Model Asset eXchange: Path to Ubiquitous Deep Learning Deployment
Authors: 
Alex Bozarth, Brendan Dwyer, Fei Hu, Daniel Jalova, Karthik Muthuraman, Nick Pentreath, Simon Plovyt, Gabriela de Queiroz, Saishruthi Swaminathan, Patrick Titzler, Xin Wu, Hong Xu, Frederick R. Reiss, Vijay BommireddipalliAuthors Info & Claims
Pages 2953 - 2956
Abstract
A recent trend observed in traditionally challenging fields such as computer vision and natural language processing has been the significant performance gains shown by deep learning (DL). In many different research fields, DL models have been evolving rapidly and become ubiquitous. Despite researchers' excitement, unfortunately, most software developers are not DL experts and oftentimes have a difficult time following the booming DL research outputs. As a result, it usually takes a significant amount of time for the latest superior DL models to prevail in industry. This issue is further exacerbated by the common use of sundry incompatible DL programming frameworks, such as Tensorflow, PyTorch, Theano, etc. To address this issue, we propose a system, called Model Asset Exchange (MAX), that avails developers of easy access to state-of-the-art DL models. Regardless of the underlying DL programming frameworks, it provides an open source Python library (called the MAX framework) that wraps DL models and unifies programming interfaces with our standardized RESTful APIs. These RESTful APIs enable developers to exploit the wrapped DL models for inference tasks without the need to fully understand different DL programming frameworks. Using MAX, we have wrapped and open-sourced more than 30 state-of-the-art DL models from various research fields, including computer vision, natural language processing and signal processing, etc. In the end, we selectively demonstrate two web applications that are built on top of MAX, as well as the process of adding a DL model to MAX.
References
[1]
Mart'in Abadi, Ashish Agarwal, Paul Barham, Eugene Brevdo, Zhifeng Chen, Craig Citro, Greg S. Corrado, Andy Davis, Jeffrey Dean, Matthieu Devin, Sanjay Ghemawat, Ian Goodfellow, Andrew Harp, Geoffrey Irving, Michael Isard, Yangqing Jia, Rafal Jozefowicz, Lukasz Kaiser, Manjunath Kudlur, Josh Levenberg, Dandelion Mané, Rajat Monga, Sherry Moore, Derek Murray, Chris Olah, Mike Schuster, Jonathon Shlens, Benoit Steiner, Ilya Sutskever, Kunal Talwar, Paul Tucker, Vincent Vanhoucke, Vijay Vasudevan, Fernanda Viégas, Oriol Vinyals, Pete Warden, Martin Wattenberg, Martin Wicke, Yuan Yu, and Xiaoqiang Zheng. 2015. TensorFlow: Large-Scale Machine Learning on Heterogeneous Systems. https://www.tensorflow.org/ Software available from tensorflow.org.
[2]
Kaiming He, Xiangyu Zhang, Shaoqing Ren, and Jian Sun. 2015. Delving Deep into Rectifiers: Surpassing Human-Level Performance on ImageNet Classification. In Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. 2016--1034.
[3]
Andrew G. Howard, Menglong Zhu, Bo Chen, Dmitry Kalenichenko, Weijun Wang, Tobias Weyand, Marco Andreetto, and Hartwig Adam. 2017. MobileNets: Efficient Convolutional Neural Networks for Mobile Vision Applications. arXiv, Vol. abs/1704.04861 (2017).
[4]
Jonathan Huang, Vivek Rathod, Chen Sun, Menglong Zhu, Anoop Korattikara, Alireza Fathi, Ian Fischer, Zbigniew Wojna, Yang Song, Sergio Guadarrama, and Kevin Murphy. 2017. Speed/Accuracy Trade-Offs for Modern Convolutional Object Detectors. In Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition . https://doi.org/10.1109/CVPR.2017.351
[5]
Tsung-Yi Lin, Michael Maire, Serge J. Belongie, Lubomir D. Bourdev, Ross B. Girshick, James Hays, Pietro Perona, Deva Ramanan, Piotr Dollá r, and C. Lawrence Zitnick. 2014. Microsoft COCO: Common Objects in Context. arXiv, Vol. abs/1405.0312 (2014).
