Benchmark performance of **any model** on **any supported instance type** on Amazon SageMaker.
Project description
Foundation Model benchmarking tool (FMBT) built using Amazon SageMaker
A key challenge with FMs is the ability to benchmark their performance in terms of inference latency, throughput and cost so as to determine which model running with what combination of the hardware and serving stack provides the best price-performance combination for a given workload.
Stated as business problem, the ask is “What is the dollar cost per transaction for a given generative AI workload that serves a given number of users while keeping the response time under a target threshold?”
But to really answer this question, we need to answer an engineering question (an optimization problem, actually) corresponding to this business problem: “What is the minimum number of instances N, of most cost optimal instance type T, that are needed to serve a workload W while keeping the average transaction latency under L seconds?”
W: = {R transactions per-minute, average prompt token length P, average generation token length G}
This foundation model benchmarking tool (a.k.a. FMBT
) is a tool to answer the above engineering question and thus answer the original business question about how to get the best price performance for a given workload. Here is one of the plots generated by FMBT
to help answer the above question (the numbers on the y-axis, transactions per minute and latency have been removed from the image below, you can find them in the actual plot generated on running FMBT
).
Description
The FMBT
is a Python package for running performance benchmarks for any model on any supported instance type (g5
, p4d
, Inf2
). FMBT
deploys models on Amazon SageMaker and use the endpoint to send inference requests to and measure metrics such as inference latency, error rate, transactions per second etc. for different combinations of instance type, inference container and settings such as tensor parallelism etc. Because FMBT
works for any model therefore it can be used not only testing third party models available on SageMaker, open-source models but also proprietary models trained by enterprises on their own data.
In a production system you may choose to deploy models outside of SageMaker such as on EC2 or EKS but even in those scenarios the benchmarking results from this tool can be used as a guide for determining the optimal instance type and serving stack (inference containers, configuration).
FMBT
can be run on any AWS platform where we can run Python, such as Amazon EC2, Amazon SageMaker, or even the AWS CloudShell. It is important to run this tool on an AWS platform so that internet round trip time does not get included in the end-to-end response time latency.
The workflow for FMBT
is as follows:
Create configuration file
|
|-----> Deploy model on SageMaker
|
|-----> Run inference against deployed endpoint(s)
|
|------> Create a benchmarking report
-
Create a dataset of different prompt sizes and select one or more such datasets for running the tests.
-
Deploy any model that is deployable on SageMaker on any supported instance type (
g5
,p4d
,Inf2
).- Models could be either available via SageMaker JumpStart (list available here) as well as models not available via JumpStart but still deployable on SageMaker through the low level boto3 (Python) SDK (Bring Your Own Script).
- Model deployment is completely configurable in terms of the inference container to use, environment variable to set,
setting.properties
file to provide (for inference containers such as DJL that use it) and instance type to use.
-
Benchmark FM performance in terms of inference latency, transactions per minute and dollar cost per transaction for any FM that can be deployed on SageMaker.
- Tests are run for each combination of the configured concurrency levels i.e. transactions (inference requests) sent to the endpoint in parallel and dataset. For example, run multiple datasets of say prompt sizes between 3000 to 4000 tokens at concurrency levels of 1, 2, 4, 6, 8 etc. so as to test how many transactions of what token length can the endpoint handle while still maintaining an acceptable level of inference latency.
-
Generate a report that compares and contrasts the performance of the model over different test configurations and stores the reports in an Amazon S3 bucket.
- The report is generated in the Markdown format and consists of plots, tables and text that highlight the key results and provide an overall recommendation on what is the best combination of instance type and serving stack to use for the model under stack for a dataset of interest.
- The report is created as an artifact of reproducible research so that anyone having access to the model, instance type and serving stack can run the code and recreate the same results and report.
-
Multiple configuration files that can be used as reference for benchmarking new models and instance types.
Getting started
FMBT
is available as a Python package on PyPi and is run as a command line tool once it is installed. All data that includes metrics, reports and results are stored in an Amazon S3 bucket.
Prerequisites
Follow the prerequisites below to set up your environment before running the code:
-
Python 3.11: Setup a Python 3.11 virtual environment and install
FMBT
.python -m venv .fmbt pip install fmbt==1.0.0
-
S3 buckets for test data, scripts, and results: Create two buckets within your AWS account:
-
Read bucket: This bucket contains
tokenizer files
,prompt template
,source data
anddeployment scripts
stored in a directory structure as shown below.FMBT
needs to have read access to this bucket.s3://<read-bucket-name> ├── source_data/ ├── source_data/<source-data-file-name>.json ├── prompt_template/ ├── prompt_template/prompt_template.txt ├── scripts/ ├── scripts/<deployment-script-name>.py ├── tokenizer/ ├── tokenizer/tokenizer.json ├── tokenizer/config.json
-
The details of the bucket structure is as follows:
-
Source Data Directory: Create a
source_data
directory that stores the dataset you want to benchmark with.FMBT
usesQ&A
datasets from theLongBench dataset
or alternatively from this link. Support for bring your own dataset will be added soon.-
Download the different files specified in the LongBench dataset into the
source_data
directory. Following is a good list to get started with:2wikimqa
hotpotqa
narrativeqa
triviaqa
Store these files in the
source_data
directory.
