190 Commits

Author SHA1 Message Date
Mehdi Amini
fb1de7ed92 Implement a new kind of Pass: dynamic pass pipeline
Instead of performing a transformation, such pass yields a new pass pipeline
to run on the currently visited operation.
This feature can be used for example to implement a sub-pipeline that
would run only on an operation with specific attributes. Another example
would be to compute a cost model and dynamic schedule a pipeline based
on the result of this analysis.

Discussion: https://llvm.discourse.group/t/rfc-dynamic-pass-pipeline/1637

Recommit after fixing an ASAN issue: the callback lambda needs to be
allocated to a temporary to have its lifetime extended to the end of the
current block instead of just the current call expression.

Reviewed By: silvas

Differential Revision: https://reviews.llvm.org/D86392
2020-09-22 18:51:54 +00:00
Thomas Joerg
0356a413a4 Revert "Implement a new kind of Pass: dynamic pass pipeline"
This reverts commit 385c3f43fceba227be2e4dce84a59075733541c1.

Test  mlir/test/Pass:dynamic-pipeline-fail-on-parent.mlir.test fails
when run with ASAN:

ERROR: AddressSanitizer: stack-use-after-scope on address ...

Reviewed By: bkramer, pifon2a

Differential Revision: https://reviews.llvm.org/D88079
2020-09-22 12:00:30 +02:00
Nicolas Vasilache
ed229132f1 [mlir][Linalg] Uniformize linalg.generic with named ops.
This revision allows representing a reduction at the level of linalg on tensors for generic ops by uniformizing with the named ops approach.
2020-09-22 04:13:22 -04:00
Mehdi Amini
385c3f43fc Implement a new kind of Pass: dynamic pass pipeline
Instead of performing a transformation, such pass yields a new pass pipeline
to run on the currently visited operation.
This feature can be used for example to implement a sub-pipeline that
would run only on an operation with specific attributes. Another example
would be to compute a cost model and dynamic schedule a pipeline based
on the result of this analysis.

Discussion: https://llvm.discourse.group/t/rfc-dynamic-pass-pipeline/1637

Reviewed By: silvas

Differential Revision: https://reviews.llvm.org/D86392
2020-09-22 01:24:25 +00:00
Navdeep Kumar
0602e8f77f [MLIR][Affine] Add parametric tile size support for affine.for tiling
Add support to tile affine.for ops with parametric sizes (i.e., SSA
values). Currently supports hyper-rectangular loop nests with constant
lower bounds only. Move methods

  - moveLoopBody(*)
  - getTileableBands(*)
  - checkTilingLegality(*)
  - tilePerfectlyNested(*)
  - constructTiledIndexSetHyperRect(*)

to allow reuse with constant tile size API. Add a test pass -test-affine
-parametric-tile to test parametric tiling.

Differential Revision: https://reviews.llvm.org/D87353
2020-09-17 23:39:14 +05:30
Jakub Lichman
347d59b16c [mlir][Linalg] Convolution tiling added to ConvOp vectorization pass
ConvOp vectorization supports now only convolutions of static shapes with dimensions
of size either 3(vectorized) or 1(not) as underlying vectors have to be of static
shape as well. In this commit we add support for convolutions of any size as well as
dynamic shapes by leveraging existing matmul infrastructure for tiling of both input
and kernel to sizes accepted by the previous version of ConvOp vectorization.
In the future this pass can be extended to take "tiling mask" as a user input which
will enable vectorization of user specified dimensions.

Differential Revision: https://reviews.llvm.org/D87676
2020-09-17 09:39:41 +00:00
Eugene Burmako
5638df1950 Introduce linalg.vecmat
This patch adds a new named structured op to accompany linalg.matmul and
linalg.matvec. We needed it for our codegen, so I figured it would be useful
to add it to Linalg.

Reviewed By: nicolasvasilache, mravishankar

Differential Revision: https://reviews.llvm.org/D87292
2020-09-10 18:48:14 +02:00
Lubomir Litchev
e2394245eb Add an option for unrolling loops up to a factor.
Currently, there is no option to allow for unrolling a loop up to a specific factor (specified by the user).
The code for doing that is there and there are benefits when unrolling is done  to smaller loops (smaller than the factor specified).

