This new option is set to `false` by default. It should be set only in Canonicalizer tests to detect faulty canonicalization patterns. I.e., patterns that prevent the canonicalizer from converging. The canonicalizer should always convergence on such small unit tests that we have in `canonicalize.mlir`.
Two faulty canonicalization patterns were detected and fixed with this change.
Differential Revision: https://reviews.llvm.org/D140873
When the bounds check attribute is true, the raw buffer load, store,
and atomic operations have well-defined behavior (returning 0 for
loads and ignoring stores) when the buffer access exceeds the bounds
of the memory being accessed.
Because of how LLVM currently implements these buffer operations (as
opaque intrinsics), the backend cannot optimize out this known
behavior and eliminate the memory operations. Therefore, use MLIR's
canonicalization system to eliminate these operations.
Reviewed By: nirvedhmeshram
Differential Revision: https://reviews.llvm.org/D138146
This diff causes the `tblgen`-erated print() function to skip printing a
`DefaultValuedAttr` attribute when the value is equal to the default.
This feature will reduce the amount of custom printing code that needs to be
written by users a relatively common scenario. As a motivating example, for the
fastmath flags in the LLVMIR dialect, we would prefer to print this:
```
%0 = llvm.fadd %arg0, %arg1 : f32
```
instead of this:
```
%0 = llvm.fadd %arg0, %arg1 {fastmathFlags = #llvm.fastmath<none>} : f32
```
This diff makes the handling of print functionality for default-valued attributes
standard.
This is an updated version of https://reviews.llvm.org/D135398, without the per-attribute bit to control printing.
Reviewed By: Mogball
Differential Revision: https://reviews.llvm.org/D135993
The amdgpu.mfma operator is a wrapper around the Matrix Fused Multiply
Add (MFMA) instructions on some AMD GPUs (the CDNA-based MI-* cards).
This interface allows for selecting the operation to be performed by
specifying the dimensions of the multiplication to be performed and
any additional attributes (such as whether to use reduced-precision
floating-point math) that are needed to select the relevant mfma
instruction and set its parameters.
Reviewed By: ThomasRaoux, nirvedhmeshram
Differential Revision: https://reviews.llvm.org/D132956
The lds_barrier op allows workgroups to wait at a barrier for
operations to/from their local data store (LDS) to complete without
incurring the performance penalties of a full memory fence.
Reviewed By: nirvedhmeshram
Differential Revision: https://reviews.llvm.org/D129522
Because the buffer descriptor structure (the V#) has no backwards-compatibility
guarentees, and since said guarantees have been violated in practice
(see https://github.com/llvm/llvm-project/issues/56323 ), and since
the `targetIsRDNA` attribute isn't something that higher-level clients can set
in general, make the lowering of the amdgpu dialect to rocdl take a --chipset
option.
Note that this option is a string because adding a parser for the Chipset
struct to llvm::cl wasn't working out.
Reviewed By: herhut
Differential Revision: https://reviews.llvm.org/D129228
By analogy with the NVGPU dialect, introduce an AMDGPU dialect for
AMD-specific intrinsic wrappers.
The dialect initially includes wrappers around the raw buffer intrinsics.
On AMD GPUs, a memref can be converted to a "buffer descriptor" that
allows more precise control of memory access, such as by allowing for
out of bounds loads/stores to be replaced by 0/ignored without adding
additional conditional logic, which is important for performance.
The repository currently contains a limited conversion from
transfer_read/transfer_write to Mubuf intrinsics, which are an older,
deprecated intrinsic for the same functionality.
The new amdgpu.raw_buffer_* ops allow these operations to be used
explicitly and for including metadata such as whether the target
chipset is an RDNA chip or not (which impacts the interpretation of
some bits in the buffer descriptor), while still maintaining an
MLIR-like interface.
(This change also exposes the floating-point atomic add intrinsic.)
Reviewed By: ThomasRaoux
Differential Revision: https://reviews.llvm.org/D122765
