Newer
Older
Notable User Facing Changes
---------------------------
- Added support for Coarse-Grained buffer SVM on CUDA devices.
Notable User Facing Changes
---------------------------
- Dropped support for Clang/LLVM versions 6.0 to 9.0 (inclusive)
- Added support for program-scope variables in the CPU drivers
- Added support for generic address spaces in the CPU drivers
- Added basic support for cl_khr_subgroups for CPUs: A single
subgroup that always executes the whole X-dimension's WIs.
- Added initial (incomplete) support for
cl_intel_required_subgroup_size for CPUs
- AlmaIF's OpenASIP backend now supports a standalone mode.
It generates a standalone C program from a kernel launch, which
can then be compiled and executed with ttasim or RTL simulation.
- Added a user env POCL_BITCODE_FINALIZER that can be used to
call a custom script that manipulates the final bitcode before
passing it to the code generation.
- Pulled in alternative work-group function mode for non-SPMD from Open SYCL:
Continuation-based synchronization is slightly more general than POCL's
current kernel compiler, but allows for fewer hand-rolled optimizations.
CBS is expected to work for kernels that POCL's current kernel compiler
does not support. Currently, CBS can be manually enabled by setting
the environment variable `POCL_WORK_GROUP_METHOD=cbs`.
- New device driver, using the Level Zero API. It supports many features,
however there are still a few missing. For the full
documentation, see doc/sphinx/source/level0.rst.
- Support for cl_intel_unified_shared_memory (only with
- CPU devices now flush printf() output after each call instead of waiting
for the end of the kernel command. This makes it (again) useful for debugging
kernel segfaults.
- Added a new POCL_CPU_LOCAL_MEM_SIZE environment for overriding the
local memory size for the CPU devices.
- CUDA: Added Direct Peer-to-Peer buffer migrations for much better performance
scaling in multi-GPU scenarios
- CPU drivers gained partial support for cl_khr_fp16 when compiled with LLVM 16+.
The implementation relies on Clang, and may result in emulation if
- Linux/x86-64 only: SIGFPE handler has been changed to skip instructions
causing division-by-zero, only if it occured in one of the CPU driver
threads; so division-by-zero errors are no longer hidden in user threads.
- POCL_CUDA_VERIFY_MODULE env variable has been replaced by POCL_LLVM_VERIFY
- CUDA: compilation now defaults to `-ffp-contract=fast`, previously it was `-ffp-contract=on`.
- `-cl-fast-relaxed-math` now defaults to `-ffp-contract=fast`, previously it was `-ffp-contract=on`.
- CPU drivers: renamed 'basic' to 'cpu-minimal' and 'pthread' driver to 'cpu',
to reflect the hardware they're driving instead of implementation details.
- POCL_MAX_PTHREAD_COUNT renamed to POCL_CPU_MAX_CU_COUNT; the old env. variable is deprecated
but still works
- it's now possible to disable libhwloc support even when it's present, using -DENABLE_HWLOC=0
CMake option
- Fixed issues with SYCL via DPC++ on PoCL on ARM.
Notable Fixes
-------------
- Fix handling of clBuildProgram() -I directories given with quotes or
with leading/trailing white space.
- Fix long kernel names trying to create too long dir/filenames. This
affected programs with long kernel names generated by template
specialization.
- CPU driver: Made kernel debug info more robust especially
when building the device program from SPIR-V.
Known issues
------------
- With LLVM 16, when running CTS with the offline compilation mode (= via SPIR-V), Clang + SPIR-V translator
produces invalid SPIR-V for several tests. PoCL bugreport:
https://github.com/pocl/pocl/issues/1232
Related Khronos issues:
https://github.com/KhronosGroup/SPIRV-LLVM-Translator/issues/2008
https://github.com/KhronosGroup/SPIRV-LLVM-Translator/issues/2024
https://github.com/KhronosGroup/SPIRV-LLVM-Translator/issues/2025
Notable User Facing Changes
---------------------------
- Work-in-progress Vulkan-driver:
* implement clEnqRead/Copy/WriteRect + clEnqFillBuffer
* implement global offsets
* add support for external memory
* implement WG sizes larger than vulkan limits with global offsets
* fix module constants
* and other small fixes and improvements
- SPIR-V support: much improved support for both CPU driver and CUDA
* vectorized versions of kernel library functions now supported
* much improved support on ARM64 & x86-64 with recent LLVMs
* fixed some atomic builtin functions
* SPIR-V new subtests from OpenCL-CTS now pass (with sufficiently recent
* most of the CTS passes with offline-compile=spirv option
* specialization constants are supported via clSetProgramSpecializationConstant
- All device names used to control the platform setup via
POCL_DEVICES are now lower case (as documented in the user manual).
