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A Benchmark for Real-Time Relational Data Feature Extraction (VLDB'23 Best Industry Paper Runnerup)

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FEBench: A Benchmark for Real-Time Feature Extraction

LeaderboardData and QueryQuickStartResult UploadingContact



🧗 FEBench is a novel benchmark specifically designed for real-time feature extraction (RTFE) within the domain of online AI inference services. These services are rapidly being deployed in diverse applications, including finance, retail, manufacturing, energy, media, and more.

Despite the emergence of various RTFE systems capable of processing incoming data tuples using SQL-like languages, there remains a noticeable lack of studies on workload characteristics and benchmarks for RTFE.

In close collaboration with our industry partners, FEBench addresses this gap by providing selected datasets, query templates, and a comprehensive testing framework, which signifcantly differs from existing database workloads and benchmarks like TPC-C.

👐 With FEBench, we preliminarily investigate the effectiveness of feature extraction systems together with advanced hardwares, focusing on aspects like overall latency, tail latency, and concurrency performance.

For further insights, please check out our detailed Technical Report and Standard Specification!

👫 Community

We deeply appreciate the invaluable effort contributed by our dedicated team of developers, supportive users, and esteemed industry partners.

🏆 Leaderboard

This leaderboard showcases the performance of executing FEBench on various hardware configurations. Two performance metrics are adopted: (i) Latency defined with the commonly used `top percentiles' in the industry; (ii) Throughput measured in QPS, i.e., the number of requests processed per second.

Leaderboard - Latency

Contributor Hardware Average TP50/90/99 Performance (ms)     Submit Date
Tsinghua Dual Xeon, 755GB DDR4, CentOS 7 21.31/25.1/27.69 2023/8
4Paradigm FusionServer 2288H V7, Dual Xeon, 438GB DDR5, Rocky 9 15.82/18.51/21.8 2023/8

Leaderboard - Throughput

Contributor Hardware Average Performance (ops/s)     Submit Date
Tsinghua Dual Xeon, 755GB DDR4, CentOS 7 479.6 2023/8
4Paradigm FusionServer 2288H V7, Dual Xeon, 438GB DDR5, Rocky 9 685.7 2023/8

Note we utilize the performance results of OpenMLDB as the basis for ranking. To participate, kindly implement FEBench following our Standard Specification and upload your results by following the Result Uploading guidelines.

📜 Data and Query

We have conducted an analysis of both the schema of our datasets and the characteristics of the queries. Please refer to our detailed data schema analysis and query analysis for further information.

🐳 Quickstart

Data Downloading

As the data size is large (~ 60 GB), we have provided two locations to download the dataset:

  • Option 1, HTTP server (located in China mainland): Please use the following command to download (replace <folder_path> with the specific path you are using)
wget -r -np -R "index.html*"  -nH --cut-dirs=3  http://43.138.115.238/download/febench/data/  -P <folder_path>
  • Option 2, OneDrive: You can also download from OneDrive HERE (this copy is compressed, please decompress after downloading).

Run in Docker

We have included a comprehensive testing procedure in a docker for you to try.

  1. Download docker image.
docker pull vegatablechicken/febench:0.5.0-lmem

You can use the image with maven cache, to speed up compilation.

docker pull vegatablechicken/febench:0.5.0-lmem-m2
  1. Run the image.
# note that you need download the data in advance and mount it into the container.
docker run -it -v <data path>:/work/febench/dataset <image id>
  1. Start the clusters, addr is localhost:7181, path is /work/openmldb.
/work/init.sh
  1. update the repository
cd /work/febench
git pull
  1. Enter febench directory and initialize FEBench tests. Image has the env FEBENCH_ROOT and two conf.properties. If you need new conf files:
cd /work/febench
export FEBENCH_ROOT=`pwd`
sed s#\<path\>#$FEBENCH_ROOT# ./OpenMLDB/conf/conf.properties.template > ./OpenMLDB/conf/conf.properties
sed s#\<path\>#$FEBENCH_ROOT# ./flink/conf/conf.properties.template > ./flink/conf/conf.properties
  1. Compile and run the benchmark.
  • OpenMLDB
cd /work/febench/OpenMLDB
./compile_test.sh  #compile test
./test.sh <dataset_ID> #run task <dataset_ID>

image

  • Flink
cd /work/febench/flink
./compile_test.sh <dataset_ID> #compile and run test of task <dataset_ID>
./test.sh #rerun test of task <dataset_ID>

image

For native execution and customizations, you can refer to the guide here.

Memory Usage Reference

Here we show the approximate memory usage and execution time for each task in FEBench for your reference.

Task Q0 Q1 Q2 Q3 Q4 Q5
Memory (GB) 20 6 6 160 30 570
Exe. Time 15min 15min 15min 1hr 1hr 2.5hrs

Note that for larger datasets like Q3, Q4 and Q5, please make sure enough memory is allocated. The memory usage is reduced by setting the table replica numbers to 1 with OPTIONS(replicanum=1) (default value is set to 3), for example as set here.

📧 Result Uploading

The benchmark results are stored at OpenMLDB/logs or flink/logs. If you'd like to share your results, please feel free to send us an email. Please tell us your institution (optional), system configurations, and attach the result file to the email. We appreciate your contribution.

Example of system configurations:

Field Setting
No. of Servers 1
Memory 755 GB DDR4 2666 MT/s
CPU 2xIntel(R) Xeon(R) Gold 6230 CPU @ 2.10GHz
Network 1 Gbps
OS CentOS 7
Tablet Server 3
Name Server 1
OpenMLDB Version v0.8.2
Docker Image Version febench:0.5.0-lmem-m2

📎 Citation

If you use FEBench in your research, please cite:

@article{zhou2023febench,
  author       = {Xuanhe Zhou and
                  Cheng Chen and
                  Kunyi Li and
                  Bingsheng He and
                  Mian Lu and
                  Qiaosheng Liu and
                  Wei Huang and
                  Guoliang Li and
                  Zhao Zheng and
                  Yuqqiang Chen},
  title        = {FEBench: A Benchmark for Real-Time Relational Data Feature Extraction},
  journal      = {Proc. {VLDB} Endow.},
  year         = {2023}
}

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