Summary:
Add a document which describes:
- GEMM performance comparison.
- An experiment that measures the compile time impact
of enabling Polly when compiling LLVM+Clang+Polly.
Contributed-by: Theodoros Theodoridis<theodoros.theodoridis@inf.ethz.ch>
Differential Revision: https://reviews.llvm.org/D38330
llvm-svn: 314419
Use ReadTheDocs theme for Sphinx if available since it is well
maintained and used by readthedocs.org.
Differential Revision: https://reviews.llvm.org/D33387
llvm-svn: 303550
Summary:
- `include(AddSphinxTarget)` needs to occur before checking `SPHINX_FOUND`.
- `docs-polly-html` and `docs-polly-man` are now usable again.
- Perhaps we should build docs in the CI as well?
Differential Revision: https://reviews.llvm.org/D33386
llvm-svn: 303549
http://polly.llvm.org/example_manual_matmul.html which illustrates individual
passes of Polly, has been ported to reStructuredText and necessary changes have
been made to the configuration files used by SPHINX to include the new source as
a part of the documentation.
Contributed-by: Singapuram Sanjay Srivallabh <singapuram.sanjay@gmail.com>
Differential Revision: https://reviews.llvm.org/D25163
llvm-svn: 294735
Ensure the length of the header underline matches the length of the header.
This prevents SPHINX from erroring on this file and consequently not updating
the documentation.
Also, make this its own point not belonging to the 'increased applicability'
section.
llvm-svn: 264592
This allows code such as:
void multiple_types(char *Short, char *Float, char *Double) {
for (long i = 0; i < 100; i++) {
Short[i] = *(short *)&Short[2 * i];
Float[i] = *(float *)&Float[4 * i];
Double[i] = *(double *)&Double[8 * i];
}
}
To model such code we use as canonical element type of the modeled array the
smallest element type of all original array accesses, if type allocation sizes
are multiples of each other. Otherwise, we use a newly created iN type, where N
is the gcd of the allocation size of the types used in the accesses to this
array. Accesses with types larger as the canonical element type are modeled as
multiple accesses with the smaller type.
For example the second load access is modeled as:
{ Stmt_bb2[i0] -> MemRef_Float[o0] : 4i0 <= o0 <= 3 + 4i0 }
To support code-generating these memory accesses, we introduce a new method
getAccessAddressFunction that assigns each statement instance a single memory
location, the address we load from/store to. Currently we obtain this address by
taking the lexmin of the access function. We may consider keeping track of the
memory location more explicitly in the future.
We currently do _not_ handle multi-dimensional arrays and also keep the
restriction of not supporting accesses where the offset expression is not a
multiple of the access element type size. This patch adds tests that ensure
we correctly invalidate a scop in case these accesses are found. Both types of
accesses can be handled using the very same model, but are left to be added in
the future.
We also move the initialization of the scop-context into the constructor to
ensure it is already available when invalidating the scop.
Finally, we add this as a new item to the 2.9 release notes
Reviewers: jdoerfert, Meinersbur
Differential Revision: http://reviews.llvm.org/D16878
llvm-svn: 259784