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Dynolog is a telemetry daemon for performance monitoring and tracing. It exports metrics from different components in the system like the linux kernel, CPU, disks, Intel PT, GPUs etc. Dynolog also integrates with pytorch and can trigger traces for distributed training applications.

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Dynolog: a performance monitoring daemon for heterogeneous CPU-GPU systems

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Introduction

Dynolog is a lightweight monitoring daemon for heterogeneous CPU-GPU systems. It supports both always-on performance monitoring, as well as deep-dive profiling modes. The latter can be activated by making a remote procedure call to the daemon.

Below are some of the key features, which we will explore in more detail later in this Readme.

  • Dynolog integrates with the PyTorch Profiler and provides on-demand remote tracing features. One can use a single command line tool (dyno CLI) to simultaneously trace hundreds of GPUs and examine the collected traces (available from PyTorch v1.13.0 onwards).
  • It incorporates GPU performance monitoring for NVIDIA GPUs using DCGM.
  • Dynolog manages counters for micro-architecture specific performance events related to CPU Cache, TLBs etc on Intel and AMD CPUs. Additionally, it instruments telemetry from the Linux kernel including CPU, network and IO resource usage.
  • We are actively implementing new features, including support for Intel Processor Trace as well as memory latency and bandwidth monitoring.

We focus on Linux platforms as it is leveraged heavily in cloud environments.

Motivation

Large scale AI models use distributed AI training across multiple compute nodes. They also leverage hardware accelerators like GPUs to boost performance. One has to carefully optimize their AI applications to make the most of the underlying hardware while avoiding performance bottlenecks. This is where great performance monitoring and profiling tools become indispensable.

While there are existing solutions for monitoring (1, 2) and profiling CPUs (Intel’s VTune) and GPUs (NSight); it is challenging to assemble them together to get a holistic view of the system. For example, we need to understand whether an inefficiency on one resource like the communication fabric is slowing down the overall computation. Additionally, these solutions need to work in a production enviroment without causing performance degradation.

Dynolog leverages the underlying monitoring and profiling interfaces from the Linux kernel, CPU Performance Monitoring Units (PMUs) and GPUs. It also interacts with the pytorch profiler within the application to support on-demand profiling. In this way, it helps identify bottlenecks at various points in the system.

Supported Metrics

Dynolog’s always-on or continuous monitoring supports the following class of metrics:

  1. System/kernel metrics.
  2. CPU Performance Monitoring Unit (PMU) metrics using linux perf_event.
  3. NVIDIA GPU metrics from DCGM if enabled.

Detailed list of covered metrics are provided in docs/Metrics.md.

Getting Started

Installation

Dynolog can be installed using the package manager of your choice with either RPM for CentoOS or Debian for Ubuntu like distros. We do not support non-Linux platforms. There are no required dependencies except for DCGM if you need to monitor GPUs, please see the section on GPU monitoring below.

Obtain the latest dynolog release or pick up one of the releases here

# for CentoOS
wget https://github.com/facebookincubator/dynolog/releases/downdload/v0.2.1/dynolog-0.2.1-1.el8.x86_64.rpm
sudo rpm -i dynolog-0.2.1-1.el8.x86_64.rpm

# for Ubuntu or similar Debian based linux distros
wget https://github.com/facebookincubator/dynolog/releases/download/v0.2.1/dynolog_0.2.1-0-amd64.deb
sudo dpkg -i dynolog_0.2.1-0-amd64.deb

No sudo access?

Dynolog can run in userspace mode with most features functional. There are a few options to run dynolog userspace. One way is to simply decompress the RPM or debian packages as shown below.

mkdir -p dynolog_pkg; cd dynolog_pkg
wget https://github.com/facebookincubator/dynolog/releases/download/v0.2.1/dynolog_0.2.1-0-amd64.deb
ar x dynolog_0.2.1-0-amd64.deb; tar xvf data.tar.xz
# binaries should now be available in ./usr/local/bin, you can add this directory to your $PATH.

Alternatively, you can build dynolog from source. The binaries should be present in the build/bin directory. The packages provides systemd support to run the server as a daemon. You can however still run dynolog server directly in a separate terminal.