- Switch from __sync_*() to __atomic_*() (compiler builtins).
- Link with -latomic (compiler library) in case that is needed for using
64-bit atomic operations, e.g. on mipsel.
- Basic support for cl_khr_command_buffer. Command parameters are validated
at recording time and the command data is stored. When the command buffer
is enqueued to a device, the recorded commands are submitted to the device
as if their respective immediate clEnqueue* functions had been called just
then, but without the overhead from validating and computing the arguments.
- Command buffer support is only reported for CPU devices for now. All drivers
technically have the same capability but only CPU has been tested so far.
- Built-in kernel support for CPU, CUDA and Accel-devices
* The .cl files in the driver directories are compiled to built-in kernels.
* Experimental CUDNN support for Cuda-driver through built-in kernels.
- Major update to the custom device driver (Accel -> Now renamed to AlmaIF)
* Support more device types implementing AlmaIF
+ Memory-mapped accelerator (for SoC FPGAs)
+ Experimental XRT backend (for PCIe FPGAs)
+ Instruction-set simulator (TTASim)
+ Emulation device on host CPU
- TTASim-driver will be deprecated as soon as all of its functionality
can be achieved with the almaif-driver. Most of it has already been
ported to almaif/TTASimDevice.cc.
* This move allows controlling TTASIM simulator and FPGA device
(and in future, RTL simulator) with the same runtime driver,
which reduces code duplication.
Notable Bug Fixes
-----------------
- Fixed loss of precision with CUDA event timers due to limited resolution
of the epoch event timer
Notable User Facing Changes
---------------------------
- OpenCL 3.0 support:
* OpenCL 3.0 is enabled at platform level, all API calls
up to 3.0 are implemented
* The CPU device reports OpenCL 3.0 if LLVM is recent enough
(LLVM 14+), otherwise it reports OpenCL 1.2
* The Conformance Test Suite was updated to a version that supports
OpenCL 3.0; the CTS should also work with devices that report 1.2
* For the list of supported features & more details,
see doc/sphinx/source/conformance.rst
- Text tracing improved - a few new command types traced,
event dependencies are now also recorded
- There are now two scripts, which let the user parse & convert the
outputs of LTTNG and Text tracer into a JSON format, suitable
for loading into Chromium's trace visualizer (chrome://tracing)
- Support for generating specialized work-group functions and include them
in the PoCL kernel program binaries.
- Fixed poclbin for non-SPMD targets. The generic size WG function generation
was completely broken and the breakage was hidden by the WG specialization
recompilation, if online compiler was available.
- Fixed a race condidion in clBuildProgram
- Fixed uninitialized variables and other issues in tests
- Fixed the post-event-finish-cleanup process in the drivers,
this should improve reliability
- Few more fixes for Android
- Fixed loss of precision in CUDA event times due to type conversion
- lib/kernel/libclc has received a number of new math library function
implementations. These are useful for some drivers which can't
use SLEEF and want to avoid libm calls or simple expression
implementations.
- TCE driver significantly improved, it now uses argbuffer launcher,
handles multithreaded user programs properly, uses the new libclc
math library functions, and has fixed some filesystem race conditions.
Should be able to run the TCE testsuite in parallel without random errors.
- A new proxy driver that lets PoCL proxy to another OpenCL implementation.
if a user creates a cl_context with multiple devices including one via
the proxy driver, PoCL will automatically manage buffer memory within
the context.
- A new experimental Vulkan driver, using clspv and Vulkan API to run
OpenCL code on Vulkan-enabled devices. To learn about the limitations,
please read the documentation at doc/sphinx/source/vulkan.rst.
- Handling whitespace chars in build options (lib/CL/pocl_build.c)
- Migrated from the deprecated cl2.hpp to opencl.hpp
Notable User Facing Changes
---------------------------
- CMake: Inter-Procedural Optimization is enabled on code of runtime library
(libpocl.so is compiled with -flto on systems that support it).
- LTTng tracing improved - more command types are traced, and also
some synchronous API calls (like clCreateBuffer) are traced.
- poclcc, tests and examples can be disabled with CMake options
- Valgrind support improved by making Valgrind aware of pocl's
reference counting of cl_* objects
- kernels which are called by kernels are now force-inlined
- Support for NetBSD.
- Support for Unix systems without libdl.
- PoCL can now (optionally) respond to SIGUSR2 by printing
some live debug information.
Notable Bug Fixes
-----------------
- Fixed a potential crash on Unix systems without sysfs mounted.