Reviewed By: bondhugula

Differential Revision: https://reviews.llvm.org/D87111
2020-09-08 09:23:38 -07:00
Ehsan Toosi
847299d3f0 [mlir] remove BufferAssignmentPlacer from BufferAssignmentOpConversionPattern
BufferPlacement has been removed, as allocations are no longer placed during the conversion.

Differential Revision: https://reviews.llvm.org/D87079
2020-09-08 13:04:22 +02:00
Jakub Lichman
67b37f571c [mlir] Conv ops vectorization pass
In this commit a new way of convolution ops lowering is introduced.
The conv op vectorization pass lowers linalg convolution ops
into vector contractions. This lowering is possible when conv op
is first tiled by 1 along specific dimensions which transforms
it into dot product between input and kernel subview memory buffers.
This pass converts such conv op into vector contraction and does
all necessary vector transfers that make it work.

Differential Revision: https://reviews.llvm.org/D86619
2020-09-08 08:47:42 +00:00
Ehsan Toosi
39cf83cc78 [mlir] Extend BufferAssignmentTypeConverter with result conversion callbacks
In this PR, the users of BufferPlacement can configure
BufferAssginmentTypeConverter. These new configurations would give the user more
freedom in the process of converting function signature, and return and call
operation conversions.

These are the new features:
    - Accepting callback functions for decomposing types (i.e. 1 to N type
    conversion such as unpacking tuple types).
    - Defining ResultConversionKind for specifying whether a function result
    with a certain type should be appended to the function arguments list or
    should be kept as function result. (Usage:
    converter.setResultConversionKind<MemRefType>(AppendToArgumentList))
    - Accepting callback functions for composing or decomposing values (i.e. N
    to 1 and 1 to N value conversion).

Differential Revision: https://reviews.llvm.org/D85133
2020-09-02 17:53:42 +02:00
Lei Zhang
1b88bbf5eb Revert "[mlir] Extend BufferAssignmentTypeConverter with result conversion callbacks"
This reverts commit 94f5d248772ba0f1f9c8b0746fe75a5d246c5540 because
of failing the following tests:

MLIR :: Dialect/Linalg/tensors-to-buffers.mlir
MLIR :: Transforms/buffer-placement-preparation-allowed-memref-results.mlir
MLIR :: Transforms/buffer-placement-preparation.mlir
2020-09-02 09:24:36 -04:00
Ehsan Toosi
94f5d24877 [mlir] Extend BufferAssignmentTypeConverter with result conversion callbacks
In this PR, the users of BufferPlacement can configure
BufferAssginmentTypeConverter. These new configurations would give the user more
freedom in the process of converting function signature, and return and call
operation conversions.

These are the new features:
    - Accepting callback functions for decomposing types (i.e. 1 to N type
    conversion such as unpacking tuple types).
    - Defining ResultConversionKind for specifying whether a function result
    with a certain type should be appended to the function arguments list or
    should be kept as function result. (Usage:
    converter.setResultConversionKind<MemRefType>(AppendToArgumentList))
    - Accepting callback functions for composing or decomposing values (i.e. N
    to 1 and 1 to N value conversion).

Differential Revision: https://reviews.llvm.org/D85133
2020-09-02 13:26:55 +02:00
Kazuaki Ishizaki
a23d055912 [mlir] NFC: fix trivial typo under test and tools
Reviewed By: rriddle

Differential Revision: https://reviews.llvm.org/D86648
2020-08-27 15:37:42 +09:00
Mehdi Amini
610706906a Add an assertion to protect against missing Dialect registration in a pass pipeline (NFC)
Reviewed By: rriddle

Differential Revision: https://reviews.llvm.org/D86327
2020-08-24 06:49:29 +00:00
Mehdi Amini
f9dc2b7079 Separate the Registration from Loading dialects in the Context
This changes the behavior of constructing MLIRContext to no longer load globally
registered dialects on construction. Instead Dialects are only loaded explicitly
on demand:
- the Parser is lazily loading Dialects in the context as it encounters them
during parsing. This is the only purpose for registering dialects and not load
them in the context.
- Passes are expected to declare the dialects they will create entity from
(Operations, Attributes, or Types), and the PassManager is loading Dialects into
the Context when starting a pipeline.

