David Breitgand  David Breitgand photo         

contact information

STSM, Senior Research Scientist, Research Team & Project Leader, Cloud and Data Technologies
Haifa
  +972dash4dash828dash1007

links

Professional Associations

Professional Associations:  ACM SIGCOMM  |  IEEE Communications Society  |  USENIX: The Advanced Computing Systems Association

profile


 

Bibliographic links

Short Biography

I received my B.Sc., M. Sc, and Ph.D. in Computer Science from the Hebrew University of Jerusalem in 1993, 1998 and 2003 respectively.

I joined IBM Haifa Research Lab (HRL) in the end of 2003, where currently I am team and project leader in the Cloud and Data Technologies group. My research agenda revolves around cost-effective provisioning of networked services with guaranteed performance levels. This main theme motivates my interests in  performance analysis and modeling, resource scheduling, service management, autonomic computing and self-* systems, optimization algorithms, efficient distributed network and systems management, virtualization and cloud computing, fault tolerant and highly available distributed systems, distributed middleware, network protocols and architectures, operating systems, Cloud-based Factories of the Future (FoF), Virtual Supply Chains.

Since Jan 2011, I am serving as a senior adjunct faculty at the School of Computer Science at the Technion -- Israeli Institute of Technology.

 

Serverless Architectures

Functions-as-a-Service (FaaS) has created a lot of interest in the industry and academia recently. My interests in the serverless architecture focus on seamlessly extending IBM CloudFunctions to the edge, facilitating a plethora of new applications in the context of IoT. You can read some more about this activity here: Lean OpenWhisk Open Source FaaS for Edge Computing, Apache OpenWhisk meets Raspberry Pi.

Another aspect of serverless I am interested in is high performance via hardware accellerators: https://medium.com/openwhisk/using-gpus-with-apache-openwhisk-c6773efcccfb

Data Intensive Serverless Computing

I am part of the CloudButton project Serverless Data Analytics Platform. CloudButton will democratize big data by overly simplifying the overall life cycle and programming model thanks to serverless technologies. To demonstrate the impact of the project, we target two settings with large data volumes: bioinformatics (genomics, metabolomics) and geospatial data (LiDAR, satellite).

Serverless Computing in Media Intensive Applications

I am part of the 5G-MEDIA project where our team pioneers ntegration between ETSI MANO and serverless to leverage the advantages of the new computing paradigm for the session based workloads (tele-immersive gaming, mobile content contribution, and ultra-high definition content distribution use cases). In this project we came up with a concept of the "serverless VIM"

As the project evolved, we extended the serverless approach to encompass higher layers of the management and orchestration stack:

Software Defined Manufacturing (SDM) -- past activity

Manufacturing becomes programmable end-to-end across the entire value chain: starting from sourcing of the suppliers of designs, parts, and raw materials; to electronically submitting orders that can be automatically processed on the manufacturer side; to assembly; and to reconfiguration of supply chain relationships on demand. Future manufacturing will be software defined, implying a rich ecosystem of services, systems, manufacturing machines, interconnected into a global manufacturing fabric analogous to how information services are interconnected today on the Internet. Collectively, these services will facilitate Software Defined Supply Chains, opening up a plethora of new business opportunities. My group focuses on developing a robust, cost efficient, secure, and extensible cloud based Manufacturing as a Service (MaaS) ICT platform for B2B collaborative manufacturing. We build upon recent advances in Factories of the Future and take them to the next level of performance, security, dependability, and cost-efficiency. We put an emphasis on integrating Additive Manufacturing (AM) technologies that allow efficient and sustainable use of materials for building complex geometries, with the rest of the manufacturing ecosystem by means of IoT and Cloud. A video presentation at London Business Conferences.
iMADIT: Internet-based Manufacturing Done rIghT -- SDM Platform for Factories of the Future

Professional Activities

  • Associate Editor, Springer's Journal of Network and Systems managements (JONS)Journal of Network and Systems Managements (Springer)
  • 2007-2015: Haifa Research Lab local chair of IBM Professional Interest Community (PIC) on Networking and Communications
  • 2007-2009: served on the department patent evaluation board
  • 2008--2009: IBM HRL representative at the Tel-Aviv University
  • Techical Program Committee member: NOMS'14, IM'13, DCC'13, CNSM'13, NOMS'12, ITC'24 ICC/CQRM'11, NGI'12, CCV'12, NGI'11 CCV'11, IM'11, IM'09, IM'07, IM'05, ICAC'2009, ChinaCom/ICST'10, ChinaCom/ICST'09, NOMS'10, NOMS'08, ITC'21, CCV'10, ECOWS'09-05, Euro-NGI'2009-2008, WEWST'07
  • Reviewer: IEEE/ACM Transactions on Networking (ToN), Journal of Parallel and Distributed Computing (JPDC), IEEE Journal on Network and Services Management (TSNM), IEEE Communications Magazine, IEEE Journal of Communication and Networking (JCN), Journal of Computer Science and Technology and other.

Co-Advised Students

  • graduated: March 2010-December 2011: co-advised Mr. Gilad Kutiel on his M.Sc. thesis "Cost-Aware Live Migration of Virtual Machines in the Cloud", School of Computer Science, Technion -- Israeli Institute of technology; advisor: Prof. Danny Raz

Interns

Current EU H2020 Projects

5G-MEDIA

In 5G-MEDIA, IBM leads an effort aiming at integrating open source “serverless” frameworks, such as OpenWhisk into the 5G-MEDIA platform while adapting and evolving them beyond the state of art to deal with challenging latency and throughput requirements of the media centric applications. The resulting impact will be twofold:

  • Significantly reduce maintenance effort from the platform operator perspective;
  • Allow application developers to quickly develop value added code while relieving them from the infrastructure management concerns.

Past Projects

I was a member of EU-funded RESERVOIR project, where I led research efforts on distributed resource allocation and performance management policies in the framework of a the next generation cloud computing infrastructure being developed by RESERVOIR.

I was a member of the EU-funded Fi-WARE project, where I led research efforts on capacity management for cost-efficient hosting of enterprise grade workloads in the Cloud.