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llvm-mirror/docs/Proposals/VectorPredication.rst
Simon Moll 5ea9129151 [Doc] Proposal for vector predication
Summary:
Proposal and roadmap towards vector predication in LLVM.
This patch documents that
a) It is recognized that current LLVM is ill-equipped for vector predication.
b) The community is working on a solution.
c) A concrete prototype exists in the VP extension (D57504).

Reviewers: rkruppe, rengolin, cameron.mcinally, SjoerdMeijer, andrew.w.kaylor, craig.topper, sdesmalen, k-ishizaka, lattner, fhahn

Reviewed By: andrew.w.kaylor

Subscribers: rogfer01, merge_guards_bot, simoncook, s.egerton, llvm-commits, efocht

Tags: #llvm

Differential Revision: https://reviews.llvm.org/D73889
2020-02-10 10:35:50 +01:00

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==========================
Vector Predication Roadmap
==========================
.. contents:: Table of Contents
:depth: 3
:local:
Motivation
==========
This proposal defines a roadmap towards native vector predication in LLVM,
specifically for vector instructions with a mask and/or an explicit vector
length. LLVM currently has no target-independent means to model predicated
vector instructions for modern SIMD ISAs such as AVX512, ARM SVE, the RISC-V V
extension and NEC SX-Aurora. Only some predicated vector operations, such as
masked loads and stores, are available through intrinsics [MaskedIR]_.
The Vector Predication (VP) extensions is a concrete RFC and prototype
implementation to achieve native vector predication in LLVM. The VP prototype
and all related discussions can be found in the VP patch on Phabricator
[VPRFC]_.
Roadmap
=======
1. IR-level VP intrinsics
-------------------------
- There is a consensus on the semantics/instruction set of VP.
- VP intrinsics and attributes are available on IR level.
- TTI has capability flags for VP (``supportsVP()``?,
``haveActiveVectorLength()``?).
Result: VP usable for IR-level vectorizers (LV, VPlan, RegionVectorizer),
potential integration in Clang with builtins.
2. CodeGen support
------------------
- VP intrinsics translate to first-class SDNodes
(eg ``llvm.vp.fdiv.* -> vp_fdiv``).
- VP legalization (legalize explicit vector length to mask (AVX512), legalize VP
SDNodes to pre-existing ones (SSE, NEON)).
Result: Backend development based on VP SDNodes.
3. Lift InstSimplify/InstCombine/DAGCombiner to VP
--------------------------------------------------
- Introduce PredicatedInstruction, PredicatedBinaryOperator, .. helper classes
that match standard vector IR and VP intrinsics.
- Add a matcher context to PatternMatch and context-aware IR Builder APIs.
- Incrementally lift DAGCombiner to work on VP SDNodes as well as on regular
vector instructions.
- Incrementally lift InstCombine/InstSimplify to operate on VP as well as
regular IR instructions.
Result: Optimization of VP intrinsics on par with standard vector instructions.
4. Deprecate llvm.masked.* / llvm.experimental.reduce.*
-------------------------------------------------------
- Modernize llvm.masked.* / llvm.experimental.reduce* by translating to VP.
- DCE transitional APIs.
Result: VP has superseded earlier vector intrinsics.
5. Predicated IR Instructions
-----------------------------
- Vector instructions have an optional mask and vector length parameter. These
lower to VP SDNodes (from Stage 2).
- Phase out VP intrinsics, only keeping those that are not equivalent to
vectorized scalar instructions (reduce, shuffles, ..)
- InstCombine/InstSimplify expect predication in regular Instructions (Stage (3)
has laid the groundwork).
Result: Native vector predication in IR.
References
==========
.. [MaskedIR] `llvm.masked.*` intrinsics,
https://llvm.org/docs/LangRef.html#masked-vector-load-and-store-intrinsics
.. [VPRFC] RFC: Prototype & Roadmap for vector predication in LLVM,
https://reviews.llvm.org/D57504