- Fixed compilation errors when building on macOS.
- Fixed POCL_FAST_INIT macro; POCL_INIT_LOCK must be invoked with only one argument.
- Fix bin/poclcc to not depend on OpenCL 2.0 symbols
- Fixed miscompilation in kernel loops with multiple conditionals with barriers in them.
Other
-----
- Add cmake options PARALLEL_COMPILE_JOBS, PARALLEL_LINK_JOBS to
use ninja's seperate compile and link job pools.
- Improve memory architecture, buffer migration and allocation.
Buffers are now allocated on a device when first used
(previously each buffer was allocated on every device in context).
- the single global LLVMContext was replaced with
multiple LLVMContexts, one per OpenCL cl_context.
OpenCL code can now be compiled in parallel
when using separate cl_contexts. This feature
is disabled by default since it significantly slowed
down PyOpenCL. This should be resolved by separating
LLVM compilation in their own threads in the future.
- a new OpenCL extension was added to PoCL: cl_pocl_content_size.
The extension allows the user to give optimization hint to PoCL,
which will be used internally by PoCL to optimize buffer transfers
between multiple devices.
Notable User Facing Changes
---------------------------
- Support for LLVM 12.
- support for cross-compiling PoCL
- Added support for the cl_nv_device_attribute_query extension on CUDA devices.
- improved support for SPIR-V binaries when using CPU device:
- improved local variables support
- OpenCL 2.0 atomics are now supported
- work_group_barrier, to_local/to_global are implemented
- Implemented OpenCL 3.0 features
- clGetDeviceInfo queries
- CL_DEVICE_ATOMIC_MEMORY_CAPABILITIES (Minimal implementation)
- CL_DEVICE_ATOMIC_FENCE_CAPABILITIES (Minimal implementation)
Notable Bug Fixes
-----------------
- Added support for arm CUDA platforms without cuMemHostRegister
support.
Notable User Facing Changes
---------------------------
- CUDA kernels using constant __local blocks are now ABI incompatible with
previous release. Users need to delete their pocl cache.
- SINGLE_LLVM_LIB CMake option removed. Instead reintroduce STATIC_LLVM and
PoCL now relies on llvm-config to provide correct shared/static libraries
for linkage.
- improved debugging of OpenCL code with CPU driver.
See doc/sphinx/source/debug.rst
Optimizations
-------------
- Improved the PTX code generation for __local blocks. Previously constant
__local blocks and __local arguments were using one dynamic shared CUDA
memory block with offsets computed at runtime. Now if there is no __local
arguments, separate static shared CUDA memory is used. If there are
__local arguments, the constant __local blocks are indexed with compile
time constants. This improves the performance due to better SASS code
generation because it avoids what appears to be a pointer aliasing issue.
Running SHOC benchmark GEMM with size class 4 on a NVIDIA Titan X gives
the following performance improvements.
sgemm_n: 23.2%
sgemm_t: 18.5%
sgemm_n_pcie: 23.3%
sgemm_t_pcie: 19.5%
dgemm_n: 51.4%
dgemm_t: 2.8%
dgemm_n_pcie: 51.6%
dgemm_t_pcie: 6.9%
- Improved handling of command queue barriers: Previously an internal
event was added from all previous commands to it, even with in-order
queues, causing slowdown with applications that have a lot of commands.
Now additional events are omitted in in-order queues. Measured with the
PolyBench OpenCL Gramschmidt kernel, execution time went down from 44
Notable Bug Fixes
-----------------
- Fix LLVM loop vectorizing remarks printing (POCL_VECTORIZER_REMARKS=1).
- Fix an issue in which the loop vectorizer produced code with invalid
memory reads (issue #757).
- Fix compilation error when CMake option SINGLE_LLVM_LIB is set to OFF.
- Fix wrongly output dlerror (Undefined symbol) after dlopen,
caused by a previous libdl call in an ICD loader (issue #877).
- [CPU] safety margin of pocl's CPU driver local memory allocation
has been reduced to a much more reasonable value
- [CPU] buffer size for OpenCL printf is now configurable with
PRINTF_BUFFER_SIZE CMake variable
- [CPU] local memory size reported is now the size of last level of non-shared
data cache (usually L1 or L2 depending on CPU), if hwloc can determine it.
- Added a build parameter HARDENING_ENABLE that applies hardening flags
present in some modern compilers to produce a more secure libpocl.so
with the trade-off in performance.