[6]
Wei Liu, Dragomir Anguelov, Dumitru Erhan, Christian Szegedy, Scott Reed, Cheng-Yang Fu, and Alexander C. Berg. 2016. SSD: Single Shot MultiBox Detector. In Proceedings of the European Conference on Computer Vision. 21--37. https://doi.org/10.1007/978--3--319--46448-0_2
[7]
Adam Paszke, Sam Gross, Soumith Chintala, Gregory Chanan, Edward Yang, Zachary DeVito, Zeming Lin, Alban Desmaison, Luca Antiga, and Adam Lerer. 2017. Automatic Differentiation in PyTorch. In NIPS Autodiff Workshop .
[8]
David Silver, Aja Huang, Chris J. Maddison, Arthur Guez, Laurent Sifre, George van den Driessche, Julian Schrittwieser, Ioannis Antonoglou, Veda Panneershelvam, Marc Lanctot, Sander Dieleman, Dominik Grewe, John Nham, Nal Kalchbrenner, Ilya Sutskever, Timothy Lillicrap, Madeleine Leach, Koray Kavukcuoglu, Thore Graepel, and Demis Hassabis. 2016. Mastering the Game of Go with Deep Neural Networks and Tree Search. Nature, Vol. 529 (2016), 484--489.
[9]
Theano Development Team. 2016. Theano: A Python Framework for Fast Computation of Mathematical Expressions . arXiv, Vol. abs/1605.02688 (2016).
[10]
Oriol Vinyals, Alexander Toshev, Samy Bengio, and Dumitru Erhan. 2017. Show and Tell: Lessons Learned from the 2015 MSCOCO Image Captioning Challenge. IEEE Transactions on Pattern Analysis and Machine Intelligence, Vol. 39, 4 (2017), 652--663. https://doi.org/10.1109/TPAMI.2016.2587640
Index Terms
- Model Asset eXchange: Path to Ubiquitous Deep Learning Deployment
Recommendations
Applications of Ontology in Management of Information Asset
IIH-MSP '09: Proceedings of the 2009 Fifth International Conference on Intelligent Information Hiding and Multimedia Signal ProcessingAfter being computerized, enterprises import various information assets to enhance competitiveness. In order to make management of information asset more efficient, reduce the difficulty of auditing and make professional knowledge of this domain to ...
VALIDATION OF AN AGENT AND ONTOLOGY-BASED INFORMATION TECHNOLOGY ASSESSMENT SYSTEM
APPLIED INTELLIGENCE AND KNOWLEDGE BASED SYSTEMS: CHALLENGES, APPROACHES, AND CASE STUDIES - PART 2The aim of this article is to present a new method of the validation of an agent and ontology-based information technology assessment system. The characteristics of the proposed multi-agent system are presented followed by a description of some ...
A domain independent framework for extracting linked semantic data from tables
Search ComputingVast amounts of information is encoded in tables found in documents, on the Web, and in spreadsheets or databases. Integrating or searching over this information benefits from understanding its intended meaning and making it explicit in a semantic ...
Comments
Please enable JavaScript to view thecomments powered by Disqus.Information & Contributors
Information
Published In
November 2019
3373 pages
ISBN:9781450369763
DOI:10.1145/3357384
- General Chairs:
- Wenwu Zhu,
- Dacheng Tao,
- Xueqi Cheng,
- Program Chairs:
- Peng Cui,
- Elke Rundensteiner,
- David Carmel,
- Qi He,
- Jeffrey Xu Yu
Copyright © 2019 ACM.
Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than the author(s) must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected].
Sponsors
Publisher
Association for Computing Machinery
New York, NY, United States
Publication History
Published: 03 November 2019
Check for updates
Badges
Best Demo
Author Tags
Qualifiers
- Research-article
Conference
CIKM '19: The 28th ACM International Conference on Information and Knowledge Management
November 3 - 7, 2019
Beijing, China
Acceptance Rates
CIKM '19 Paper Acceptance Rate 202 of 1,031 submissions, 20%;
Overall Acceptance Rate 1,861 of 8,427 submissions, 22%
Upcoming Conference
Contributors
Other Metrics
Bibliometrics & Citations
Bibliometrics
Article Metrics
- 0Total Citations
- 104Total Downloads
- Downloads (Last 12 months)3
- Downloads (Last 6 weeks)1
Reflects downloads up to 09 Nov 2024
Other Metrics
Citations
View Options
Get Access
Login options
Check if you have access through your login credentials or your institution to get full access on this article.
Sign in