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Vulkan Performance Layers

This project contains 5 Vulkan layers:

  1. Compile time layer for measuring pipeline compilation times. The output log file location can be set with the VK_COMPILE_TIME_LOG environment variable.
  2. Runtime layer for measuring pipeline execution times. The output log file location can be set with the VK_RUNTIME_LOG environment variable.
  3. Frame time layer for measuring time between calls to vkQueuePresentKHR, in nanoseconds. This layer can also terminate the parent Vulkan application after a given number of frames, controlled by the VK_FRAME_TIME_EXIT_AFTER_FRAME environment variable. The output log file location can be set with the VK_FRAME_TIME_LOG environment variable. Benchmark start detection is controlled by the VK_FRAME_TIME_BENCHMARK_WATCH_FILE (which file to incrementally scan) and VK_FRAME_TIME_BENCHMARK_START_STRING (string that denotes benchmark start) environment variables.
  4. Pipeline cache sideloading layer for supplying pipeline caches to applications that either do not use pipeline caches, or do not initialize them with the intended initial data. The pipeline cache file to load can be specified by setting the VK_PIPELINE_CACHE_SIDELOAD_FILE environment variable. The layer creates an implicit pipeline cache object for each device, initialized with the specified file contents, which then gets merged into application pipeline caches (if any), and makes sure that a valid pipeline cache handle is passed to every pipeline creation. This layer does not produce .csv log files.
  5. Device memory usage layer. This layer tracks memory explicitly allocated by the application (VkAllocateMemory), usually for images and buffers. For each frame, current allocation and maximum allocation is written to the log file. The output log file location can be set with the VK_MEMORY_USAGE_LOG environment variable.

The results are saved in the CSV format to the specified files.

Log formats

We support the following log formats:

CSV format

Each layer (except the cache sideload layer) has a dedicated CSV file into which writes the logs. The files start with the CSV header on top followed by the data entries written in the subsequent lines. In the Analysis Scripts section, we will explain how a CSV can be used.

The CommonFile format

A custom format to have all the logs generated by the layers in a single file. A sample format can be seen in events.log. Other than the logs going to the CSV files, there are other logs in the common file indicating the initialization of a layer, shader creation, etc. All the logs contain timestamps making them suitable for a timeline-based plot. A sample plot is depicted in the Analysis Scripts section.

To specify the output destination, set VK_PERFORMANCE_LAYERS_EVENT_LOG_FILE environment variable. For example:

export VK_PERFORMANCE_LAYERS_EVENT_LOG_FILE=events.log

Chrome Trace Event format

This format enables us to integrate with tools such as chrome://tracing and Perfetto for a better visualization. Here is an example of this format:

{ "name": "Complete Event", "cat": "pipeline", "ph": "X", "ts": 12345, "pid": 123, "tid": 456, "dur": 123,  "args": {...} }

To see more examples, check out trace_event.log.

All the events that go the CommonFile will also go to the TraceEvent file but with a different format. The events are JSON objects grouped in a JSON array.

To specify the output destination, set VK_PERFORMANCE_LAYERS_TRACE_EVENT_LOG_FILE environment variable. For example:

export VK_PERFORMANCE_LAYERS_TRACE_EVENT_LOG_FILE=trace.log

The file can then be imported into chrome://tracing and Perfetto. Here is a sample output rendered by Perfetto: Timeline View For more information about the Chrome Trace Event format see: https://docs.google.com/document/d/1CvAClvFfyA5R-PhYUmn5OOQtYMH4h6I0nSsKchNAySU/preview.

The layers are considered experimental. We welcome contributions and suggestions for improvements; see docs/contributing.md.

Analysis Scripts

The project comes with a set of simple log analysis scripts:

  1. analyze_frametimes.py -- processes frame time layer logs. Prints summarized results, outputs frames per second (FPS) as CSV files, and plots frame time distributions.
  2. plot_timeline.py -- processes event log files. Plots frames per second (FPS) and pipeline creation times. Sample output: Timeline View

You can find more details in the descriptions included in each script file.