This changes simplifies the configuration of the registration: a compiler only
need to load the dialect for the IR it will emit, and the optimizer is
self-contained and load the required Dialects. For example in the Toy tutorial,
the compiler only needs to load the Toy dialect in the Context, all the others
(linalg, affine, std, LLVM, ...) are automatically loaded depending on the
optimization pipeline enabled.

To adjust to this change, stop using the existing dialect registration: the
global registry will be removed soon.

1) For passes, you need to override the method:

virtual void getDependentDialects(DialectRegistry &registry) const {}

and registery on the provided registry any dialect that this pass can produce.
Passes defined in TableGen can provide this list in the dependentDialects list
field.

2) For dialects, on construction you can register dependent dialects using the
provided MLIRContext: `context.getOrLoadDialect<DialectName>()`
This is useful if a dialect may canonicalize or have interfaces involving
another dialect.

3) For loading IR, dialect that can be in the input file must be explicitly
registered with the context. `MlirOptMain()` is taking an explicit registry for
this purpose. See how the standalone-opt.cpp example is setup:

  mlir::DialectRegistry registry;
  registry.insert<mlir::standalone::StandaloneDialect>();
  registry.insert<mlir::StandardOpsDialect>();

Only operations from these two dialects can be in the input file. To include all
of the dialects in MLIR Core, you can populate the registry this way:

  mlir::registerAllDialects(registry);

4) For `mlir-translate` callback, as well as frontend, Dialects can be loaded in
the context before emitting the IR: context.getOrLoadDialect<ToyDialect>()

Differential Revision: https://reviews.llvm.org/D85622
2020-08-19 01:19:03 +00:00
Mehdi Amini
e75bc5c791 Revert "Separate the Registration from Loading dialects in the Context"
This reverts commit d14cf45735b0d09d7d3caf0824779520dd20ef10.
The build is broken with GCC-5.
2020-08-19 01:19:03 +00:00
Mehdi Amini
d14cf45735 Separate the Registration from Loading dialects in the Context
This changes the behavior of constructing MLIRContext to no longer load globally
registered dialects on construction. Instead Dialects are only loaded explicitly
on demand:
- the Parser is lazily loading Dialects in the context as it encounters them
during parsing. This is the only purpose for registering dialects and not load
them in the context.
- Passes are expected to declare the dialects they will create entity from
(Operations, Attributes, or Types), and the PassManager is loading Dialects into
the Context when starting a pipeline.

This changes simplifies the configuration of the registration: a compiler only
need to load the dialect for the IR it will emit, and the optimizer is
self-contained and load the required Dialects. For example in the Toy tutorial,
the compiler only needs to load the Toy dialect in the Context, all the others
(linalg, affine, std, LLVM, ...) are automatically loaded depending on the
optimization pipeline enabled.

To adjust to this change, stop using the existing dialect registration: the
global registry will be removed soon.

1) For passes, you need to override the method:

virtual void getDependentDialects(DialectRegistry &registry) const {}

and registery on the provided registry any dialect that this pass can produce.
Passes defined in TableGen can provide this list in the dependentDialects list
field.

2) For dialects, on construction you can register dependent dialects using the
provided MLIRContext: `context.getOrLoadDialect<DialectName>()`
This is useful if a dialect may canonicalize or have interfaces involving
another dialect.

3) For loading IR, dialect that can be in the input file must be explicitly
registered with the context. `MlirOptMain()` is taking an explicit registry for
this purpose. See how the standalone-opt.cpp example is setup:

  mlir::DialectRegistry registry;
  registry.insert<mlir::standalone::StandaloneDialect>();
  registry.insert<mlir::StandardOpsDialect>();

Only operations from these two dialects can be in the input file. To include all
of the dialects in MLIR Core, you can populate the registry this way:

  mlir::registerAllDialects(registry);

4) For `mlir-translate` callback, as well as frontend, Dialects can be loaded in
the context before emitting the IR: context.getOrLoadDialect<ToyDialect>()

Differential Revision: https://reviews.llvm.org/D85622
2020-08-18 23:23:56 +00:00
Mehdi Amini
d84fe55e0d Revert "Separate the Registration from Loading dialects in the Context"
This reverts commit e1de2b75501e5eaf8777bd5248382a7c55a44fd6.
Broke a build bot.
2020-08-18 22:16:34 +00:00
Mehdi Amini
e1de2b7550 Separate the Registration from Loading dialects in the Context
This changes the behavior of constructing MLIRContext to no longer load globally
registered dialects on construction. Instead Dialects are only loaded explicitly
on demand:
- the Parser is lazily loading Dialects in the context as it encounters them
during parsing. This is the only purpose for registering dialects and not load
them in the context.
- Passes are expected to declare the dialects they will create entity from
(Operations, Attributes, or Types), and the PassManager is loading Dialects into
the Context when starting a pipeline.

