Cloud Services for Education · Service adoption and user population unknown Use of container...
Transcript of Cloud Services for Education · Service adoption and user population unknown Use of container...
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Cloud Services for Education
Up2University Project at CERN-IT and UniGE Physiscope
Margherita Boselli (University of Geneva) Enrico Bocchi (CERN, IT-ST) Jakub T. Mościcki (CERN, IT-ST)
IT Technical Forum CERN, 24 Nov 2017
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2 Outline Up2U Introduction Technology Physiscope Conclusions
Table of Contents
1.
The Up2U Project Context at CERN
Background & Introduction
2.
Technical Architecture & Deployment
Development of Up2U services at CERN
3.
Summer experiment with Up2U for Physiscope
Collaboration with University of Geneva
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The Up to University Project
Up2U
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Outline Up2U Introduction Technology Physiscope Conclusions
Up2U Project
EC Call ICT-22-2016: Technologies for Learning and Skills
5M EUR funding for 3 years
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18 partners (Academia, Research, Industry, NRENs)
12 countries in Europe
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Outline Up2U Introduction Technology Physiscope Conclusions
Up2U Goals
Objective
Bridge the gap between secondary schools, higher education, and the research domain Adopt technology and methodology
Bonus: Get kids interested and involved in science early on
Target audience Kids 12-18 years old & their teachers
Practical outcome Pilot service for ~400 schools
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Outline Up2U Introduction Technology Physiscope Conclusions
Technology
Up2Universe platform
Create, share, and collaborate on educational content
Formal learning Support for teachers: Courses,
assignments, resources
Informal learning Experimentation, peer-to-peer
learning, social interactions
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Integrating existing open-source tools & services
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Outline Up2U Introduction Technology Physiscope Conclusions
Methodology
Shift from industrial to organic education
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Fixed schedule Changing subjects
Linear development Standard assessment
Personalized Outside and inside school involvement
Flipped classes Close community links New role of teachers
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Outline Up2U Introduction Technology Physiscope Conclusions
Up2U at CERN
Let the kids use the very same tools & services used by real researchers doing Big Science at CERN
Sharing the same tools = removing the technology friction between these two worlds
Opportunity for feedback and collaboration Existing outreach programmes at CERN
Neighboring institutions (e.g. local universities)
Growing interest in education from the Physics community Open Data, …
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Outline Up2U Introduction Technology Physiscope Conclusions
Outreach opportunities at CERN
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F.Gianotti, Jan 2017
Many Edu/Outreach projects target high schools and teachers
Ongoing discussion with Edu/Outreach teams (IR-ECO) on future opportunities for collaborating on Up2U
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Outline Up2U Introduction Technology Physiscope Conclusions
Technology: What makes it hard…
Traditionally Big Science tools require “Big Expertise”
It’s usually quite hard to Setup and use the tools
Access to data
Share the “data analysis code & data”
Even harder to “export” the environment and tools to set them up elsewhere
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Outline Up2U Introduction Technology Physiscope Conclusions
Technology: What makes it plausible…
Jupyter Notebooks Full data science environment in a web browser
Evolution of analysis service for physics at CERN
Dropbox-like Cloud Storage Easy sharing and access from any device
Container and Virtualization Services Simple and quick deployment anywhere
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EP-SFT
IT-CM
IT-ST
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Outline Up2U Introduction Technology Physiscope Conclusions
Jupyter Notebooks: Technology of wider interest
Notebooks are playable, interactive documents Similar to Matlab or Mathematica
“read a book and play with it as you go”
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Outline Up2U Introduction Technology Physiscope Conclusions
Outreach Notebooks from Physics Community
Notebooks are playable, interactive documents Similar to Matlab or Mathematica
“read a book and play with it as you go”
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Hiukkasfysiikan avoin data opetuksessa Particle open data teaching
Paavo Rikkilä
CMS Open Data
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Outline Up2U Introduction Technology Physiscope Conclusions
Jupyter Notebook Example
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Embed images
Write rich text in Markdown format
Write code and run it
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Outline Up2U Introduction Technology Physiscope Conclusions
CERN cloud services for Up2Universe platform
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Students
Teachers
Notebooks
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Outline Up2U Introduction Technology Physiscope Conclusions
Access from any device anywhere
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Outline Up2U Introduction Technology Physiscope Conclusions
Backed by scalable storage technology
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Outline Up2U Introduction Technology Physiscope Conclusions
Up2U Timeline
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Methodology & Content
Technology & Infrastructure
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Outline Up2U Introduction Technology Physiscope Conclusions
Early prototyping and experimentation
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CERN tools & services Integration Deployment
Early-on experimentation a real setting Informal MicroExperiment
Methodology & Content Technology
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The Up2U Platform
Up2Universe
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21 Outline Up2U Introduction Technology Physiscope Conclusions
Up2Universe Toolbox