Pekka Jääskeläinen
committed
Notable User Facing Changes
---------------------------
Pekka Jääskeläinen
committed
- POCL_TRACE_EVENT, POCL_TRACE_EVENT_OPT and POCL_TRACE_EVENT_FILTER
environment variables were renamed to
POCL_TRACING, POCL_TRACING_OPT and POCL_TRACING_FILTER, respectively.
- Refactored the implementation of convert_T() OpenCL functions to better meet
autovectorization criteria under LLVM, thus utilizing device's SIMD ISA
capabilities where available; e.g. on an ARM64 Cortex-A72 convert_int8(short8)
is 5.5x faster now when measured in a tight loop.
Pekka Jääskeläinen
committed
Usability
---------
- A simple per-kernel execution time statistics atexit() for quick and easy
low-impact per-device profiling purposes (relies on event time stamps purely).
It can be enabled by setting POCL_TRACING env to 'cq'.
1.4 September 2019
Pekka Jääskeläinen
committed
==================
Highlights
----------
- pocl-accel: An example driver and support infrastructure for OpenCL 1.2
CL_DEVICE_TYPE_CUSTOM hardware accelerators which implement a memory
mapped control interface.
- Improved SPIR and SPIR-V support. clCreateProgramWithIL() implemented,
Kernel library (for CPU target) support for SPIR-mangling improved
Kernel Compiler
---------------
- Specialize work-group functions for global offset (0,0,0).
- A pocl installation with clang, hwloc statically linked in
is now relocatable.
- Clang/LLVM versions older than 6.0 are no longer supported.
- Create specialized work-group functions for small (defined by a device
driver specific limit) grid dimensions.
- Add Range Metadata to various ID queries etc. to improve vectorizing
index computation to smaller lane widths and other optimizations.
- Passes only the launched kernel to work-group generation and code gen, thus
speeding up the compilation process.
Misc.
-----
- hsa-native: Downgraded the advertised version to 1.2
which is closer to the truth (fixes OCLTest of Glow).
- hsa-native: Add support for byval (struct) argument passing.
- hsa-native: Allow offsets in block copy.
Notable Internal Changes
------------------------
- Allow devices to utilize the ROCm-Device-Libs ocml
https://github.com/RadeonOpenCompute/ROCm-Device-Libs/tree/master/ocml
was mirrored in lib/kernel and made it easy to cherry pick
implementations to targets' kernel libary.
Notable Bug Fixes
-----------------
- Fix a race condition in device initialization, which
caused issues in applications that cause reinitialization
of pocl device drivers (appeared in Glow's OCLTest).
Device Driver Specific
----------------------
- hsa-native: Downgraded the advertised version to 1.2
which is closer to the truth (fixes OCLTest of Glow).
- hsa-native: Add support for byval (struct) argument passing.
- hsa-native: Allow offsets in block copy.
- Support for Clang/LLVM 8.0.
- Support ICD on OSX.
- Ability to have size_t (basically derived from the largest supported
object) smaller than CL_ADDRESS_BITS. This is an unofficial optional
extension as the OpenCL standard mandates it to be the same.
- POCL_EXTRA_BUILD_FLAGS can be used to force add extra build flags such as
'-g' to all clBuildProgram() calls.
- Allow building pocl without CPU backend drivers. When set to off,
CPU will not appear in the list of OpenCL devices reported by pocl.
Controllable via ENABLE_HOST_CPU_DEVICES=off cmake option.
- Build logs are now produced also for illegal options passed to the kernel
build e.g. via the options parameter of clBuildProgram().
- hsa-native: Device side printf-support and alternative < 1.2 non-standard
C99 printf exposing support.
- pocl's binary format has been slightly updated (changes are listed in
the top of pocl_binary.c file) to version 7, but pocl can still read
also the previous version 6 format.
- Allow local-size-specializing also SPMD-targeted kernels to enable compile
time optimization of code depending on the local dimensions.
- Support older GLIBC versions.
- HSA: Initial experimental support for native-ISA compilation on top of HSA
runtime. Tested and works currently only on phsa-runtime. Can be enabled
with ENABLE_HSAIL=off cmake option.
- Add option to disable installing of OpenCL headers.
Notable Bug Fixes
-----------------
- Fixed kernel debug symbol generation.
- Fix issue #661: clCreateImage doesn't fail with unsupported image type.
- Fix issue #668: handle non-kernel functions with barriers properly.
- Fix issue #671: Unable to build pocl with CUDA support with LLVM 7 and host GCC 8.2.
- Fix image format/size handling with multiple devices in context.
- Fix padding issue with context arrays that manifested as unaligned
access errors after autovectorization.
Notable Internal Changes
------------------------
- Add group ids as hidden kernel arguments instead of digging them up
from the context struct.