This changes simplifies the configuration of the registration: a compiler only
need to load the dialect for the IR it will emit, and the optimizer is
self-contained and load the required Dialects. For example in the Toy tutorial,
the compiler only needs to load the Toy dialect in the Context, all the others
(linalg, affine, std, LLVM, ...) are automatically loaded depending on the
optimization pipeline enabled.

To adjust to this change, stop using the existing dialect registration: the
global registry will be removed soon.

1) For passes, you need to override the method:

virtual void getDependentDialects(DialectRegistry &registry) const {}

and registery on the provided registry any dialect that this pass can produce.
Passes defined in TableGen can provide this list in the dependentDialects list
field.

2) For dialects, on construction you can register dependent dialects using the
provided MLIRContext: `context.getOrLoadDialect<DialectName>()`
This is useful if a dialect may canonicalize or have interfaces involving
another dialect.

3) For loading IR, dialect that can be in the input file must be explicitly
registered with the context. `MlirOptMain()` is taking an explicit registry for
this purpose. See how the standalone-opt.cpp example is setup:

  mlir::DialectRegistry registry;
  mlir::registerDialect<mlir::standalone::StandaloneDialect>();
  mlir::registerDialect<mlir::StandardOpsDialect>();

Only operations from these two dialects can be in the input file. To include all
of the dialects in MLIR Core, you can populate the registry this way:

  mlir::registerAllDialects(registry);

4) For `mlir-translate` callback, as well as frontend, Dialects can be loaded in
the context before emitting the IR: context.getOrLoadDialect<ToyDialect>()
2020-08-18 21:14:39 +00:00
MaheshRavishankar
5ccac05d43 [mlir][Linalg] Modify callback for getting id/nprocs in
LinalgDistribution options to allow more general distributions.

Changing the signature of the callback to send in the ranges for all
the parallel loops and expect a vector with the Value to use for the
processor-id and number-of-processors for each of the parallel loops.

Differential Revision: https://reviews.llvm.org/D86095
2020-08-18 14:04:40 -07:00
Mehdi Amini
25ee851746 Revert "Separate the Registration from Loading dialects in the Context"
This reverts commit 20563933875a9396c8ace9c9770ecf6a988c4ea6.

Build is broken on a few bots
2020-08-15 09:21:47 +00:00
Mehdi Amini
2056393387 Separate the Registration from Loading dialects in the Context
This changes the behavior of constructing MLIRContext to no longer load globally registered dialects on construction. Instead Dialects are only loaded explicitly on demand:
- the Parser is lazily loading Dialects in the context as it encounters them during parsing. This is the only purpose for registering dialects and not load them in the context.
- Passes are expected to declare the dialects they will create entity from (Operations, Attributes, or Types), and the PassManager is loading Dialects into the Context when starting a pipeline.

This changes simplifies the configuration of the registration: a compiler only need to load the dialect for the IR it will emit, and the optimizer is self-contained and load the required Dialects. For example in the Toy tutorial, the compiler only needs to load the Toy dialect in the Context, all the others (linalg, affine, std, LLVM, ...) are automatically loaded depending on the optimization pipeline enabled.

Differential Revision: https://reviews.llvm.org/D85622
2020-08-15 08:07:31 +00:00
Mehdi Amini
ba92dadf05 Revert "Separate the Registration from Loading dialects in the Context"
This was landed by accident, will reland with the right comments
addressed from the reviews.
Also revert dependent build fixes.
2020-08-15 07:35:10 +00:00
Mehdi Amini
ebf521e784 Separate the Registration from Loading dialects in the Context
This changes the behavior of constructing MLIRContext to no longer load globally registered dialects on construction. Instead Dialects are only loaded explicitly on demand:
- the Parser is lazily loading Dialects in the context as it encounters them during parsing. This is the only purpose for registering dialects and not load them in the context.
- Passes are expected to declare the dialects they will create entity from (Operations, Attributes, or Types), and the PassManager is loading Dialects into the Context when starting a pipeline.

