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246 lines
7.2 KiB
ReStructuredText
246 lines
7.2 KiB
ReStructuredText
==========================
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Auto-Vectorization in LLVM
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==========================
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LLVM has two vectorizers: The *Loop Vectorizer*, which operates on Loops,
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and the *Basic Block Vectorizer*, which optimizes straight-line code. These
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vectorizers focus on different optimization opportunities and use different
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techniques. The BB vectorizer merges multiple scalars that are found in the
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code into vectors while the Loop Vectorizer widens instructions in the
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original loop to operate on multiple consecutive loop iterations.
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The Loop Vectorizer
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===================
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Usage
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^^^^^^
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LLVM’s Loop Vectorizer is now available and will be useful for many people.
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It is not enabled by default, but can be enabled through clang using the
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command line flag:
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.. code-block:: console
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$ clang -fvectorize -O3 file.c
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If the ``-fvectorize`` flag is used then the loop vectorizer will be enabled
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when running with ``-O3``, ``-O2``. When ``-Os`` is used, the loop vectorizer
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will only vectorize loops that do not require a major increase in code size.
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We plan to enable the Loop Vectorizer by default as part of the LLVM 3.3 release.
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Features
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^^^^^^^^^
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The LLVM Loop Vectorizer has a number of features that allow it to vectorize
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complex loops.
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Loops with unknown trip count
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------------------------------
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The Loop Vectorizer supports loops with an unknown trip count.
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In the loop below, the iteration ``start`` and ``finish`` points are unknown,
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and the Loop Vectorizer has a mechanism to vectorize loops that do not start
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at zero. In this example, ‘n’ may not be a multiple of the vector width, and
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the vectorizer has to execute the last few iterations as scalar code. Keeping
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a scalar copy of the loop increases the code size.
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.. code-block:: c++
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void bar(float *A, float* B, float K, int start, int end) {
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for (int i = start; i < end; ++i)
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A[i] *= B[i] + K;
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}
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Runtime Checks of Pointers
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--------------------------
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In the example below, if the pointers A and B point to consecutive addresses,
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then it is illegal to vectorize the code because some elements of A will be
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written before they are read from array B.
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Some programmers use the 'restrict' keyword to notify the compiler that the
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pointers are disjointed, but in our example, the Loop Vectorizer has no way of
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knowing that the pointers A and B are unique. The Loop Vectorizer handles this
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loop by placing code that checks, at runtime, if the arrays A and B point to
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disjointed memory locations. If arrays A and B overlap, then the scalar version
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of the loop is executed.
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.. code-block:: c++
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void bar(float *A, float* B, float K, int n) {
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for (int i = 0; i < n; ++i)
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A[i] *= B[i] + K;
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}
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Reductions
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--------------------------
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In this example the ``sum`` variable is used by consecutive iterations of
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the loop. Normally, this would prevent vectorization, but the vectorizer can
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detect that ‘sum’ is a reduction variable. The variable ‘sum’ becomes a vector
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of integers, and at the end of the loop the elements of the array are added
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together to create the correct result. We support a number of different
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reduction operations, such as addition, multiplication, XOR, AND and OR.
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.. code-block:: c++
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int foo(int *A, int *B, int n) {
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unsigned sum = 0;
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for (int i = 0; i < n; ++i)
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sum += A[i] + 5;
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return sum;
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}
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Inductions
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--------------------------
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In this example the value of the induction variable ``i`` is saved into an
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array. The Loop Vectorizer knows to vectorize induction variables.
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.. code-block:: c++
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void bar(float *A, float* B, float K, int n) {
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for (int i = 0; i < n; ++i)
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A[i] = i;
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}
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If Conversion
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--------------------------
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The Loop Vectorizer is able to "flatten" the IF statement in the code and
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generate a single stream of instructions. The Loop Vectorizer supports any
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control flow in the innermost loop. The innermost loop may contain complex
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nesting of IFs, ELSEs and even GOTOs.
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.. code-block:: c++
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int foo(int *A, int *B, int n) {
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unsigned sum = 0;
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for (int i = 0; i < n; ++i)
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if (A[i] > B[i])
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sum += A[i] + 5;
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return sum;
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}
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Pointer Induction Variables
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---------------------------
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This example uses the "accumulate" function of the standard c++ library. This
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loop uses C++ iterators, which are pointers, and not integer indices.
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The Loop Vectorizer detects pointer induction variables and can vectorize
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this loop. This feature is important because many C++ programs use iterators.
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.. code-block:: c++
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int baz(int *A, int n) {
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return std::accumulate(A, A + n, 0);
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}
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Reverse Iterators
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--------------------------
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The Loop Vectorizer can vectorize loops that count backwards.
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.. code-block:: c++
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int foo(int *A, int *B, int n) {
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for (int i = n; i > 0; --i)
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A[i] +=1;
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}
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Scatter / Gather
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----------------
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The Loop Vectorizer can vectorize code that becomes scatter/gather
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memory accesses.
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.. code-block:: c++
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int foo(int *A, int *B, int n, int k) {
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for (int i = 0; i < n; ++i)
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A[i*7] += B[i*k];
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}
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Vectorization of Mixed Types
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--------------------------
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The Loop Vectorizer can vectorize programs with mixed types. The Vectorizer
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cost model can estimate the cost of the type conversion and decide if
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vectorization is profitable.
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.. code-block:: c++
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int foo(int *A, char *B, int n, int k) {
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for (int i = 0; i < n; ++i)
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A[i] += 4 * B[i];
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}
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Vectorization of function calls
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--------------------------
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The Loop Vectorize can vectorize intrinsic math functions.
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See the table below for a list of these functions.
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+-----+-----+---------+
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| pow | exp | exp2 |
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+-----+-----+---------+
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| sin | cos | sqrt |
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+-----+-----+---------+
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| log |log2 | log10 |
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+-----+-----+---------+
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|fabs |floor| ceil |
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+-----+-----+---------+
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|fma |trunc|nearbyint|
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+-----+-----+---------+
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Performance
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^^^^^^^^^^^
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This section shows the the execution time of Clang on a simple benchmark:
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`gcc-loops <http://llvm.org/viewvc/llvm-project/test-suite/trunk/SingleSource/UnitTests/Vectorizer/>`_.
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This benchmarks is a collection of loops from the GCC autovectorization
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`page <http://gcc.gnu.org/projects/tree-ssa/vectorization.html>`_ by Dorit Nuzman.
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The chart below compares GCC-4.7, ICC-13, and Clang-SVN at -O3, running on a Sandybridge.
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The Y-axis shows time in msec. Lower is better.
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.. image:: gcc-loops.png
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The Basic Block Vectorizer
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==========================
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Usage
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^^^^^^
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The Basic Block Vectorizer is not enabled by default, but it can be enabled
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through clang using the command line flag:
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.. code-block:: console
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$ clang -fslp-vectorize file.c
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Details
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^^^^^^^
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The goal of basic-block vectorization (a.k.a. superword-level parallelism) is
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to combine similar independent instructions within simple control-flow regions
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into vector instructions. Memory accesses, arithemetic operations, comparison
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operations and some math functions can all be vectorized using this technique
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(subject to the capabilities of the target architecture).
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For example, the following function performs very similar operations on its
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inputs (a1, b1) and (a2, b2). The basic-block vectorizer may combine these
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into vector operations.
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.. code-block:: c++
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int foo(int a1, int a2, int b1, int b2) {
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int r1 = a1*(a1 + b1)/b1 + 50*b1/a1;
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int r2 = a2*(a2 + b2)/b2 + 50*b2/a2;
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return r1 + r2;
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}
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