- Ability to generate the final binary via separate assembly text + assembler
call. Useful for supporting LLVM targets without direct binary emission
support.
- Use Clang's Driver API for launching the final linkage step. This way we
utilize the toolchain registry with correct linkage steps required for
the target at hand.
- Add 'device_aux_functions' to the driver layer attributes. This can be used
to retain device-specific functions required by the target across the
pruning of unused globals.
- The "default kernels" hack which was used to store kernel metadata, has
been removed. Kernel metadata are now stored only once, in cl_program
struct; every new cl_kernel structs holds only a pointer.
- Version 2.0 of hwloc library is supported.
- Reintroduced experimental SPIR LLVM bitcode support to pocl.
Requires LLVM 5 or newer. New experimental feature: SPIR-V support;
requires a working llvm-spirv converter. Currently only loading
of SPIR-V binaries by pocl is supported, not output.
See docs/features.rst for more details.
- Refactored pocl cache now does away with LLVM file locks and relies
entirely on system calls for proper synchronization. Additionally,
cache file writes are now fdatasync()ed.
- Improved kernel compilation time (with cold cache). Improvement
depends on sources - it's bigger for large programs with many kernels.
Luxmark now compiles in seconds instead of dozens of seconds;
internal pocl tests run in 30-50% less time.
- LLVM Scalarizer pass is now only called for SPMD devices. Performance
change varies across tests, but positive seems to outweigh negative.
- Implemented uninitialization callback for device drivers. This is
triggered when the last cl_context is released. Currently only the
CPU driver implements the callback.
- Removed libpoclu from installed files; this library contains helpers
for pocl's internal tests, and from installed files was only used by
poclcc, which has been updated to not rely on it.
- POCL_MAX_WORK_GROUP_SIZE is now respected by all devices. This variable
limits the reported maximum WG sizes & dimensions; tuning max WG size
may improve performance due to cache locality improvement.
- CL_PLATFORM_VERSION now contains much more information about how
pocl was built.
- For users still building with Vecmathlib, performance should be back
to levels of pocl 0.14 (there was a huge drop caused by a change
- Improved support for ARM and ARM64 architectures. All internal tests
now pass (on Cortex-A53 and Cortex-A15), although it's still far
from full conformance.
1.0 December 2017
=================
- Improved automatic local work-group sizing on kernel enqueue, taking
into account standard constraints, SIMD width for vectorization as
well as the number of compute units available on the device.
- Support for NVIDIA GPUs via a new CUDA backend (currently experimental).
- Removed support for BBVectorizer.
- LLVM 5.0 is now supported.
- A few build options have been added for distribution builds,
see README.packaging.
- Somewhat improved scalability in the CPU driver. CPUs with many cores
and programs using a lot of WIs with small kernels can run somewhat faster.
- The OpenCL 1.2 conformance tests now pass with selected CPUs. There are some
caveats though - see the documentation.
- When conformance is enabled, some kernel library functions might be
slower than in previous releases.
- Pocl now reports OpenCL 1.2 instead of 2.0, except HSA enabled builds.
- Updated format of pocl binaries, which is NOT backwards compatible.
You'll need to clean any kernel caches.
- Fixed several memory leaks.
- Unresolved symbols (missing/misspelled functions etc) in a kernel will
result in error in clBuildProgram() instead of pocl silently ignoring
them and then aborting at dlopen().
- New env variable POCL_MEMORY_LIMIT=<num> limits the Global memory size
reported by pocl to <num> gigabytes.
- New env variable POCL_AFFINITY (defaults to 0): if enabled, sets
the affinity of each CPU driver pthread to a single core.
- Improved AVX512 support (with LLVM 5.0). Note that even with LLVM 5.0
there are still a few bugs (see pocl issue #555); AVX512 + LLVM 4.0 are
a lot more broken, and probably not worth trying.
- POCL_DEBUG env var has been revamped. You can now limit debuginfo to
these categories (or their combination): all,error,warning,general
memory,llvm,events,cache,locking,refcounts,timing,hsa,tce,cuda
The old setting POCL_DEBUG=1 now equals error+warning+general.
- Support for LLVM/Clang versions 3.9 and 4.0. Version 3.9 was the first
release to include all frontend features for OpenCL 2.0.
- Ability to build pocl in a mode where online compilation is not
supported to run in hosts without LLVM and binaries compiled offline
e.g. using poclcc.
- pocl's binary format now can contain all the necessary bits to
execute the programs on a host without online compiler support.
- Initial support for out-of-order execution execution of command queues.