This changes simplifies the configuration of the registration: a compiler only need to load the dialect for the IR it will emit, and the optimizer is self-contained and load the required Dialects. For example in the Toy tutorial, the compiler only needs to load the Toy dialect in the Context, all the others (linalg, affine, std, LLVM, ...) are automatically loaded depending on the optimization pipeline enabled.
2020-08-14 09:40:27 +00:00
Alexander Belyaev
fed9ff5117 [mlir] Test CallOp STD->LLVM conversion.
This exercises the corner case that was fixed in
https://reviews.llvm.org/rG8979a9cdf226066196f1710903d13492e6929563.

The bug can be reproduced when there is a @callee with a custom type argument and @caller has a producer of this argument passed to the @callee.

Example:
func @callee(!test.test_type) -> i32
func @caller() -> i32 {
  %arg = "test.type_producer"() : () -> !test.test_type
  %out = call @callee(%arg) : (!test.test_type) -> i32
  return %out : i32
}

Even though there is a type conversion for !test.test_type, the output IR (before the fix) contained a DialectCastOp:

module {
  llvm.func @callee(!llvm.ptr<i8>) -> !llvm.i32
  llvm.func @caller() -> !llvm.i32 {
    %0 = llvm.mlir.null : !llvm.ptr<i8>
    %1 = llvm.mlir.cast %0 : !llvm.ptr<i8> to !test.test_type
    %2 = llvm.call @callee(%1) : (!test.test_type) -> !llvm.i32
    llvm.return %2 : !llvm.i32
  }
}

instead of

module {
  llvm.func @callee(!llvm.ptr<i8>) -> !llvm.i32
  llvm.func @caller() -> !llvm.i32 {
    %0 = llvm.mlir.null : !llvm.ptr<i8>
    %1 = llvm.call @callee(%0) : (!llvm.ptr<i8>) -> !llvm.i32
    llvm.return %1 : !llvm.i32
  }
}

Differential Revision: https://reviews.llvm.org/D85914
2020-08-13 19:10:21 +02:00
MaheshRavishankar
41d4120017 [mlir][Linalg] Allow distribution scf.parallel loops generated in
Linalg to processors.

This changes adds infrastructure to distribute the loops generated in
Linalg to processors at the time of generation. This addresses use
case where the instantiation of loop is done just to distribute
them. The option to distribute is added to TilingOptions for now and
will allow specifying the distribution as a transformation option,
just like tiling and promotion are specified as options.

Differential Revision: https://reviews.llvm.org/D85147
2020-08-10 14:52:17 -07:00
Nicolas Vasilache
2a01d7f7b6 [mlir][SCF] Add utility to outline the then and else branches of an scf.IfOp
Differential Revision: https://reviews.llvm.org/D85449
2020-08-07 14:49:49 -04:00
Nicolas Vasilache
3110e7b077 [mlir] Introduce AffineMinSCF folding as a pattern
This revision adds a folding pattern to replace affine.min ops by the actual min value, when it can be determined statically from the strides and bounds of enclosing scf loop .

This matches the type of expressions that Linalg produces during tiling and simplifies boundary checks. For now Linalg depends both on Affine and SCF but they do not depend on each other, so the pattern is added there.
In the future this will move to a more appropriate place when it is determined.

The canonicalization of AffineMinOp operations in the context of enclosing scf.for and scf.parallel proceeds by:
  1. building an affine map where uses of the induction variable of a loop
  are replaced by `%lb + %step * floordiv(%iv - %lb, %step)` expressions.
  2. checking if any of the results of this affine map divides all the other
  results (in which case it is also guaranteed to be the min).
  3. replacing the AffineMinOp by the result of (2).

The algorithm is functional in simple parametric tiling cases by using semi-affine maps. However simplifications of such semi-affine maps are not yet available and the canonicalization does not succeed yet.