Running dynolog

Start the Dynolog service using systemd -

sudo systemctl start dynolog

Note:

  • The dynolog service picks up runtime flags from /etc/dynolog.gflags if the file is present.
  • Output logs will be written to /var/logs/dynolog.log and logs are automatically rotated.

One can check the values of the metrics emitted in the output log file.

$> tail /var/log/dynolog.log
I20220721 23:42:34.141083 3632432 Logger.cpp:37] Logging : 12 values
I20220721 23:42:34.141104 3632432 Logger.cpp:38] time = 2022-07-21T23:42:34.141Z data = {"cpu_i":"71.342"

The dyno command line tool communicates with the dynolog daemon on the local or remote system. For example, we can verify if the daemon is running using the status subcommand.

$> dyno status
response length = 12
response = {"status":1}

$> dyno --hostname some_remote_host.com status
response length = 12
response = {"status":1}

Run dyno --help for help on other subcommands.

Server Command Line options Lastly, the dynolog server provides various flags, we list the key ones here. Run dynolog --help for more info.

  • --port (default = 1778) - the port used to setup a service for remote queries.
  • --reporting_interval_s (default=60) - the reporting interval for metrics. Please see the Logging section for more details.
  • --enable_ipc_monitor sets up inter-process communication endpoint. This can be used to talk to applications like pytorch trainers.

Collecting pytorch/GPU traces

To enable pytorch profiling add the flag --enable_ipc_monitor. This enables the server to communicate with the pytorch process. If you are running the server with systemd, do the following-

echo "--enable_ipc_monitor" | sudo tee -a /etc/dynolog.gflags
sudo systemctl restart dynolog

You also need to use a compatible version of pytorch v1.13.0 and set the env variable KINETO_USE_DAEMON=1 before running the pytorch program. See docs/pytorch_profiler.md for details.

Traces can now be captured using the gputrace subcommand

dyno gputrace --pids <pid of process> --log_file <output file path>

Dynolog can also 1) capture traces on remote nodes, 2) co-ordinate tracing across a distributed training job (with slurm job scheduler). Please see the recipe in docs/pytorch_profiler.md for a detailed walkthrough of this feature.

GPU Monitoring

Dynolog leverages NVIDIA Datacenter GPU Manager DCGM for NVIDIA GPUs today. DCGM supports GPU models from Kepler/Volta V100 onwards, Please see this page for details. Currently Dynolog dynamically supports both DCGM 2.x and DCGM 3.x based on the version of the shared library libdcgm.so installed on the system.

Prerequisite: Install DCGM on your system following the instructions here. After the installation please make sure to initialize the dcgm service using -

sudo systemctl --now enable nvidia-dcgm

To run dynolog with GPU monitoring you can add/tweak these flags

  • --enable_gpu_monitor (default=false): enable GPU monitoring using DCGM.
  • --dcgm_lib_path (default=/lib64/libdcgm.so): the path to DCGM shared library libdcgm.so. If the default path does not exist please adjust it.
  • --dcgm_fields (default=”100,155,204,1001,1002,1003,1004,1005,1006,1007,1008,1009,1010,1011,1012”): comma separated string of DCGM field ids to monitor, please see Nvidia headers for field definitions
  • --dcgm_report_interval_s (default=10): the interval between each DCGM counter update in second. Please note when this value is too small DCGM may start multiplexing the counters and potentially affect counter accuracy.
echo "--enable_gpu_monitor" | sudo tee -a /etc/dynolog.gflags
sudo systemctl restart dynolog

CPU Performance Events

Dynolog also supports collection of CPU hardware performance events. We added CPU instructions and cycles as the first set of counters; referred to as mips (millions of instructions per second) and mega_instructions_per_second. See docs/Metrics.md for more details.

The following flags are relevant to hardware PMU performance monitoring:

  • --enable_perf_monitor (default=false): enable hardware PMU performance monitoring.
  • --perf_monitor_reporting_interval_s (default=60): set the reporting interval of performance metrics in seconds.

