Squashed commit of the following:
commit ac49fdd92a72e9c99394253a02da413a6c2e3b3a
Merge: a07946a 03a0855
Author: Ammar ELWazir <aelwazir@amd.com>
Date: Wed Jul 12 11:36:24 2023 -0500
Merge pull request #2 from ROCm-Developer-Tools/gerrit-amd-staging
Pull from gerrit
commit 03a085588cffe863e8f466de67be1cfb205b675a
Merge: e88cad2 a07946a
Author: Ammar ELWazir <aelwazir@amd.com>
Date: Wed Jul 12 10:57:30 2023 -0500
Merge branch 'amd-staging' into gerrit-amd-staging
commit a07946a5cd4c670c83c27ad1a076a9d4567ce6d7
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Wed Jul 12 15:46:04 2023 +0000
Enabling Cached Builds
commit 525e494a7f13941077a8fd4ad6840904db4d27d4
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Wed Jul 12 04:53:54 2023 +0000
Updating missed GPU Targets
commit 42c75862f628c9bee7cfb7dc04dff2619430efbc
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Wed Jul 12 04:43:02 2023 +0000
Adding V1 Testing
commit 9d72fd4aee85e4b0c12e717060d2730fa5b73be1
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Wed Jul 12 03:34:31 2023 +0000
Fixing Artifacts directory path
commit f4000cc558b3b2e4676f7994f7ce8c8e6f94518e
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Wed Jul 12 03:27:26 2023 +0000
Fixing CMake for test build job
commit 2ce8115d4c33948c3c8f957f545a95a04e1d6cd2
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Wed Jul 12 03:16:18 2023 +0000
Fixing Ubuntu CMake for ubuntu test build
commit 6d0ed439191be900748d0c025157f9d689a73ec7
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Wed Jul 12 01:28:41 2023 +0000
Removing Navi21
commit e349a7642e5ae5eb03ab9fcd0a0f74f09f78cab5
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Wed Jul 12 01:14:14 2023 +0000
Removing Navi21
commit fefd02fe68d2a4bca7ec2e381960ad004ee9fc5b
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Wed Jul 12 00:42:48 2023 +0000
Fixing CMake Job
commit 2ea46abf7bf92643efa8c549fa70346ffbd79d65
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Wed Jul 12 00:35:13 2023 +0000
Fixing CMake Job
commit d99d681ed1999c5fcf291dc678b11a77205fb0f3
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Wed Jul 12 00:32:13 2023 +0000
Fixing Pull Latest Dockers and CMake Jobs
commit dfc4498072d13b4a1df3a63047d34c682c3d9a29
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Tue Jul 11 23:54:21 2023 +0000
Fixing CMake job
commit 919efe04de707f7c702031be15c3e2c5f8442cbb
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Tue Jul 11 23:52:13 2023 +0000
Adding Pull Last dockers job
commit be1b1256e8b0e05308e8f7e7e69bee3acca55281
Author: Ammar ELWazir <aelwazir@amd.com>
Date: Tue Jul 11 18:25:40 2023 -0500
Update cmake.yml
commit 212299fa4355ae6ec18f9aaacbb79c51ea6c6f97
Author: Ammar ELWazir <aelwazir@amd.com>
Date: Tue Jul 11 18:23:35 2023 -0500
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commit 7c2c1327086a61466cc6cac39f70865c051a8bc7
Author: Ammar ELWazir <aelwazir@amd.com>
Date: Tue Jul 11 18:18:53 2023 -0500
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commit 191b5ce007e612e814c1d7a3afb4ad398f3852e1
Author: Ammar ELWazir <aelwazir@amd.com>
Date: Tue Jul 11 16:03:22 2023 -0500
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commit 8824113d95f3e13c7ce4d0af8e0d9d8f522a6c4a
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Tue Jul 11 16:28:09 2023 +0000
Fixing Pull from Gerrit job name
Change-Id: I9e7ed9a27a13ca49d62c93bdadb30f0057e4d385
commit cc3d5e4b02ffb439e8cc2b3efa53527c376f9982
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Tue Jul 11 16:21:43 2023 +0000
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commit b9be2eee71380a2e6dd34d520e92d0c4209277a0
Author: Ammar ELWazir <Ammar.ELWazir@amd.com>
Date: Tue Jul 11 15:57:11 2023 +0000
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commit f54697172c72a67740f9fdfa0c217b6ea6931576
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DISCLAIMER
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© 2022 Advanced Micro Devices, Inc. All Rights Reserved.
