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fai-pep's Introduction

Facebook AI Performance Evaluation Platform

Facebook AI Performance Evaluation Platform is a framework and backend agnostic benchmarking platform to compare machine learning inferencing runtime metrics on a set of models and on variety of backends. It also provides a means to check performance regressions on each commit. It is licensed under Apache License 2.0. Please refer to the LICENSE file for details.

Currently, the following performance metrics are collected:

  • Delay : the latency of running the entire network and/or the delay of running each individual operator.
  • Error : the error between the values of the outputs running a model and the golden outputs.
  • Energy/Power : the energy per inference and average power of running the ML model on a phone without battery.
  • Other User Provided Metrics : the harness can accept any metric that the user binary generates.

Framework and backend agnostic benchmarking platforms

Machine learning is a rapidly evolving area with many moving parts: new and existing framework enhancements, new hardware solutions, new software backends, and new models. With so many moving parts, it is very difficult to quickly evaluate the performance of a machine learning model. However, such evaluation is vastly important in guiding resource allocation in:

  • the development of the frameworks
  • the optimization of the software backends
  • the selection of the hardware solutions
  • the iteration of the machine learning models

This project aims to achieve the two following goals:

  • Easily evaluate the runtime performance of a model selected to be benchmarked on all existing backends.
  • Easily evaluate the runtime performance of a backend selected to be benchmarked on all existing models.

The flow of benchmarking is illustrated in the following figure:

Benchmarking flow

The flow is composed of three parts:

  • A centralized model/benchmark specification
    • A fair input to the comparison
  • A centralized benchmark driver with distributed benchmark execution
    • The same code base for all backends to reduce variation
    • Distributed execution due to the unique build/run environment for each backend
  • A centralized data consumption
    • One stop to compare the performance

The currently supported frameworks are: Caffe2, TFLite

The currently supported model formats are: Caffe2, TFLite

The currently supported backends: CPU, GPU, DSP, Android, iOS, Linux based systems

The currently supported libraries: Eigen, MKL, NNPACK, OpenGL, CUDA

Performance regression detection

The benchmark platform also provides a means to compare performance between commits and detect regressions. It uses an A/B testing methodology that compares the runtime difference between a newer commit (treatment) and an older commit (control). The metric of interest is the relative performance difference between the commits, as the backend platform's condition may be different at different times. Running the same tests on two different commit points at the same time removes most of the variations of the backend. This method has been shown to improve the precision of detecting performance regressions.

Directory structure

The benchmarking codebase resides in benchmarking directory. Inside, the frameworks directory contains all supported ML frameworks. A new framework can be added by creating a new directory, deriving from framework_base.py, and implementing all its methods. The platforms directory contains all supported ML backend platforms. A new backend can be added by creating a new directory, deriving from platform_base.py, and implementing all its methods.

The model specifications resides in specifications directory. Inside, the models directory contains all model and benchmarking specifications organized in model format. The benchmarks directory contains a sequence of benchmarks organized in model format. The frameworks directory contains custom build scripts for each framework.

Model/Benchmark specification

The models and benchmarks are specified in json format. It is best to use the example in /specifications/models/caffe2/squeezenet/squeezenet.json as an example to understand what data is specified.

A few key items in the specifications

  • The models are hosted in third party storage. The download links and their MD5 hashes are specified. The benchmarking tool automatically downloads the model if not found in the local model cache. The MD5 hash of the cached model is computed and compared with the specified one. If they do not match, the model is downloaded again and the MD5 hash is recomputed. This way, if the model is changed, only need to update the specification and the new model is downloaded automatically.
  • In the inputs field of tests, one may specify multiple shapes. This is a short hand to indicate that we benchmark the tests of all shapes in sequence.
  • In some field, such as identifier, you may find some string like {ID}. This is a placeholder to be replaced by the benchmarking tool to differentiate multiple test runs specified in one test specification, as in the above item.

Run benchmark

To run the benchmark, you need to run run_bench.py, given a model meta data or a benchmark meta data. An example of the command is the following (when running under FAI-PEP directory):

benchmarking/run_bench.py -b specifications/models/caffe2/shufflenet/shufflenet.json

When you run the command for the first time, you are asked several questions. The answers to those questions, together with other sensible defaults, are saved in a config file: ~/.aibench/git/config.txt. You can edit the file to update your default arguments.