Differential Revision: https://reviews.llvm.org/D82009
2020-08-07 14:30:38 -04:00
Nicolas Vasilache
1a4263d394 [mlir][Vector] Add linalg.copy-based pattern for splitting vector.transfer_read into full and partial copies.
This revision adds a transformation and a pattern that rewrites a "maybe masked" `vector.transfer_read %view[...], %pad `into a pattern resembling:

```
   %1:3 = scf.if (%inBounds) {
      scf.yield %view : memref<A...>, index, index
    } else {
      %2 = linalg.fill(%extra_alloc, %pad)
      %3 = subview %view [...][...][...]
      linalg.copy(%3, %alloc)
      memref_cast %extra_alloc: memref<B...> to memref<A...>
      scf.yield %4 : memref<A...>, index, index
   }
   %res= vector.transfer_read %1#0[%1#1, %1#2] {masked = [false ... false]}
```
where `extra_alloc` is a top of the function alloca'ed buffer of one vector.

This rewrite makes it possible to realize the "always full tile" abstraction where vector.transfer_read operations are guaranteed to read from a padded full buffer.
The extra work only occurs on the boundary tiles.
2020-08-04 08:46:08 -04:00
Nicolas Vasilache
d313e9c12e [mlir][Vector] Add transformation + pattern to split vector.transfer_read into full and partial copies.
This revision adds a transformation and a pattern that rewrites a "maybe masked" `vector.transfer_read %view[...], %pad `into a pattern resembling:

```
   %1:3 = scf.if (%inBounds) {
      scf.yield %view : memref<A...>, index, index
    } else {
      %2 = vector.transfer_read %view[...], %pad : memref<A...>, vector<...>
      %3 = vector.type_cast %extra_alloc : memref<...> to
      memref<vector<...>> store %2, %3[] : memref<vector<...>> %4 =
      memref_cast %extra_alloc: memref<B...> to memref<A...> scf.yield %4 :
      memref<A...>, index, index
   }
   %res= vector.transfer_read %1#0[%1#1, %1#2] {masked = [false ... false]}
```
where `extra_alloc` is a top of the function alloca'ed buffer of one vector.

This rewrite makes it possible to realize the "always full tile" abstraction where vector.transfer_read operations are guaranteed to read from a padded full buffer.
The extra work only occurs on the boundary tiles.

Differential Revision: https://reviews.llvm.org/D84631
2020-08-03 12:58:18 -04:00
Mehdi Amini
7ba82a7320 Revert "[mlir][Vector] Add transformation + pattern to split vector.transfer_read into full and partial copies."
This reverts commit 35b65be041127db9fe23d3128a004c888893cbae.

Build is broken with -DBUILD_SHARED_LIBS=ON with some undefined
references like:

VectorTransforms.cpp:(.text._ZN4llvm12function_refIFvllEE11callback_fnIZL24createScopedInBoundsCondN4mlir25VectorTransferOpInterfaceEE3$_8EEvlll+0xa5): undefined reference to `mlir::edsc::op::operator+(mlir::Value, mlir::Value)'
2020-08-03 16:16:47 +00:00
Nicolas Vasilache
35b65be041 [mlir][Vector] Add transformation + pattern to split vector.transfer_read into full and partial copies.
This revision adds a transformation and a pattern that rewrites a "maybe masked" `vector.transfer_read %view[...], %pad `into a pattern resembling:

```
   %1:3 = scf.if (%inBounds) {
      scf.yield %view : memref<A...>, index, index
    } else {
      %2 = vector.transfer_read %view[...], %pad : memref<A...>, vector<...>
      %3 = vector.type_cast %extra_alloc : memref<...> to
      memref<vector<...>> store %2, %3[] : memref<vector<...>> %4 =
      memref_cast %extra_alloc: memref<B...> to memref<A...> scf.yield %4 :
      memref<A...>, index, index
   }
   %res= vector.transfer_read %1#0[%1#1, %1#2] {masked = [false ... false]}
```
where `extra_alloc` is a top of the function alloca'ed buffer of one vector.

This rewrite makes it possible to realize the "always full tile" abstraction where vector.transfer_read operations are guaranteed to read from a padded full buffer.
The extra work only occurs on the boundary tiles.

Differential Revision: https://reviews.llvm.org/D84631
2020-08-03 04:53:43 -04:00
Nicolas Vasilache
64cdd5b3da [mlir][Vector] Drop declarative transforms
For the purpose of vector transforms, the Tablegen-based infra is subsumed by simple C++ pattern application. Deprecate declarative transforms whose complexity does not pay for itself.