-
-
Prompt Template Directory: Create a
prompt_template
directory that contains aprompt_template.txt
file. This.txt
file contains the prompt template that your specific model supports.FMBT
already supports the prompt template compatible withLlama
models. -
Scripts Directory:
FMBT
also supports abring your own script (BYOS)
mode for deploying models that are not natively available via SageMaker JumpStart i.e. anything not included in this list. Here are the steps to use BYOS.-
Create a Python script to deploy your model on a SageMaker endpoint. This script needs to have a
deploy
function that1_deploy_model.ipynb
can invoke. Seep4d_hf_tgi.py
for reference. -
Place your deployment script in the
scripts
directory in your read bucket. If your script deploys a model directly from HuggingFace and needs to have access to a HuggingFace auth token, then create a file calledhf_token.txt
and put the auth token in that file. The.gitignore
file in this repo has rules to not commit thehf_token.txt
to the repo. Today,FMBT
provides inference scripts for:- All SageMaker Jumpstart Models
- Text-Generation-Inference (TGI) container supported models
- Deep Java Library DeepSpeed container supported models
Deployment scripts for the options above are available in the scripts directory, you can use these as reference for creating your own deployment scripts as well.
-
-
Tokenizer Directory: Place the
tokenizer.json
,config.json
and any other files required for your model's tokenizer in thetokenizer
directory. The tokenizer for your model should be compatible with thetokenizers
package.FMBT
usesAutoTokenizer.from_pretrained
to load the tokenizer.As an example, to use the
Llama 2 Tokenizer
for counting prompt and generation tokens for theLlama 2
family of models: Accept the License here: meta approval form and download thetokenizer.json
andconfig.json
files from Hugging Face website and place them in thetokenizer
directory.
-
-
-
Write bucket: All prompt payloads, model endpoint and metrics generated by
FMBT
are stored in this bucket.FMBT
requires write permissions to store the results in this bucket. No directory structure needs to be pre-created in this bucket, everything is created byFMBT
at runtime.s3://<write-bucket-name> ├── <test-name> ├── <test-name>/data ├── <test-name>/data/metrics ├── <test-name>/data/models ├── <test-name>/data/prompts
-
Steps to run
-
pip install
theFMBT
package from PyPi. -
Create a config file using one of the config files available here.
- The configuration file is a YAML file containing configuration for all steps of the benchmarking process. It is recommended to create a copy of an existing config file and tweak it as necessary to create a new one for your experiment.
-
Create the read and write buckets as mentioned in the prerequisites section. Mention the respective directories for your read and write buckets within the config files.
-
Run the
FMBT
tool from the command line.# the config file path could be an S3 path and https path # or even a path to a file on the local filesystem fmbt --config-file \path\to\config\file
-
Depending upon the experiments in the config file, the
FMBT
run may take a few minutes to several hours. Once the run completes, you can find the report and metrics in the write S3 bucket set in the config file. The report is generated as a markdown file calledreport.md
and is available in the metrics directory in the write S3 bucket.
Results
Here is a screenshot of the report.md
file generated by FMBT
.
Building the FMBT
Python package
The following steps describe how to build the FMBT
Python package.
-
Clone the
FMBT
repo from GitHub. -
Make any code changes as needed.
-
Install
poetry
.pip install poetry
-
Change directory to the
FMBT
repo directory and run poetry build.poetry build
-
The
.whl
file is generated in thedist
folder. Install the.whl
in your current Python environment.pip install .\dist\fmbt-X.Y.Z.tar.gz
-
Run
FMBT
as usual through thefmbt
CLI command.
Pending enhancements
The following enhancements are identified as next steps for FMBT
.
-
[Highest priority] Convert
FMBT
to a Python package and publish on PyPi. -
Containerize
FMBT
and provide instructions for running the container on EC2. -
Add code to determine the cost of running an entire experiment and include it in the final report. This would only include the cost of running the SageMaker endpoints based on hourly public pricing (the cost of running this code on a notebook or a EC2 is trivial in comparison and can be ignored).
-
Support for a custom token counter. Currently only the LLama tokenizer is supported but we want to allow users to bring their own token counting logic for different models.
-
Support for different payload formats that might be needed for different inference containers. Currently the HF TGI container, and DJL Deep Speed container on SageMaker both use the same format but in future other containers might need a different payload format.
-
Emit live metrics so that they can be monitored through Grafana via live dashboard.
-
Allow users to publish their experiment configs and results by doing a POST to an AWS Lambda that writes results to a common S3 bucket that can serve as storage for a simple website.
-
Create a leaderboard of model benchmarks.
View the ISSUES on github and add any you might think be an beneficial iteration to this benchmarking harness.
Security
See CONTRIBUTING for more information.
License
This library is licensed under the MIT-0 License. See the LICENSE file.
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