- It's now possible to cross-compile pocl when building an offline
- New driver api extension to support out-of-order and asynchronous
devices/drivers.
- Pthread and HSA drivers are now fully asynchronous.
- CMake now the only supported build system, autotools removed.
OpenCL Runtime/Platform API support
-----------------------------------
- implemented clEnqueueBarrierWithWaitList
Other
-----
- Support for reqd_work_group_size attribute in the binary format and poclcc:
Generates a static sized work-group function to help optimizations
such as autovectorization.
- HSA: added support for phsa (https://github.com/HSAFoundation/phsa)
- A lot of bug and memory leak fixes. Some notable ones:
- Issue #1, passing aggregates as kernel value parameters, can be
now fixed with an LLVM patch.
- Now it's possible to build pocl without using the fake address
space ids, which were a source of many annoying issues.
0.13 April 2016
===============
- Support for LLVM/Clang 3.8
- initial (partial) OpenCL 2.0 support
(only Shared Virtual Memory and Atomics are supported ATM)
- CMake build system almost on parity with autotools
(TCE, all external testsuites)
- CMake build is now able to build multiple kernel libraries
for different CPUs and let pocl select a suitable one at runtime
- clEnqueueCopyImage() now works properly
- improved file locking (much less disk access to kernel cache)
- Address spaces of structs are handled properly
Other
------
- removed custom buffer alloc from pthread device
- removed IBM Cell support
- removed support for older LLVM versions (before 3.7)
- significantly higher performance with a lot of small kernel enqueues
(due to improved file locking)
- vecmathlib now supports AVX2
- a few more HSA kernel library implementations: l/tgamma, erf(c), hypot
- implemented OpenCL 2.0 API calls: clEnqueueSVM*, clSVMalloc/free,
clEnqueueFillBuffer, clSetKernelExecInfo, clSetKernelArgSVMPointer,
clCreateCommandQueueWithProperties - no device side queues yet
- OpenCL 2.0 atomics (C11 atomics subset) for x86-64 and HSA
- new testsuites: AMD SDK 3.0, Intel SVM
- New CMake-only testsuites: ASL, clBLAS, clFFT, arrayfire
- more debugging info (timing, mem stats)
- ansi colors with POCL_DEBUG=1 if the output is a terminal
Highlights
----------
- Support for HSA-compliant devices (kernel agents). The GPU of AMD Kaveri
now works through pocl with a bunch of test cases in the AMD SDK 2.9 example
suite.
- New and improved kernel cache system that enables caching
kernels with #includes.
- Support for LLVM/Clang 3.7.
- Little endian MIPS32 now passes almost all pocl testsuite tests.
OpenCL Runtime/Platform API support
-----------------------------------
- Transferred buffer read/write/copy offset calculation to device driver side.
- these driver api functions have changed; got offset as a new argument.
- Maximum allocation is not limited to 1/4th of total memory size.
- Maximum image dimensions grow to fit maximum allocation.
- clGetDeviceInfo() reports better information about CPU vendor and cache.
- experimental clCreateSubDevices() for pthread CPU device.
OpenCL C Builtin Function Implementations
-----------------------------------------
- Implemented get_image_dim().
Bugfixes
--------
- Avoid infinite loops when users recycle an event waiting list.
- Correctly report the base address alignment.
- Lots of others.
Misc
----
- Tests now using new cl2.hpp, removing dependency on OpenGL headers
Pekka Jääskeläinen
committed
Highlights
----------
Pekka Jääskeläinen
committed
- Kernel compiler cache.
- Android support.
Kernel compiler
---------------
- Do not add implicit barriers to kernels without WG barriers
to avoid WI context data overheads.
- Setting the POCL_VECTORIZER_REMARKS env to 1 prints out LLVM vectorizer
remarks during kernel compilation.
- Implicit work-group vectorizer improvements.
- POCL_VECTORIZER_REMARKS: When set to 1, prints out remarks produced by
the loop vectorizer of LLVM during kernel compilation.
OpenCL Runtime/Platform API support
-----------------------------------
- Minimal initial implementation for clCreateSubDevices()
Bugfixes
--------
- Fix falsely detecting operations with side-effects (especially atomic
operations) as uniform. This caused deadlock/race situations due to
illegal implicit barrier injection.
- Fix several reference counting issues.
- Memory leak fixes.
- ARM/openSUSE build fixes.
- Plenty of CMake fixes.
New test/example cases
----------------------
- Several Halide examples using its OpenCL backend added.
- CloverLeaf
Misc.
-----
- The old BBVectorizer forked WIVectorizer removed due to bit rot and
the general hackiness of it.