The arguments to the driver are as follows. It also takes arguments specified in the following sections and pass them to those scripts.

usage: run_bench.py [-h] [--reset_options]

Perform one benchmark run

optional arguments:
  -h, --help       show this help message and exit
  --reset_options  Reset all the options that is saved by default.

run_bench.py can be the single point of entry for both interactive and regression benchmark runs.

Stand alone benchmark run

The harness.py is the entry point for one benchmark run. It collects the runtime for an entire net and/or individual operator, and saves the data locally or pushes to a remote server. The usage of the script is as follows:

usage: harness.py [-h] [--android_dir ANDROID_DIR] [--ios_dir IOS_DIR]
                  [--backend BACKEND] -b BENCHMARK_FILE
                  [--command_args COMMAND_ARGS] [--cooldown COOLDOWN]
                  [--device DEVICE] [-d DEVICES]
                  [--excluded_devices EXCLUDED_DEVICES] --framework
                  {caffe2,generic,oculus,tflite} --info INFO
                  [--local_reporter LOCAL_REPORTER]
                  [--monsoon_map MONSOON_MAP]
                  [--simple_local_reporter SIMPLE_LOCAL_REPORTER]
                  --model_cache MODEL_CACHE -p PLATFORM
                  [--platform_sig PLATFORM_SIG] [--program PROGRAM] [--reboot]
                  [--regressed_types REGRESSED_TYPES]
                  [--remote_reporter REMOTE_REPORTER]
                  [--remote_access_token REMOTE_ACCESS_TOKEN]
                  [--root_model_dir ROOT_MODEL_DIR]
                  [--run_type {benchmark,verify,regress}] [--screen_reporter]
                  [--simple_screen_reporter] [--set_freq SET_FREQ]
                  [--shared_libs SHARED_LIBS] [--string_map STRING_MAP]
                  [--timeout TIMEOUT] [--user_identifier USER_IDENTIFIER]
                  [--wipe_cache WIPE_CACHE]
                  [--hash_platform_mapping HASH_PLATFORM_MAPPING]
                  [--user_string USER_STRING]