Differential Revision: https://reviews.llvm.org/D84753
2020-07-28 13:11:16 -04:00
Thomas Raoux
a1b9fb220f [mlir][linalg] Add vectorization transform for CopyOp
CopyOp get vectorized to vector.transfer_read followed by vector.transfer_write

Differential Revision: https://reviews.llvm.org/D83739
2020-07-22 12:40:42 -07:00
Jakub Lichman
f9c8febc52 [mlir] Added support for symbols inside linalg.generic and map concatenation
This commit adds functionality needed for implementation of convolutions with
linalg.generic op. Since linalg.generic right now expects indexing maps to be
just permutations, offset indexing needed in convolutions is not possible.
Therefore in this commit we address the issue by adding support for symbols inside
indexing maps which enables more advanced indexing. The upcoming commit will
solve the problem of computing loop bounds from such maps.

Differential Revision: https://reviews.llvm.org/D83158
2020-07-20 19:20:47 +02:00
Pierre Oechsel
ec62e37c86 [mlir] [vector] Add an optional filter to vector contract lowering patterns.
Summary: Vector contract patterns were only parameterized by a `vectorTransformsOptions`. As a result, even if an mlir file was containing several occurrences of `vector.contract`, all of them would be lowered in the same way. More granularity might be required . This Diff adds a `constraint` argument to each of these patterns which allows the user to specify with more precision on which `vector.contract` should each of the lowering apply.

Differential Revision: https://reviews.llvm.org/D83960
2020-07-17 12:03:13 -04:00
aartbik
365434a584 [mlir] [VectorOps] Merge OUTER/AXPY vector.contract lowering into single case
We temporarily had separate OUTER lowering (for matmat flavors) and
AXPY lowering (for matvec flavors). With the new generalized
"vector.outerproduct" semantics, these cases can be merged into
a single lowering method. This refactoring will simplify future
decisions on cost models and lowering heuristics.

Reviewed By: nicolasvasilache

Differential Revision: https://reviews.llvm.org/D83585
2020-07-10 13:11:54 -07:00
Nicolas Vasilache
56c638b5c1 [mlir][Linalg] Generalize Vectorization of Linalg contractions
This revision adds support for vectorizing named and generic contraction ops to vector.contract. Cases in which the memref is 0-D are special cased to emit std.load/std.store instead of vector.transfer. Relevant tests are added.

Differential revision: https://reviews.llvm.org/D83307
2020-07-10 10:28:34 -04:00
Benjamin Kramer
b44470547e Make helpers static. NFC. 2020-07-09 13:48:56 +02:00
River Riddle
9db53a1827 [mlir][NFC] Remove usernames and google bug numbers from TODO comments.
These were largely leftover from when MLIR was a google project, and don't really follow LLVM guidelines.
2020-07-07 01:40:52 -07:00
Nicolas Vasilache
05c65dc0fe [mlir][Vector] Add a VectorUnrollInterface and expose UnrollVectorPattern.
The UnrollVectorPattern is can be used in a programmable fashion by:
```
OwningRewritePatternList patterns;
    patterns.insert<UnrollVectorPattern<AddFOp>>(ArrayRef<int64_t>{2, 2}, ctx);
    patterns.insert<UnrollVectorPattern<vector::ContractionOp>>(
        ArrayRef<int64_t>{2, 2, 2}, ctx);
    ...
    applyPatternsAndFoldGreedily(getFunction(), patterns);
```

Differential revision: https://reviews.llvm.org/D83064
2020-07-06 08:09:06 -04:00
aartbik
ee01c7a740 [mlir] [VectorOps] Add choice between dot and axpy lowering of vector.contract
Default vector.contract lowering essentially yields a series of sdot/ddot
operations. However, for some layouts a series of saxpy/daxpy operations,
chained through fma are more efficient. This CL introduces a choice between
the two lowering paths. A default heuristic is to follow.