ROC Profiler v1
Introduction
Profiling with metrics and traces based on perfcounters (PMC) and traces (SPM). Implementation is based on AqlProfile HSA extension. Library supports GFX8/GFX9. The last API library version for ROCProfiler v1 is 8.0.0
The library source tree:
- doc - Documentation
- include/rocprofiler/rocprofiler.h - Library public API
- include/rocprofiler/v2/rocprofiler.h - V2 Beta Library public API
- include/rocprofiler/v2/rocprofiler_plugins.h - V2 Beta Tool's Plugins Library public API
- src - Library sources
- core - Library API sources
- util - Library utils sources
- xml - XML parser
- test - Library test suite
- ctrl - Test controll
- util - Test utils
- simple_convolution - Simple convolution test kernel
Build environment
Roctracer & Rocprofiler need to be installed in the same directory.
export CMAKE_PREFIX_PATH=<path to hsa-runtime includes>:<path to hsa-runtime library>
export CMAKE_BUILD_TYPE=<debug|release> # release by default
export CMAKE_DEBUG_TRACE=1 # 1 to enable debug tracing
To build with the current installed ROCM:
cd .../rocprofiler
./build.sh ## (for clean build use `-cb`)
To run the test:
$ cd .../rocprofiler/build
$ export LD_LIBRARY_PATH=.:<other paths> # paths to ROC profiler and oher libraries
$ export HSA_TOOLS_LIB=librocprofiler64.so.1 # ROC profiler library loaded by HSA runtime
$ export ROCP_TOOL_LIB=test/librocprof-tool.so # tool library loaded by ROC profiler
$ export ROCP_METRICS=metrics.xml # ROC profiler metrics config file
$ export ROCP_INPUT=input.xml # input file for the tool library
$ export ROCP_OUTPUT_DIR=./ # output directory for the tool library, for metrics results file 'results.txt' and trace files
$ <your test>
Internal 'simple_convolution' test run script:
$ cd .../rocprofiler/build
$ ./run.sh
To enabled error messages logging to '/tmp/rocprofiler_log.txt':
$ export ROCPROFILER_LOG=1
To enable verbose tracing:
$ export ROCPROFILER_TRACE=1
ROCProfiler v2
Introduction
ROCProfilerV2 is a newly developed design for AMD’s tooling infrastructure that provides a hardware specific low level performance analysis interface for profiling of GPU compute applications. The first API library version for ROCProfiler v2 is 9.0.0
Note: ROCProfilerV2 is currently considered a beta version and is subject to change in future releases
ROCProfilerV2 Modules
- Counters
- Hardware
- Generic Buffer
- Session
- Filter
- Tools
- Plugins
- Samples
- Tests
Getting started
Requirements
- makecache
- Gtest Development Package (Ubuntu: libgtest-dev)
- libsystemd-dev, libelf-dev, libnuma-dev, libpciaccess-dev on ubuntu or their corresponding packages on any other OS
- Cppheaderparser, websockets, matplotlib, lxml, barectf Python3 Packages
- Python packages can be installed using:
pip3 install -r requirements.txt
Build
The user has two options for building:
-
Option 1 (It will install in the path saved in ROCM_PATH environment variable or /opt/rocm if ROCM_PATH is empty):
- Run
# Normal Build ./build.sh --build OR ./build.sh -b # Clean Build ./build.sh --clean-build OR ./build.sh -cb -
Option 2 (Where ROCM_PATH envronment need to be set with the current installation directory of rocm), run the following:
# Creating the build directory mkdir build && cd build # Configuring the rocprofv2 build cmake -DCMAKE_PREFIX_PATH=$ROCM_PATH -DCMAKE_MODULE_PATH=$ROCM_PATH/hip/cmake <CMAKE_OPTIONS> .. # Building the main runtime of the rocprofv2 project cmake --build . -- -j # Optionally, for building API documentation cmake --build . -- -j doc # Optionally, for building ROCProfiler V2 samples cmake --build . -- -j samples # Optionally, for building packages (DEB, RPM, TGZ) cmake --build . -- -j tests # Optionally, for building packages (DEB, RPM, TGZ) # Note: Requires rpm package on ubuntu cmake --build . -- -j package
Install
-
Optionally, run the following to install
# Install rocprofv2 in the ROCM_PATH path ./rocprofv2 --installOR, if you are using option 2 in building
cd build # Install rocprofv2 in the ROCM_PATH path cmake --build . -- -j install
Features & Usage
-
rocsys
A command line utility to control a session (launch/start/stop/exit), with the required application to be traced or profiled in a rocprofv2 context. Usage:
# Launch the application with the required profiling and tracing options with giving a session identifier to be used later rocsys --session session_name launch mpiexec -n 2 ./rocprofv2 -i samples/input.txt Histogram # Start a session with a given identifier created at launch rocsys --session session_name start # Stop a session with a given identifier created at launch rocsys –session session_name stop # Exit a session with a given identifier created at launch rocsys –session session_name exit -
Counters and Metric Collection
HW counters and derived metrics can be collected using following option:
rocprofv2 -i samples/input.txt <app_relative_path> input.txtinput.txt content Example (Details of what is needed inside input.txt will be mentioned with every feature):
pmc: SQ_WAVES GRBM_COUNT GRBM_GUI_ACTIVE SQ_INSTS_VALU -
Application Trace Support
Different trace options are available while profiling an app:
# HIP API & asynchronous activity tracing rocprofv2 --hip-api <app_relative_path> ## For synchronous HIP API Activity tracing rocprofv2 --hip-activity <app_relative_path> ## For both Synchronous & ASynchronous HIP API Activity tracing rocprofv2 --hip-trace <app_relative_path> ## Same as --hip-activity, added for backward compatibility # HSA API & asynchronous activity tracing rocprofv2 --hsa-api <app_relative_path> ## For synchronous HSA API Activity tracing rocprofv2 --hsa-activity <app_relative_path> ## For both Synchronous & ASynchronous HSA API Activity tracing rocprofv2 --hsa-trace <app_relative_path> ## Same as --hsa-activity, added for backward compatibility # Kernel dispatches tracing rocprofv2 --kernel-trace <app_relative_path> ## Kernel Dispatch Tracing # HIP & HSA API and asynchronous activity and kernel dispatches tracing rocprofv2 --sys-trace <app_relative_path> ## Same as combining --hip-trace & --hsa-trace & --kernel-traceFor complete usage options, please run rocprofv2 help
rocprofv2 --help -
Plugin Support
We have a template for adding new plugins. New plugins can be written on top of rocprofv2 to support the desired output format using include/rocprofiler/v2/rocprofiler_plugins.h header file. These plugins are modular in nature and can easily be decoupled from the code based on need. Installation files:
rocprofiler-plugins_9.0.0-local_amd64.deb rocprofiler-plugins-9.0.0-local.x86_64.rpm- file plugin: outputs the data in txt files.
- Perfetto plugin: outputs the data in protobuf format.
- Protobuf files can be viewed using ui.perfetto.dev or using trace_processor
- ATT (Advanced thread tracer) plugin: advanced hardware traces data in binary format. Please refer ATT section.
- CTF plugin: Outputs the data in ctf format(a binary trace format)
- CTF binary output can be viewed using TraceCompass or babeltrace.
Usage:
# plugin_name can be file, perfetto , ctf ./rocprofv2 --plugin plugin_name -i samples/input.txt -d output_dir <app_relative_path> # -d is optional, but can be used to define the directory output for output results-
(ATT) Advanced Thread Trace
Tool used to collect fine-grained hardware metrics. Provides ISA-level instruction hotspot analysis via hardware tracing.
# ATT(Advanced Thread Trace) needs some preparation before running. # 1. Make sure to generate the assembly file for application by executing the following before compiling your HIP Application # This can be achieved globally by following environment variable export HIPCC_COMPILE_FLAGS_APPEND="--save-temps -g" # Similarly, the --save-temps -g flags can be added per file for better ISA generation control. # 2. Install plugin package # see Plugin Support section for installation # 3. Run the following to view the trace # Att-specific options must come right after the assembly file rocprofv2 -i input.txt --plugin att <app_assembly_file> --mode network <app_relative_path># Example for vectoradd on navi31. # Special attention to gfx1100.s==navi31 in the ISA file name. # Use gfx1030 for navi21, gfx90a for MI200 and gfx940 for MI300 hipcc -g --save-temps vectoradd_hip.cpp -o vectoradd_hip.exe rocprofv2 -i input.txt --plugin att vectoradd_hip-hip-amdgcn-amd-amdhsa-gfx1100.s --mode network ./vectoradd_hip.exe # Then open the browser at http://localhost:8000 # The ISA can also be obtained from llvm/roc objdump, however, annotations will be different-
app_assembly_file_relative_path
AMDGCN ISA file with .s extension generated in 1st step -
app_relative_path
Path for the running application -
ATT plugin optional parameters
- --depth [n]: How many waves per slot to parse (maximum).