Perform one benchmark run

optional arguments:
  -h, --help            show this help message and exit
  --android_dir ANDROID_DIR
                        The directory in the android device all files are
                        pushed to.
  --ios_dir IOS_DIR     The directory in the ios device all files are pushed
                        to.
  --backend BACKEND     Specify the backend the test runs on.
  -b BENCHMARK_FILE, --benchmark_file BENCHMARK_FILE
                        Specify the json file for the benchmark or a number of
                        benchmarks
  --command_args COMMAND_ARGS
                        Specify optional command arguments that would go with
                        the main benchmark command
  --cooldown COOLDOWN   Specify the time interval between two test runs.
  --device DEVICE       The single device to run this benchmark on
  -d DEVICES, --devices DEVICES
                        Specify the devices to run the benchmark, in a comma
                        separated list. The value is the device or device_hash
                        field of the meta info.
  --excluded_devices EXCLUDED_DEVICES
                        Specify the devices that skip the benchmark, in a
                        comma separated list. The value is the device or
                        device_hash field of the meta info.
  --framework {caffe2,generic,oculus,tflite}
                        Specify the framework to benchmark on.
  --info INFO           The json serialized options describing the control and
                        treatment.
  --local_reporter LOCAL_REPORTER
                        Save the result to a directory specified by this
                        argument.
  --monsoon_map MONSOON_MAP
                        Map the phone hash to the monsoon serial number.
  --simple_local_reporter SIMPLE_LOCAL_REPORTER
                        Same as local reporter, but the directory hierarchy is
                        reduced.
  --model_cache MODEL_CACHE
                        The local directory containing the cached models. It
                        should not be part of a git directory.
  -p PLATFORM, --platform PLATFORM
                        Specify the platform to benchmark on. Use this flag if
                        the framework needs special compilation scripts. The
                        scripts are called build.sh saved in
                        specifications/frameworks/<framework>/<platform>
                        directory
  --platform_sig PLATFORM_SIG
                        Specify the platform signature
  --program PROGRAM     The program to run on the platform.
  --reboot              Tries to reboot the devices before launching
                        benchmarks for one commit.
  --regressed_types REGRESSED_TYPES
                        A json string that encodes the types of the regressed
                        tests.
  --remote_reporter REMOTE_REPORTER
                        Save the result to a remote server. The style is
                        <domain_name>/<endpoint>|<category>
  --remote_access_token REMOTE_ACCESS_TOKEN
                        The access token to access the remote server
  --root_model_dir ROOT_MODEL_DIR
                        The root model directory if the meta data of the model
                        uses relative directory, i.e. the location field
                        starts with //
  --run_type {benchmark,verify,regress}
                        The type of the current run. The allowed values are:
                        benchmark, the normal benchmark run.verify, the
                        benchmark is re-run to confirm a suspicious
                        regression.regress, the regression is confirmed.
  --screen_reporter     Display the summary of the benchmark result on screen.
  --simple_screen_reporter
                        Display the result on screen with no post processing.
  --set_freq SET_FREQ   On rooted android phones, set the frequency of the
                        cores. The supported values are: max: set all cores to
                        the maximum frquency. min: set all cores to the
                        minimum frequency. mid: set all cores to the median
                        frequency.
  --shared_libs SHARED_LIBS
                        Pass the shared libs that the framework depends on, in
                        a comma separated list.
  --string_map STRING_MAP
                        A json string mapping tokens to replacement strings.
                        The tokens, surrounded by \{\}, when appearing in the
                        test fields of the json file, are to be replaced with
                        the mapped values.
  --timeout TIMEOUT     Specify a timeout running the test on the platforms.
                        The timeout value needs to be large enough so that the
                        low end devices can safely finish the execution in
                        normal conditions. Note, in A/B testing mode, the test
                        runs twice.
  --user_identifier USER_IDENTIFIER
                        User can specify an identifier and that will be passed
                        to the output so that the result can be easily
                        identified.
  --wipe_cache WIPE_CACHE
                        Specify whether to evict cache or not before running
  --hash_platform_mapping HASH_PLATFORM_MAPPING
                        Specify the devices hash platform mapping json file.
  --user_string USER_STRING
                        Specify the user running the test (to be passed to the
                        remote reporter).

Continuous benchmark run

The repo_driver.py is the entry point to run the benchmark continuously. It repeatedly pulls the framework from github, builds the framework, and launches the harness.py with the built benchmarking binaries

The accepted arguments are as follows:

usage: repo_driver.py [-h] [--ab_testing] [--base_commit BASE_COMMIT]
                      [--branch BRANCH] [--commit COMMIT]
                      [--commit_file COMMIT_FILE] --exec_dir EXEC_DIR
                      --framework {caffe2,oculus,generic,tflite}
                      [--frameworks_dir FRAMEWORKS_DIR] [--interval INTERVAL]
                      --platforms PLATFORMS [--regression]
                      [--remote_repository REMOTE_REPOSITORY]
                      [--repo {git,hg}] --repo_dir REPO_DIR [--same_host]
                      [--status_file STATUS_FILE] [--step STEP]

Perform one benchmark run

optional arguments:
  -h, --help            show this help message and exit
  --ab_testing          Enable A/B testing in benchmark.
  --base_commit BASE_COMMIT
                        In A/B testing, this is the control commit that is
                        used to compare against. If not specified, the default
                        is the first commit in the week in UTC timezone. Even
                        if specified, the control is the later of the
                        specified commit and the commit at the start of the
                        week.
  --branch BRANCH       The remote repository branch. Defaults to master
  --commit COMMIT       The commit this benchmark runs on. It can be a branch.
                        Defaults to master. If it is a commit hash, and
                        program runs on continuous mode, it is the starting
                        commit hash the regression runs on. The regression
                        runs on all commits starting from the specified
                        commit.
  --commit_file COMMIT_FILE
                        The file saves the last commit hash that the
                        regression has finished. If this argument is specified
                        and is valid, the --commit has no use.
  --exec_dir EXEC_DIR   The executable is saved in the specified directory. If
                        an executable is found for a commit, no re-compilation
                        is performed. Instead, the previous compiled
                        executable is reused.
  --framework {caffe2,oculus,generic,tflite}
                        Specify the framework to benchmark on.
  --frameworks_dir FRAMEWORKS_DIR
                        Required. The root directory that all frameworks
                        resides. Usually it is the
                        specifications/frameworksdirectory.
  --interval INTERVAL   The minimum time interval in seconds between two
                        benchmark runs.
  --platforms PLATFORMS
                        Specify the platforms to benchmark on, in comma
                        separated list.Use this flag if the framework needs
                        special compilation scripts. The scripts are called
                        build.sh saved in
                        specifications/frameworks/<framework>/<platforms>
                        directory
  --regression          Indicate whether this run detects regression.
  --remote_repository REMOTE_REPOSITORY
                        The remote repository. Defaults to origin
  --repo {git,hg}       Specify the source control repo of the framework.
  --repo_dir REPO_DIR   Required. The base framework repo directory used for
                        benchmark.
  --same_host           Specify whether the build and benchmark run are on the
                        same host. If so, the build cannot be done in parallel
                        with the benchmark run.
  --status_file STATUS_FILE
                        A file to inform the driver stops running when the
                        content of the file is 0.
  --step STEP           Specify the number of commits we want to run the
                        benchmark once under continuous mode.