Some preliminary avx2 performance numbers for matrix-times-vector.
Here, dot performs best for 64x64 A x b and saxpy for 64x64 A^T x b.

```
------------------------------------------------------------
            A x b                          A^T x b
------------------------------------------------------------
GFLOPS    sdot (reassoc)    saxpy    sdot (reassoc)    saxpy
------------------------------------------------------------
1x1        0.6               0.9       0.6             0.9
2x2        2.5               3.2       2.4             3.5
4x4        6.4               8.4       4.9             11.8
8x8       11.7               6.1       5.0             29.6
16x16     20.7              10.8       7.3             43.3
32x32     29.3               7.9       6.4             51.8
64x64     38.9                                         79.3
128x128   32.4                                         40.7
------------------------------------------------------------
```

Reviewed By: nicolasvasilache, ftynse

Differential Revision: https://reviews.llvm.org/D83012
2020-07-02 13:21:17 -07:00
Marius Brehler
0f43fce783 [mlir] Fix case in MLIRGPUtoGPURuntimeTransforms
Summary:
This changes the casing of MLIRGPUtoGPURuntimeTransforms to be consistent
with other transform libraries.

Differential Revision: https://reviews.llvm.org/D82841
2020-06-30 20:48:47 +02:00
Rahul Joshi
ee394e6842 [MLIR] Add variadic isa<> for Type, Value, and Attribute
- Also adopt variadic llvm::isa<> in more places.
- Fixes https://bugs.llvm.org/show_bug.cgi?id=46445

Differential Revision: https://reviews.llvm.org/D82769
2020-06-29 15:04:48 -07:00
River Riddle
8d67d187ba [mlir][DialectConversion] Refactor how block argument types get converted
This revision removes the TypeConverter parameter passed to the apply* methods, and instead moves the responsibility of region type conversion to patterns. The types of a region can be converted using the 'convertRegionTypes' method, which acts similarly to the existing 'applySignatureConversion'. This method ensures that all blocks within, and including those moved into, a region will have the block argument types converted using the provided converter.

This has the benefit of making more of the legalization logic controlled by patterns, instead of being handled explicitly by the driver. It also opens up the possibility to support multiple type conversions at some point in the future.

This revision also adds a new utility class `FailureOr<T>` that provides a LogicalResult friendly facility for returning a failure or a valid result value.

Differential Revision: https://reviews.llvm.org/D81681
2020-06-18 15:59:22 -07:00
Hanhan Wang
9cb10296ec [mlir] Add support for lowering tanh to LLVMIR.
Summary:
Fixed build of D81618

Add a pattern for expanding tanh op into exp form.
A `tanh` is expanded into:
   1) 1-exp^{-2x} / 1+exp^{-2x}, if x => 0
   2) exp^{2x}-1 / exp^{2x}+1  , if x < 0.

Differential Revision: https://reviews.llvm.org/D82040
2020-06-18 10:42:13 -07:00
River Riddle
552ef9fc09 [mlir][DialectConversion] Add overload of addDynamicallyLegalDialect to support lambdas
This allows for passing a lambda to addDynamicallyLegalDialect without needing to explicit wrap with Optional<DynamicLegalityCallbackFn>.

Differential Revision: https://reviews.llvm.org/D81680
2020-06-15 15:57:44 -07:00
River Riddle
0e360744f3 [mlir][DialectConversion] Cache type conversions and add a few useful helpers
It is quite common for the same type to be converted many types throughout the conversion process, and there isn't any good reason why we aren't caching that result. Especially given that we currently use identity conversion to signify legality. This revision also adds a few additional helpers to TypeConverter.

Differential Revision: https://reviews.llvm.org/D81679
2020-06-15 15:57:43 -07:00
Mehdi Amini
a9a21bb4b6 Revert "[mlir] Add support for lowering tanh to LLVMIR."
This reverts commit 32c757e4f808c68a7e34eb712fead0a49cdf814a.

Broke the build bot:

******************** TEST 'MLIR :: Examples/standalone/test.toy' FAILED ********************
[...]
/tmp/ci-KIMiRFcVZt/lib/libMLIRLinalgToLLVM.a(LinalgToLLVM.cpp.o): In function `(anonymous namespace)::ConvertLinalgToLLVMPass::runOnOperation()':
LinalgToLLVM.cpp:(.text._ZN12_GLOBAL__N_123ConvertLinalgToLLVMPass14runOnOperationEv+0x100): undefined reference to `mlir::populateExpandTanhPattern(mlir::OwningRewritePatternList&, mlir::MLIRContext*)'
2020-06-15 18:46:57 +00:00