Build Instructions

Sample build instructions:

# Checkout the submodules.
git submodule update --init

# Build and install performance layers.
mkdir -p <BUILD_DIR> ; cd <BUILD_DIR>
cmake .. \
      -GNinja \
      -DCMAKE_C_COMPILER=<COMPILER> \
      -DCMAKE_CXX_COMPILER=<COMPILER> \
      -DCMAKE_BUILD_TYPE=<CONFIGURATION> \
      -DCMAKE_INSTALL_PREFIX=run \
      -DVULKAN_HEADERS_INSTALL_DIR=<PATH_TO_VULKAN_HEADERS_INSTALL> \
      -DVULKAN_LOADER_GENERATED_DIR=<PATH_TO_VULKAN_LOADER>/loader/generated \
    && ninja \
    && ninja install

CMAKE_BUILD_TYPE options are: Release, Debug, RelWithDebInfo, MinSizeRel.

See docker/build.Dockerfile for detailed Ubuntu build instructions.

Setting DVULKAN_HEADERS_INSTALL_DIR and VULKAN_LOADER_GENERATED_DIR

VULKAN_HEADERS_INSTALL_DIR and VULKAN_LOADER_GENERATED_DIR must be absolute paths.

If you have the Vulkan SDK

If you have the Vulkan SDK installed in $VULKAN_SDK, you can simply use

VULKAN_HEADERS_INSTALL_DIR=${VULKAN_SDK}
VULKAN_LOADER_GENERATED_DIR=${VULKAN_SDK}/include/vulkan

If you built Vulkan-Headers and Vulkan-Loader from source

VULKAN_HEADERS_INSTALL_DIR must be set to the installation directory of Vulkan-Headers. For example, if your build directory is VULKAN_HEADERS_BUILD and your build commands were:

cmake <PATH_TO_VULKAN_HEADERS> -GNinja -DCMAKE_INSTALL_PREFIX=run
ninja
ninja install

you should set VULKAN_HEADERS_INSTALL_DIR to VULKAN_HEADERS_BUILD/run.

VULKAN_LOADER_GENERATED_DIR should be the directory that contains vk_layer_dispatch_table.h. For example, if you cloned Vulkan-Loader to PATH_TO_VULKAN_LOADER, you should set VULKAN_LOADER_GENERATED_DIR to PATH_TO_VULKAN_LOADER/loader/generated.

Enabling the layers:

For operating systems other than Linux, see: https://vulkan.lunarg.com/doc/view/1.3.211.0/linux/layer_configuration.html or the documentation from your Vulkan SDK vendor.

Linux:

There are many ways to enable Vulkan layers, and we present one way that works on Linux. For a more comprehensive Vulkan layer configuration tutorial, see https://vulkan.lunarg.com/doc/view/1.3.211.0/linux/layer_configuration.html.

$LD_LIBRARY_PATH: Need to append the directory containing the .so files of performance layers to the $LD_LIBRARY_PATH.

export LD_LIBRARY_PATH=<path-with-layers.so>:$LD_LIBRARY_PATH

$VK_INSTANCE_LAYERS: Specify which of the following layers to enable.

  1. VK_LAYER_STADIA_pipeline_compile_time
  2. VK_LAYER_STADIA_pipeline_runtime
  3. VK_LAYER_STADIA_pipeline_cache_sideload
  4. VK_LAYER_STADIA_memory_usage
  5. VK_LAYER_STADIA_frame_time

To enable multiple layers, separate them with colons. The following command enables both compile time and runtime layers.

export VK_INSTANCE_LAYERS=VK_LAYER_STADIA_pipeline_compile_time:VK_LAYER_STADIA_pipeline_runtime

VK_LAYER_PATH: Path to the directory containing the json files with the name of the layers.

export VK_LAYER_PATH=<path-with-layer-json>

Path to the log files:

Each layer writes its results in a specific log file. You can determine the path to the log file for each layer by setting its corresponding environment variable.

export VK_COMPILE_TIME_LOG=<log-file-path>

To check if the layers are enabled, you can run a sample Vulkan application (such as vkcube) and look for the generated layer log files, or check the Vulkan loader logs.

Disclaimer

This is not an officially supported Google product. Support and/or new releases may be limited.