The repo_driver.py can also take the arguments that are recognized by harness.py. The arguments are passed over.

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fai-pep's Issues

Change dictionary syntax to use get

if 'x_is_date' not in kw_extra:
kw_extra['x_is_date'] = False
if 'x_axis_format' not in kw_extra:
kw_extra['x_axis_format'] = "%d %b %Y"
if 'color_category' not in kw_extra:
kw_extra['color_category'] = "category20"
if 'tag_script_js' not in kw_extra:
kw_extra['tag_script_js'] = True
if 'chart_attr' not in kw_extra:
kw_extra['chart_attr'] = {}
# set the container name

The above syntax can be changed to the following.

kw_extra['x_is_date'] = kw_extra.get('x_is_date', False)
kw_extra['x_axis_format'] = kw_extra.get('x_axis_format', "%d %b %Y")
kw_extra['color_category'] = kw_extra.get('color_category', "category20")
kw_extra['tag_script_js'] = kw_extra.get('tag_script_js', True)
kw_extra['chart_attr'] = kw_extra.get('chart_attr', {})

What should be the directory the framework repo resides for run_bench.py

I tried benchmarking/run_bench.py -b specifications/models/tflite/mobilenet_v2/mobilenet_v2_1.4_224.json but don't know what should I enter at the prompt "Please enter the directory the framework repo resides" - should it be the local PyTorch or TF Lite repo directory? An example of this?

Example usage for iOS

Can you show an example on how to use the system with iOS?
Does the system compiles the .ipa that get sent to the iOS device or do we have to provide it?

Contribution

Sorry for being creating an issue in this repo. Are you guys working on Django ?

Problems when running the experiment with docker

When trying to run the experiment with docker for TFLite example, I encountered the following error:

+ python /tmp/FAI-PEP/benchmarking/run_bench.py -b /tmp/FAI-PEP/specifications/models/tflite/mobilenet_v2/mobilenet_v2_0.35_96.json --config_dir /tmp/config
usage: run_bench.py [-h] [--app_id APP_ID] [-b BENCHMARK_FILE] [--lab]
                    [--logger_level {info,warning,error}] [--remote]
                    --root_model_dir ROOT_MODEL_DIR [--token TOKEN]
                    [-c CUSTOM_BINARY] [--pre_built_binary PRE_BUILT_BINARY]
                    [--user_string USER_STRING]
run_bench.py: error: argument --root_model_dir is require

Does anyone know how to resolve this? Did I missed anything before running the example?

When running multiple tests, failures can be "swallowed"

We run multiple tests from a single config, and introduced an error in the second test in the group. This failure was not noticed, because each test reuses the same temp directory so report.json from the previous run is reused. That means that even though the run fails, we report data for the previous run.

UnboundLocalError: local variable 'abs_name' referenced before assignment

When I first run the command,

python ${FAI_PEP_DIR}/benchmarking/run_bench.py -b "${BENCHMARK_FILE}" --config_dir "${CONFIG_DIR}"

I encounter this message.
"UnboundLocalError: local variable 'abs_name' referenced before assignment"

However, when I ran the same command again, it disappears. I doubt .md5 autogeneration somehow broke at the first time.