- --mpi [proc]: Parse with this many mpi processes, for greater analysis speed. Does not change results. Requires mpi4py.
- --att_kernel "filename": Kernel filename to use (instead of ATT asking which one to use).
- --trace_file "files": glob (wildcards allowed) of traces files to parse. Requires quotes for use with wildcards.
- --mode [network, file, off (default)]
-
network
Opens the server with the browser UI. att needs 2 ports available (e.g. 8000, 18000). There is an option (default: --ports "8000,18000") to change these. In case rocprofv2 is running on a different machine, use port forwarding "ssh -L 8000:localhost:8000 user@IP" so the browser can be used locally. For docker, use --network=host --ipc=host -p8000:8000 -p18000:18000 -
file
Dumps the analyzed json files to disk for vieweing at a later time. Run python3 httpserver.py from within the generated ui/ folder to view the trace, similarly to network mode. The folder can be copied to another machine, and will run without rocm. -
off
Runs trace collection but not analysis, so it can be analyzed at a later time. Run rocprofv2 ATT [network, file] with the same parameters, removing the application binary, to analyze previously generated traces.
-
-
input.txt
Required. Used to select specific compute units and other trace parameters. For first time users, we recommend compiling and running vectorAdd withand histogram withatt: TARGET_CU=1 SE_MASK=0x1 SIMD_MASK=0x3Possible contents:att: TARGET_CU=0 SE_MASK=0xFF SIMD_MASK=0xF // 0xF for GFX9, SIMD_MASK=0 for Navi- att: TARGET_CU=1 //or some other CU [0,15] - WGP for Navi [0,8]
- SE_MASK=0x1 // bitmask of shader engines. The fewer, the easier on the hardware. Default enables 1 out of 4 shader engines.
- SIMD_MASK=0xF // GFX9: bitmask of SIMDs. Navi: SIMD Index [0-3].
- DISPATCH=ID,RN // collect trace only for the given dispatch_ID and MPI rank RN. RN ignored for single processes. Multiple lines with varying combinations of RN and ID can be added.
- KERNEL=kernname // Profile only kernels containing the string kernname (c++ mangled name). Multiple lines can be added.
- PERFCOUNTERS_COL_PERIOD=0x3 // Multiplier period for counter collection [0~31]. 0=fastest (usually once every 16 cycles). GFX9 only. Counters will be shown in a graph over time in the browser UI.
- PERFCOUNTER=counter_name // Add a SQ counter to be collected with ATT; period defined by PERFCOUNTERS_COL_PERIOD. GFX9 only.
- BUFFER_SIZE=[size] // Sets size of the ATT buffer collection, per dispatch, in megabytes (shared among all shader engines).
-
-
Flush Interval
Flush interval can be used to control the interval time in milliseconds between the buffers flush for the tool. However, if the buffers are full the flush will be called on its own. This can be used as in the next example:
rocprofv2 --flush-interval <TIME_INTERVAL_IN_MILLISECONDS> <rest_of_rocprofv2_arguments> <app_relative_path> -
Trace Period
Trace period can be used to control when the profiling or tracing is enabled using two arguments, the first one is the delay time, which is the time spent idle without tracing or profiling. The second argument is the profiling or the tracing time, which is the active time where the profiling and tracing are working, so basically, the session will work in the following timeline:
# <DELAY_TIME> => <PROFILING_OR_TRACING_SESSION_START> => <ACTIVE_PROFILING_OR_TRACING_TIME> => <PROFILING_OR_TRACING_SESSION_STOP>This feature can be used using the following command:
rocprofv2 --trace-period <delay>:<active_time>:<interval> <rest_of_rocprofv2_arguments> <app_relative_path>- delay: Time delay to start profiling (ms).
- active_time: How long to profile for (ms).
- interval: If set, profiling sessions will start (loop) every "interval", and run for "active_time", until the application ends. Must be higher than "active_time".