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22 Outline Up2U Introduction Technology Physiscope Conclusions
Up2Universe Toolbox
Recording and Publishing
Open Educational Content
Public and private content repositories
Learning Management System
https://up2university.eu
Federated SSO and group management
Federated Sync & Share
Web front-end
• Content Delivery • Wi-Fi coverage
Network access
Interactive Notebooks with Sharing
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23 Outline Up2U Introduction Technology Physiscope Conclusions
Up2Universe: Architecture
eduGAIN OpenID Orcid
Social Networks
LDAP
https://up2university.eu
AAI
Group management
LMS
Up2U playground
Up2U Toolbox Proxy
Apps
eduOER aggregator
Content Providers
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24 Outline Up2U Introduction Technology Physiscope Conclusions
Up2Universe: Connecting schools
eduGAIN OpenID Orcid
Social Networks
LDAP
https://up2university.eu
AAI
Group management
LMS
Up2U playground
Up2U Toolbox Proxy
Apps
eduOER aggregator
Content Providers
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25 Outline Up2U Introduction Technology Physiscope Conclusions
Up2Universe: Connecting schools
eduGAIN OpenID Orcid
Social Networks
LDAP
https://up2university.eu
AAI
Group management
LMS
Up2U playground
Up2U Toolbox Proxy
Apps
eduOER aggregator
Content Providers
NREN Cloud
NREN IdP
School A
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26 Outline Up2U Introduction Technology Physiscope Conclusions
Up2Universe: Connecting schools
eduGAIN OpenID Orcid
Social Networks
LDAP
https://up2university.eu
AAI
Group management
LMS
Up2U playground
Up2U Toolbox Proxy
Apps
eduOER aggregator
Content Providers
NREN Cloud
School A
NREN IdP
School B
School IdP Apps
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27 Outline Up2U Introduction Technology Physiscope Conclusions
Up2Universe across countries
CERN
PSNC
GWDG
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28 Outline Up2U Introduction Technology Physiscope Conclusions
Cloud Federation with Open Cloud Mesh
GWDG
CERN
Open Cloud Mesh
Federated content sharing beyond the borders of individual clouds
Ease the dissemination of high quality content for teaching
PSNC
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29 Outline Up2U Introduction Technology Physiscope Conclusions
CERNBox and SWAN in Up2Universe
Need of a flexible, scalable, and highly-available deployment model Up2U architecture evolves to accommodate new requirements
Service adoption and user population unknown
Use of container technologies Self-contained, light-weight
Deterministic and repeatable deployment
Enable rapid prototyping and easy distribution of software
In-house expertise from IT-CM group • CERN Container Service
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30 Outline Up2U Introduction Technology Physiscope Conclusions
Containerized CERN-IT Technology
Development of Boxed
+ +
• Single-box installation via docker-compose
• No configuration required
• Download and run services in 15 minutes
https://github.com/cernbox/uboxed
One-Click demo Deployment
• Container orchestration with Kubernetes
• Ability to scale according to storage and computing needs
• Tolerant to node failure for high-availability
https://github.com/cernbox/kuboxed
Production-oriented Deployment
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31 Outline Up2U Introduction Technology Physiscope Conclusions
Containerized CERN-IT Technology
Development of Boxed
File Servers eos-fst{1..N}
Sync Client
Namespace eos-mgm
Messaging eos-mq
EOS
CERNBox
SWAN
CERNBox Web Server cernbox
EOS Access eos-fuse
Software cvmfs
Users Authentication and session orchestration
JupyterHub
N Single-user Jupyter containers
jupyter-user0 jupyter-userN
…
…
CERNBox cernboxgateway
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32 Outline Up2U Introduction Technology Physiscope Conclusions
Containerized CERN-IT Technology
Applications of Boxed go beyond Up2U
Concrete example of CERN core technologies running in containers
“disposable” deployment for testing and development
within IT-ST and EP-SFT groups
Porting improvements to upstream production
Simplified try-out and deployment for partners • Australia's Academic and Research Network (AARNET)
• Saint Petersburg State University, Saint Petersburg, Russia
• National Research Center “Kurchatov Institute”, Moscow, Russia
• Academia Sinica Grid Computing Centre (ASGC), Taipei, Taiwan
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33 Outline Up2U Introduction Technology Physiscope Conclusions
Containerized CERN-IT Technology
Single-box deployment running on multiple clouds
Amazon Web Services
Helix Nebula Cloud (T-Systems & IBM)
Poznań Supercomputing and Networking Center (PSNC)
Greek Research and Technology Network (GRnet)
OpenStack at CERN
Your own laptop!
Production-oriented deployment with Kubernetes on
OpenStack at CERN
CERN Container Service (on-going effort)
Pilot service for Up2U
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34 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U Pilot at CERN
Up2U Pilot for participant schools starting in early 2018
CERN will be a piloting site together with PSNC Containerized version of EOS, CERNBox, and SWAN in production
Several deployment scenarios foreseen Self-managed cluster of OpenStack VMs
Cluster of containers via CERN Container Service
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35 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U Pilot at CERN
Up2U Pilot for participant schools starting in early 2018
CERN will be a piloting site together with PSNC Containerized version of EOS, CERNBox, and SWAN in production
Several deployment scenarios foreseen Self-managed cluster of OpenStack VMs
Cluster of containers via CERN Container Service
Hybrid cluster with physical and virtual machines
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36 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U Pilot at CERN
Up2U Pilot for participant schools starting in early 2018
CERN will be a piloting site together with PSNC Containerized version of EOS, CERNBox, and SWAN in production
Several deployment scenarios foreseen
Integrated with CERN Single Sign-On User log-in via eduGAIN credentials
No CERN account required
Consolidated technology approved by CERN Computer Security
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37 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U MicroExperiment
Would tools for Big Science work for high schools students? Are they easy and intuitive enough for the context?