What is meant by "without a battery" in top level README.md ?

In top level README one of the bullets about performance metrics says,

"energy/power : the energy per inference and average power of running the the ML model on a phone without battery"

I assume the "the the" is a typing error that should be "the".

But what about "without battery" ? If inference engine hardware in mobile phones could truly run without a battery that would be very low power indeed !! Is this a typo or if not, what is meant by this ?

-- jS

General tutorial on running FAI-PEP

It would be great if you could add a general tutorial which allows practitioners to benchmark all sorts of models. The idea behind FAI-PEP is really good but all tutorials are geared towards image-classification models.

Checking if the key exists in dictionary instead of using dict.get(key, None)

if "shared_libs" in info:
minfo["shared_libs"] = info["shared_libs"]

if "shared_libs" in info:
cinfo["shared_libs"] = info["shared_libs"]

Some places in this file FAI-PEP/benchmarking/driver/benchmark_driver.py has check if a key is in the dictionary and then tries to access it. It may be inefficient and less clean to go through
the dictionary twice. Can I raise a PR to change these to

minfo["shared_libs"] = info.get("shared_libs", "") 
cinfo["shared_libs"] = info.get("shared_libs", "")

[Proposal]Replace bazel build command with the binary provided from tensorflow document

bazel build command in specifications/frameworks/tflite/android/build.sh requires a lot of dependencies, like appropriate version of bazel, Android SDK and NDK. It's burdensome.

I found that the resulted binary is provided in here which is form https://www.tensorflow.org/lite/performance/measurement.

I commented out

#   --config=android_arm \
#   --cxxopt='--std=c++11' \
#   tensorflow/lite/tools/benchmark:benchmark_model

these lines and saved the downloaded binary in {tensorflow_dir}/bazel-bin/tensorflow/lite/tools/benchmark/benchmark_model

Then,

python ${FAI_PEP_DIR}/benchmarking/run_bench.py -b "${BENCHMARK_FILE}" --config_dir "${CONFIG_DIR}"

executed without problems.

Below is my configuration.

{
  \"--commit\": \"master\",
  \"--exec_dir\": \"${CONFIG_DIR}/exec\",
  \"--framework\": \"tflite\",
  \"--local_reporter\": \"${CONFIG_DIR}/reporter\",
  \"--model_cache\": \"${CONFIG_DIR}/model_cache\",
  \"--platforms\": \"android\",
  \"--remote_repository\": \"origin\",
  \"--repo\": \"git\",
  \"--repo_dir\": \"${REPO_DIR}\",
  \"--tmp_model_dir\": \"${CONFIG_DIR}/tmp_model_dir\",
  \"--root_model_dir\": \"${CONFIG_DIR}/root_model_dir\",
  \"--screen_reporter\": null
}

Failed to run shuffleNet on host

I have tried to run shufflenet and modified inputs to gpu_0/data getting following issue
INFO 12:24:56 subprocess_with_logger.py: 24: Running: /tmp/FAI-PEP/libraries/python/imagenet_test_map.py --image-dir /tmp/imagenet/val --label-file /tmp/FAI-PEP/libraries/python/labels.txt --output-image-file /tmp/tmpLwDpGk/caffe2/host/images.txt --output-label-file /tmp/tmpLwDpGk/caffe2/host/labels.txt --shuffle
INFO 12:24:56 subprocess_with_logger.py: 24: Running: awk (NR>050000/1000)&&(NR<=050000/1000+50000/1000) {print > "/tmp/tmpLwDpGk/caffe2/host/inputs/labels_0.txt"} /tmp/tmpLwDpGk/caffe2/host/labels.txt
INFO 12:24:56 subprocess_with_logger.py: 24: Running: /tmp/config/exec/caffe2/host/incremental/2019/5/23/90182a7332997fb0edf666abc4b554b83a1670d1/convert_image_to_tensor --input_image_file /tmp/tmpLwDpGk/caffe2/host/inputs/labels_0.txt --output_tensor /tmp/tmpLwDpGk/caffe2/host/images_tensor.pb --batch_size 1 --scale 256,-1 --crop 224,224 --preprocess normalize,mean,std --report_time json|Caffe2Observer
INFO 12:24:57 hdb.py: 27: push /tmp/tmpLwDpGk/caffe2/host/images_tensor.pb to /tmp/tmpJ2TNu5/6ea951fe0a41/images_tensor.pb
INFO 12:24:57 hdb.py: 27: push /tmp/config/model_cache/caffe2/shufflenet/model.pb to /tmp/tmpJ2TNu5/6ea951fe0a41/model.pb
INFO 12:24:57 hdb.py: 27: push /tmp/config/model_cache/caffe2/shufflenet/model_init.pb to /tmp/tmpJ2TNu5/6ea951fe0a41/model_init.pb
{u'softmax': u'/tmp/tmpJ2TNu5/6ea951fe0a41/output/softmax.txt'}
INFO 12:24:57 subprocess_with_logger.py: 24: Running: /tmp/tmpJ2TNu5/6ea951fe0a41/caffe2_benchmark --net /tmp/tmpJ2TNu5/6ea951fe0a41/model.pb --init_net /tmp/tmpJ2TNu5/6ea951fe0a41/model_init.pb --warmup 0 --iter 50 --input gpu_0/data --input_file /tmp/tmpJ2TNu5/6ea951fe0a41/images_tensor.pb --input_type float --output gpu_0/softmax --text_output true --output_folder /tmp/tmpJ2TNu5/6ea951fe0a41/output

