This patch better integrates the target nowait functions with the tasking runtime. It splits the nowait execution into two stages: a dispatch stage, which triggers all the necessary asynchronous device operations and stores a set of post-processing procedures that must be executed after said ops; and a synchronization stage, responsible for synchronizing the previous operations in a non-blocking manner and running the appropriate post-processing functions. Suppose during the synchronization stage the operations are not completed. In that case, the attached hidden helper task is re-enqueued to any hidden helper thread to be later synchronized, allowing other target nowait regions to be concurrently dispatched.
Reviewed By: jdoerfert, tianshilei1992
Differential Revision: https://reviews.llvm.org/D132005
This patch removes the classes GenericStreamManagerTy and GenericEventManagerTy
from the PluginInterface header.
Differential Revision: https://reviews.llvm.org/D138769
This patch modifies the PluginInterface to define functions for initializing
and deinitializing GenericPluginTy instances instead of using the constructor
and destructor. This way, we can return errors from these functions. Also, it
defines some functions that each plugin should implement for creating
plugin-specific objects.
This patch prepares the PluginInterface for the new AMDGPU NextGen plugin.
Differential Revision: https://reviews.llvm.org/D138625
List of fixes:
- omptarget_device_environment symbol is not mandatory in device images
- Do not synchronize in ~AsyncInfoWrapperTy() if the async info's queue is null
- GenericDeviceResourceRef's create() and destroy() require the device as parameter
Differential Revision: https://reviews.llvm.org/D138619
This patch adds a new infrastructure for OpenMP target plugins. It also implements the CUDA and GenericELF64bit plugins under this new infrastructure. We place the sources in a separate directory named plugins-nextgen, and we build the new plugins as different plugin libraries. The original plugins, which remain untouched, will be used by default. However, the user can change this behavior at run-time through the boolean envar LIBOMPTARGET_NEXTGEN_PLUGINS. If enabled, the libomptarget will try to load the NextGen version of each plugin, falling back to the original if they are not present or valid.
The idea of this new plugin infrastructure is to implement the common parts of target plugins in generic classes (defined in files inside plugins-next/common/PluginInterface folder), and then, each specific plugin defines its own specific classes inheriting from the common ones. In this way, most logic remains on the common interface while reducing the plugin-specific source code. It is also beneficial in the sense that now most code and behavior are the same across the different plugins. As an example, we define classes for a plugin, a device, a device image, a stream manager, etc. The plugin object (a single instance per plugin library) holds different device objects (i.e., one per available device), while these latter are the responsible for managing its own resources.
Most code on this patch is based on the changes made by @jdoerfert (Johannes Doerfert)
Reviewed By: jhuber6, jdoerfert
Differential Revision: https://reviews.llvm.org/D134396