- Experimental Windows/Visual Studio support (in progress).
- Initial support for MIPS architecture (with known issues).
- Runtime debug printouts that can be enabled via POCL_DEBUG=1.
- Streamlined the buffer allocation and fixed several issues with it.
This lists only the most interesting changes. Please
refer to the version control log for a full listing.
- Support for LLVM/Clang 3.5
- Support for building using CMake (experimental with known issues).
Bugfixes
--------
- TCE: kernel building was broken when running pocl
from install location
Pekka Jääskeläinen
committed
- thread-safety (as required since OpenCL 1.1) improved
Kernel compiler
---------------
- Final code generation now done via LLVM API calls instead of
calling the llc binary.
- Sensible linking of functions from the monolithic kernel built-in
library. Major compilation speedup for smaller kernels.
OpenCL C Builtin Function Implementations
-----------------------------------------
- Improved support for halfN functions.
OpenCL Runtime/Platform API support
-----------------------------------
- Implement clCreateKernelsInProgram()
- OpenCL-C shuffle() and shuffle2() implementation added
- Device probing modified to allow for device driver to detect device during
runtime. POCL_DEVICES still supported.
Clement Leger
committed
- Checks in clSetKernelArgs() for argument validity
- Checks in clEnqueueNDRange() for arguments to be all set
- Implement clGetKernelArgInfo()
- clEnqueueCopyImage()
Misc
----
- ViennaCL testsuite updated to 1.5.1
0.9 January 2014
================
This lists only the most interesting changes. Please
refer to the version control log for a full listing.
Highlights
----------
- Major improvements to the kernel compiler's vectorization
performance. Twofold speedups in some benchmarks
- Support for most of the piglit CL tests
OpenCL Runtime/Platform API support
-----------------------------------
- clCreateImage2D() and clCreateImage3D() implementation moved to
clCreateImage()
- clBuildProgram: Propagate the supported -cl* compiler options to Clang's
OpenCL frontend.
- clFinish: works with commands with event wait lists.
- Preliminary support for OpenCL 2.0 blocks
- Added support for clEnqueueNativeKernel()
Builtin Function Implementations (OpenCL 1.2 Section 6.12)
----------------------------------------------------------
- Refactored read/write_image()-functions to support refactored device image
object. (Only functions used by SimpleImage test)
- Introduced new macro based implementation for read/write_image()-functions
- Added sampler implementation for CLK_ADDRESS_CLAMP and
CLK_ADDRESS_CLAMP_TO_EDGE (Only integer coords supported)
- Most of the printf() format strings now works. Missing features:
- long on 32-bit architectures
Performance Improvements
------------------------
- Kernel compiler now tries to avoid replicating uniform variables,
this leads to less context data to be saved per work-item and cleaner
kernel bitcode for later optimizations
- Use a precompiled header for OpenCL C builtin declarations to speed up
- Kernel compiler vectorization optimizations:
- Inject implicit barriers both to loop starts and ends to
horizontally vectorize the inner loop.
- Reduce "peeling" by minimizing the conditional barrier region
by injecting implicit barrier close to the branch points for
conditional barrier cases.
- Breaking of vector datatypes for more efficient loop
vectorization.
- Support LLVM 3.4 parallel loop metadata.
Misc
----
- Explicitly specify the target architecture/CPU for the
kernel complier.
- Kernel compiler frontend defaults to implementation using LLVM API
directly instead of the scripts.
- __OPENCL_VERSION__ defined to 120
- poclu: helpers for converting between the C float and OpenCL cl_half
types
- clEnqueueNativeKernel implemented
- Static and cmake-builds of LLVM can now be used.
Bugfixes
--------
- Correct isequal, isnan, and similar routines
This lists only the most interesting changes. Please
refer to the version control log for a full listing.
- Added support for LLVM/Clang 3.3.
Pekka Jääskeläinen
committed
- Dropped support for LLVM/Clang v3.1.
- Removed the depedency on llvm-ld (which was copied to
pocl-llvm-ld to pocl tree). Now uses llvm-link instead.
- Project renamed to Portable Computing Language (pocl).
- x86_64 can now use efficient math built-in function
implementations from the vecmathlib project to avoid libm
calls and to exploit the SIMD instructions more efficiently
in case of vector datatypes in the kernel.
Pekka Jääskeläinen
committed
- Parallelize kernel inner loops "horizontally", if possible.
This converts possibly sequential inner kernel loops to parallel
loops by effectively performing "loop interchange" of the
work-item loop and the kernel's inner loop.
- Added VexCL tests to the test suite. All but one of them
work with pocl.
