashtable lookup (CVE-2021-29604)
- Fixes a integer overflow in TFLite concatentation (CVE-2021-29601)
- Fixes a integer overflow in TFLite memory allocation (CVE-2021-29605)
- Fixes a heap OOB write in TFLite (CVE-2021-29603)
- Fixes a heap OOB read in TFLite (CVE-2021-29606)
- Fixes a heap OOB and null pointer dereference in
RaggedTensorToTensor
(CVE-2021-29608) - Fixes vulnerabilities caused by incomplete validation in
SparseAdd
(CVE-2021-29609) - Fixes vulnerabilities caused by incomplete validation in
SparseSparseMinimum
(CVE-2021-29607) - Fixes vulnerabilities caused by incomplete validation in
SparseReshape
(CVE-2021-29611) - Fixes vulnerabilities caused by invalid validation in
QuantizeAndDequantizeV2
(CVE-2021-29610) - Fixes a heap buffer overflow in
BandedTriangularSolve
(CVE-2021-29612) - Fixes vulnerabilities caused by incomplete validation in
tf.raw_ops.CTCLoss
(CVE-2021-29613) - Fixes an interpreter crash from vulnerabilities in
tf.io.decode_raw
(CVE-2021-29614) - Fixes a stack overflow in
ParseAttrValue
with nested tensors (CVE-2021-29615) - Fixes a null dereference in Grappler's
TrySimplify
(CVE-2021-29616) - Fixes a crash in
tf.transpose
with complex inputs (CVE-2021-29618) - Fixes a crash in
tf.strings.substr
due toCHECK
-fail (CVE-2021-29617) - Fixes a segfault in
tf.raw_ops.SparseCountSparseOutput
(CVE-2021-29619) - Fixes a segfault in
tf.raw_ops.ImmutableConst
(CVE-2021-29539) - Updates
curl
to7.76.0
to handle CVE-2020-8169, CVE-2020-8177, CVE-2020-8231, CVE-2020-8284, CVE-2020-8285 and CVE-2020-8286.
- Fixes a heap buffer overflow in
-
Other
- Added
show_debug_info
tomlir.convert_graph_def
andmlir.convert_function
. - Added Arm Compute Library (ACL) support to
--config=mkl_aarch64
build.
- Added
Thanks to our Contributors
This release contains contributions from many people at Google, as well as:
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