/tmp/tmpLwDpGk/caffe2

/tmp/tmpLwDpGk/caffe2/output
INFO 12:25:00 hdb.py: 38: pull /tmp/tmpJ2TNu5/6ea951fe0a41/output/softmax.txt to /tmp/tmpLwDpGk/caffe2/output/softmax.txt
INFO 12:25:00 hdb.py: 40: directory /tmp/tmpJ2TNu5/6ea951fe0a41/output
INFO 12:25:00 hdb.py: 46: filenames /tmp/tmpJ2TNu5/6ea951fe0a41/output/
INFO 12:25:00 benchmark_driver.py: 64: Exception caught when running benchmark
INFO 12:25:00 benchmark_driver.py: 65: [Errno 2] No such file or directory: u'/tmp/tmpJ2TNu5/6ea951fe0a41/output/softmax.txt'
ERROR 12:25:00 benchmark_driver.py: 69: Traceback (most recent call last):

As gpu_0 is prefixed in every node in shufflenet checkpoint.

What's the magic behind "--platform android"

Hello, I'm trying to get benchmarks from my phone running MobilenetV2.

I was reading this document and got one question.

Just passing "--platform=android" is enough to run benchmark binaries? How does this tell where's my phone to the executed binary file? I thought I should set up some "adb" kind of things, but I couldn't find any mention of "adb". Now I am wondering if FAI-PEP has some android simulators that runs binary..

Could you tell me where should I refer to if I want to run FAI-PEP on the phone I connect?

Failed to run benchmark scripts in Android

Hi there,

I just new to here. So I typed by following the tutorial:

benchmarking/run_bench.py -b specifications/models/caffe2/shufflenet/shufflenet.json --platforms android

After a long time compiling, all of compile and link tasks are finished in the build_android folder in my pytorch repo. But it throws an error:

cmake unknown rule to install xxxx

It looks the caffe2_benchmark executable has been generated by failed to copied to the install folder, so I manually copied to the folder, namely:
/home/new/.aibench/git/exec/caffe2/android/2019/4/5/fefa6d305ea3e820afe64cec015d2f6746d9ca88
Then I modified repo_driver.py to avoid compiling again and run function _runBenchmarkSuites
But failed :

In file included from ../third_party/zstd/lib/common/pool.h:20:0,
from ../third_party/zstd/lib/common/pool.c:14:
../third_party/zstd/lib/common/zstd_internal.h:382:37: error: unknown type name ‘ZSTD_dictMode_e’; did you mean ‘FSE_decode_t’?
ZSTD_dictMode_e dictMode,
^~~~~~~~~~~~~~~
FSE_decode_t

Questions:

  1. Any suggestions on how to run the tutorial correctly?
  2. How to avoid the long time compiling for each time running

benchmarking/run_bench.py -b specifications/models/caffe2/shufflenet/shufflenet.json --platforms android

thanks!

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