Major bugfixes
--------------
- Fixed passing NULL as a buffer argument to clSetKernelArg
(this time with a regression test added).
- Constant BitCast expressions broken to variables to avoid
crashing when copying a kernel with casts on automatic
local pointers.
- Fixes for i386/i686. Tested on Pentium4/Ubuntu 10.04 LTS.
- Lots of API error checking added (found by the Piglit testing suite).
- Fixed bug in select producing incorrect results when the third
conditional argument is an unsigned scalar or vector.
- Replaced deprecated SSE 4.1 assembly mneunomics in x86-64 min/max
kernel functions that have since been removed in more recent
versions of gas and llvm-as.
- SPIR/LLVM IR 'byval' attributes are now handled correctly on
kernel function arguments, allowing for structs and oversized
vectors to be passed in with value semantics.
Pekka Jääskeläinen
committed
- Fixed to work with the latest Khronos OpenCL headers for 1.2.
Some issues fixed with the new cl.hpp.
- The ICD dispatch table was too small which might have caused
"interesting" behavior when calling the later functions in
the table and not using ocl-icd as the dispatcher.
- Several kernel compiler bugs fixed.
- A multithreaded host application could free the same object
multiple times due to a race issue.
Platform Layer implementations (OpenCL 1.2 Chapter 4)
-----------------------------------------------------
- Return correctly formatted CL_DEVICE_VERSION and
- clGetDeviceInfo: Use the 'cpufreq' sys interface of Linux for
querying the CPU clock frequency, if available.
The OpenCL Runtime (OpenCL 1.2 Chapter 5)
-----------------------------------------
- clGetEventInfo: Querying the command type, command queue,
and the reference count of the event.
Builtin Function Implementations (OpenCL 1.2 Section 6.12)
----------------------------------------------------------
- convert_type* builtins now generated with a Python script by
- length() fingerprint was assuming two arguments instead of one.
- The kernel bitcode library is now optimized when built in pocl. Speeds
up kernel optimization for cases which use the kernel functions
a lot.
- Fix mul_hi() implementation
ICD
---
- Fixed pocl tests to work when executed through the Khronos
supplied icd loader (needs a patch applied to the loader be able to
override the .icd search path).
- Fix to the helper script search logic:
Search from the BUILDDIR only if env POCL_BUILDING is defined.
Otherwise search from PKGDATADIR first, then from the PATH.
- Fixed memory leaks in clCreateContext* and clCreateKernel
- Ensured that stored arguments are adequately aligned in
clSetKernelArg and clEnqueueNDRangeKernel.
0.7 January 2013
=================
This lists only the most interesting changes. Please
refer to the version control log for a full listing.
Overall
-------
- Support for LLVM 3.2.
- Multi-WI work group functions can be now generated
using loops which are only partially unrolled. Reduces
code size explosion with large WGs in comparison to
the full replication method.
- PowerPC 64 support (tested on Cell/Debian Sid/PS3).
- PowerPC 32 support (tested on Cell/Debian Sid/PS3).
- ARM v7 support (on Linux)
- Beginning of Cell SPU support (very experimental!).
- Most of the AMD APP SDK OpenCL examples now work and have been
added to the pocl test suite.
- Most of the Parboil benchmark cases added to the test
suite.
Kernel Compiler Passes
----------------------
- Several miscompilations and compiler crashes fixed.
- Multiple bugs fixed from the work group vectorizer.
Vladimir Guzma
committed
- Updated metadata format pocl uses to pass information
to vectorization and TCE backend to simplify debuging.
- Kernel pointer arguments are not always marked 'noalias' (restricted).
Doing this previously was a specs misunderstanding.
- ConstantGEPs to static variables generated from automated
locals caused problems. Now converting them to normal GEPs
using a pass from the SAFECode project.
OpenCL Platform Layer implementations (OpenCL 1.2 Chapter 4)
-------------------------------------------------------
- clGetDeviceInfo now uses the hwloc lib for device property
queries. Many new queries implemented.
- clGetKernelInfo (initial implementation)
- clGetMemObjectInfo (initial implementation)
- clGetCommandQueueInfo (initial implementation)
- clReleaseDevice
- clRetainDevice
- Proper freeing of devices in clReleaseContext
The OpenCL Runtime Implementations (OpenCL 1.2 Chapter 5)
---------------------------------------------------------
- clBuildProgram: support for passing options to the compiler.
- clEnqueueMarker
OpenCL C Builtin Function Implementations (OpenCL 1.2 Section 6.12)
-------------------------------------------------------------------
- Atomic Functions (6.12.11)