Sample logs emitted to the log file:

I20221208 15:28:34.730270 3345417 Logger.cpp:55] Logging : 2 values
I20221208 15:28:34.730316 3345417 Logger.cpp:56] time = 1969-12-31T16:00:00.000Z data = {"mega_cycles_per_second":"735.696","mips":"691.497"}
I20221208 15:29:34.731652 3345417 Logger.cpp:55] Logging : 2 values
I20221208 15:29:34.731690 3345417 Logger.cpp:56] time = 1969-12-31T16:00:00.000Z data = {"mega_cycles_per_second":"514.156","mips":"479.397"}

Building from source

Dynolog consists of two binaries - 1) dynolog server and 2) dyno command line tool. To build from source please check out the project and initialize submodules.

git clone https://github.com/facebookincubator/dynolog.git
git submodule update --init --recursive

Requirements

This project mainly depends on C++17 and Rust compiler tool chains. Other dependencies include cmake and the ninja build system. We have tested dynolog works with the following versions of C++ and Rust toolchains

Language Toolchain
C++ gcc 8.5.0+
Rust Rust 1.58.1 (1.56+ required for clap dependency)

Based on your system you could use one of the following instructions:

RHEL/CentOS

Install cmake, ninja, and cargo (for Rust).

sudo dnf install cmake ninja cargo

Alternatively, you can install rust using the script provided here.

curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh

Ubuntu/Debian

Install cmake and ninja

sudo apt-get install -y cmake ninja-build

Install rust using this script provided here.

Conda

In case of no root access you can install these dependencies in a conda environment as well. A few features may not work without root access (we will document more details soon).

conda install cmake ninja
conda install -c conda-forge "rust=1.64.0"

GPU Monitoring

For NVIDIA GPUs (currently the only ones supported) you can install DCGM as described in GPU monitoring section.

Building

Please use the build script, this should generate files in ./build relative to your project root. The script will print the path to the server and client.

./scripts/build.sh

Note that the build system for Rust will need an internet connection for the first time.

Building packages

The preferred method to run dynolog is by deploying a package - either RPM or debian. Please see scripts/README.md for instructions on how to build dynolog packages.

Logging

By default dynolog will save monitoring metrics to the standard output -

I20220721 23:42:34.141104 3632432 Logger.cpp:38] time = 2022-07-21T23:42:34.141Z data = {"cpu_i":"71.342" ...

Dynolog includes an abstract Logger class that can be specialized for different logging destinations. Currently, Dynolog support logging to Meta ODS datastore, and Meta Scuba data system, instructions can be found in docs/logging_to_ods.md and docs/logging_to_scuba.md. Dynolog team is happy to support new loggers.

Releases

Please see our releases page for latest releases and features/fixes included in them.

In the next and near term release we plan to add

  • Disk usage metrics like storage size and IO operations per second.
  • Memory latency and bandwidth monitoring per socket for Intel and AMD CPUs.

At some future point we would also like to add -

  • Capability to collect CPU traces using Intel Processor Trace.
  • Open telemetry support for logging.

Contact Us

Dynolog is actively maintained by Meta engineers: Brian Coutinho, Zachary Jones, Hao Wang, William Sumendap, Jakob Johnson,Alston Tang, Walter Erquinigo,David Carrillo Cisneros. We would also like to thank various contributors to the dynolog project internally- Sam Crossley, Jayesh Lahori, Matt Skach, Darshan Sanghani, Lucas Molander, Parth Malani, Jason Taylor - this is by no means an exhaustive list. Special thanks to Herman Chin, Victor Henriquez, Anupam Bhatnagar, Caleb Ho, Aaron Shi, Jay Chae, Song Liu, Susan Zhang, Geeta Chauhan and Gisle Dankel for supporting this initiative

Join the dynolog community

Please file bugs or feature requests as issues on github. See the CONTRIBUTING file for how to help out.

License

Dynolog is licensed under the MIT License.

About

Dynolog is a telemetry daemon for performance monitoring and tracing. It exports metrics from different components in the system like the linux kernel, CPU, disks, Intel PT, GPUs etc. Dynolog also integrates with pytorch and can trigger traces for distributed training applications.

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