[new docs] Performance Tips for Frontend Authors

As mentioned on llvm-dev, this is a new documentation page intended to collect tips for frontend authors on how to generate IR that LLVM is able to optimize well. These types of things come up repeated in review threads and it would be good to have a place to save them.

I added a small handful to start us off, but I mostly want to get the framework in place. Once the docs are here, we can add to them incrementally.  If you know of something appropriate for this page, please add it!

Differential Revision: http://reviews.llvm.org/D7890

llvm-svn: 230807
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Philip Reames 2015-02-27 23:14:50 +00:00
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=====================================
Performance Tips for Frontend Authors
=====================================
.. contents::
:local:
:depth: 2
Abstract
========
The intended audience of this document is developers of language frontends
targeting LLVM IR. This document is home to a collection of tips on how to
generate IR that optimizes well. As with any optimizer, LLVM has its strengths
and weaknesses. In some cases, surprisingly small changes in the source IR
can have a large effect on the generated code.
Avoid loads and stores of large aggregate type
================================================
LLVM currently does not optimize well loads and stores of large :ref:`aggregate
types <t_aggregate>` (i.e. structs and arrays). As an alternative, consider
loading individual fields from memory.
Aggregates that are smaller than the largest (performant) load or store
instruction supported by the targeted hardware are well supported. These can
be an effective way to represent collections of small packed fields.
Prefer zext over sext when legal
==================================
On some architectures (X86_64 is one), sign extension can involve an extra
instruction whereas zero extension can be folded into a load. LLVM will try to
replace a sext with a zext when it can be proven safe, but if you have
information in your source language about the range of a integer value, it can
be profitable to use a zext rather than a sext.
Alternatively, you can :ref:`specify the range of the value using metadata
<range-metadata>` and LLVM can do the sext to zext conversion for you.
Zext GEP indices to machine register width
============================================
Internally, LLVM often promotes the width of GEP indices to machine register
width. When it does so, it will default to using sign extension (sext)
operations for safety. If your source language provides information about
the range of the index, you may wish to manually extend indices to machine
register width using a zext instruction.
Adding to this document
=======================
If you run across a case that you feel deserves to be covered here, please send
a patch to `llvm-commits
<http://lists.cs.uiuc.edu/mailman/listinfo/llvm-commits>`_ for review.
If you have questions on these items, please direct them to `llvmdev
<http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev>`_. The more relevant
context you are able to give to your question, the more likely it is to be
answered.

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@ -3056,6 +3056,8 @@ number representing the maximum relative error, for example:
!0 = !{ float 2.5 } ; maximum acceptable inaccuracy is 2.5 ULPs !0 = !{ float 2.5 } ; maximum acceptable inaccuracy is 2.5 ULPs
.. _range-metadata:
'``range``' Metadata '``range``' Metadata
^^^^^^^^^^^^^^^^^^^^ ^^^^^^^^^^^^^^^^^^^^

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@ -83,6 +83,7 @@ representation.
Passes Passes
YamlIO YamlIO
GetElementPtr GetElementPtr
Frontend/PerformanceTips
MCJITDesignAndImplementation MCJITDesignAndImplementation
:doc:`GettingStarted` :doc:`GettingStarted`
@ -150,6 +151,11 @@ representation.
Answers to some very frequent questions about LLVM's most frequently Answers to some very frequent questions about LLVM's most frequently
misunderstood instruction. misunderstood instruction.
:doc:`Frontend/PerformanceTips`
A collection of tips for frontend authors on how to generate IR
which LLVM is able to effectively optimize.
Programming Documentation Programming Documentation
========================= =========================