-
Device Profiling: A device profiling session allows the user to profile the GPU device for counters irrespective of the running applications on the GPU. This is different from application profiling. device profiling session doesn't care about the host running processes and threads. It directly provides low level profiling information.
-
Session Support: A session is a unique identifier for a profiling/tracing/pc-sampling task. A ROCProfilerV2 Session has enough information about what needs to be collected or traced and it allows the user to start/stop profiling/tracing whenever required. More details on the API can be found in the API specification documentation that can be installed using rocprofiler-doc package. Samples also can be found for how to use the API in samples directory.
Tests
We make use of the GoogleTest (Gtest) framework to automatically find and add test cases to the CMAKE testing environment. ROCProfilerV2 testing is categorized as following:
-
unittests (Gtest Based) : These includes tests for core classes. Any newly added functionality should have a unit test written to it.
-
featuretests (standalone and Gtest Based): These includes both API tests and tool tests. Tool is tested against different applications to make sure we have right output in evry run.
-
memorytests (standalone): This includes running address sanitizer for memory leaks, corruptions.
installation:
rocprofiler-tests_9.0.0-local_amd64.deb rocprofiler-tests-9.0.0-local.x86_64.rpm -
Optionally, for tests: run the following:
-
Option 1, using rocprofv2 script:
cd build && ./rocprofv2 -t -
Option 2, using cmake directly:
cd build && cmake --build . -- -j check
Logging
To enable error messages logging to '/tmp/rocprofiler_log.txt':
$ export ROCPROFILER_LOG=1
Documentation
We make use of doxygen to automatically generate API documentation. Generated document can be found in the following path:
# ROCM_PATH by default is /opt/rocm
# It can be set by the user in different location if needed.
<ROCM_PATH>/share/doc/rocprofv2
installation:
rocprofiler-docs_9.0.0-local_amd64.deb
rocprofiler-docs-9.0.0-local.x86_64.rpm
Samples
- Profiling: Profiling Samples depending on replay mode
- Tracing: Tracing Samples
installation:
rocprofiler-samples_9.0.0-local_amd64.deb
rocprofiler-samples-9.0.0-local.x86_64.rpm
usage:
samples can be run as independent executables once installed
Project Structure
- bin: ROCProf scripts along with V1 post processing scripts
- doc: Documentation settings for doxygen, V1 API Specifications pdf document.
- include:
- rocprofiler.h: V1 API Header File
- v2:
- rocprofiler.h: V2 API Header File
- rocprofiler_plugin.h: V2 Tool Plugins API
- plugin
- file: File Plugin
- perfetto: Perfetto Plugin
- att: Adavced thread tracer Plugin
- ctf: CTF Plugin
- samples: Samples of how to use the API, and also input.txt input file samples for counter collection and ATT.
- script: Scripts needed for tracing
- src: Source files of the project
- api: API implementation for rocprofv2
- core: Core source files needed for the V1/V2 API
- counters: Basic and Derived Counters
- hardware: Hardware support
- hsa: Provides support for profiler and tracer to communicate with HSA
- queues: Intercepting HSA Queues
- packets: Packets Preparation for profiling
- memory: Memory Pool used in buffers that saves the output data
- session: Session Logic
- filter: Type of profiling or tracing and its properties
- tracer: Tracing support of the session
- profiler: Profiling support of the session
- spm: SPM support of the session
- att: ATT support of the session
- tools: Tools needed to run profiling and tracing
- rocsys: Controlling Session from another CLI
- utils: Utilities needed by the project
- tests: Tests folder
- CMakeLists.txt: Handles cmake list for the whole project
- build.sh: To easily build and compile rocprofiler
- CHANGELOG.md: Changes that are happening per release
Support
Please report in the Github Issues
Limitations
-
Navi3x requires a stable power state for counter collection.
Currently, this state needs to be set by the user. To do so, set "power_dpm_force_performance_level" to be writeable for non-root users, then set performance level to profile_standard:Recommended: "profile_standard" for counter collection and "auto" for all other profiling. Use rocm-smi to verify the current power state. For multiGPU systems (includes integrated graphics), replace "card0" by the desired card.sudo chmod 777 /sys/class/drm/card0/device/power_dpm_force_performance_level echo profile_standard >> /sys/class/drm/card0/device/power_dpm_force_performance_level