Is the interface eye-catchy and friendly?
How to learn to use them properly?
The Idea – Up2U MicroExperiment Leverage short-term apprenticeships at CERN for high-school students
Early road test of CERN services for Up2U
Asset for Up2U development and fulfillment
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38 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U MicroExperiment
Our Apprentice Maja – 16 years old student from the UK
• Two years from university
• General Certificate of Secondary Education (GCSE) this year
• Interested in physics and mathematics
The Goal Produce interesting content as example of Up2U platform
Try-out Up2U platform in the setting of an educational facility
Provide an example of interaction between Big Science and high-schools
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39 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U MicroExperiment
The Preparation Identification of scientific topic of her interest
and part of her study plan: Superconductivity
Swan 101 Training • Few readings, many working examples!
• Python Coding, data analysis, plots, …
The Execution Assigned task: Create a reportage of her journey
Physiscope: Collect scientific data as a real scientist!
CERN: Describe her voyage through experiments sites
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University of Geneva
Physiscope
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41 Outline Up2U Introduction Technology Physiscope Conclusions
Physiscope
Physiscope is an outreach programme established in 2007 with the education mandate defined by the Swiss National Science Foundation
This project has been developed in collaboration with the Physics Department of the University of Geneva (UniGE)
It consists of an open laboratory where are organized interactive lessons covering different topics of physics. All the lessons are strongly linked to the contemporary scientific research
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42 Outline Up2U Introduction Technology Physiscope Conclusions
Physiscope
The Goal This programme aims at motivating young people to choose a scientific career
The first step is changing the negative perception of students towards science, physics in particular
The Tools The approach used by Physiscope is based on the so-called “hands-on science”:
The audience does not attend a frontal lesson but is actively involved in the experiments!
The sessions take place in a dedicated laboratory located next to real research labs
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43 Outline Up2U Introduction Technology Physiscope Conclusions
Physiscope
The Target The Physiscope activities are opened to the general public but the main
targets are 12–19 years old students from middle- and high-schools
Some Numbers This programme is very well known and appreciated in the Geneva area
The number of visitors is still growing: In the past few years the average number of session is 330/year for more than 5000 students
The Physics department is now studying the correlation between the observed increase of the physics 1st year students and the Physiscope programme
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44 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U MicroExperiment
A prototype implementation of the Up2U project 1 week in August 2017
A 16 years old high school student from UK
Physiscope educational content
CERN-IT tools & services
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45 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U MicroExperiment at Physiscope
The scientific framework of this project is the Superconductivity
Phase 1 Qualitative and Quantitative study of the phenomenon
Experiments on electrostatics and the electronic properties of materials
Cryogenics
The zero-resistance state
The Meissner effect
Measurement of the R vs T characteristic of a commercial superconducting tape (YBCO)
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46 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U MicroExperiment at CERN
The scientific framework of this project is Superconductivity
Phase 2 She visited the main CERN facilities focusing on
the application of superconductivity Magnetic dipoles, RF-cavities, detector components, …
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47 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U MicroExperiment
During her stay, she used the infrastructure provided by CERN-IT services to
Share
Sync/Store
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48 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U MicroExperiment
Report/Present
Analyse
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49 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U MicroExperiment
Descriptive notebook
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50 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U MicroExperiment
Analysis notebook
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51 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U MicroExperiment
The Main Outcomes Production of good quality educational material
potentially useful for future developments at Physiscope
Power of ready-to-go services for data treatment and sharing
Physics and computer science in education: The outreach activities often focus on the physics phenomena and do not consider the technological tools that scientists use to understand them. This is crucial for “Up to University students”!
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52 Outline Up2U Introduction Technology Physiscope Conclusions
Physiscope + Up2U
How Physiscope could benefit from Up2U services
After an ordinary visit, interested classes could have access to the Up2U platform
Access to data, informatics tools, and analysis templates
Sharing of scientific materials with other schools and outreach institutions
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53 Outline Up2U Introduction Technology Physiscope Conclusions
Scienscope + Up2U
In 2018 different “scopes” will be officially grouped in a unique institution
The Up2U platform would be an interesting opportunity to improve their activities and the scientific dialog among them and with other research centers
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Conclusions
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55 Outline Up2U Introduction Technology Physiscope Conclusions
Conclusions
Integration of existing CERN tools & services into Up2U platform
Contribution to the development of services for physics users at CERN
Positive collaborations across CERN groups and departments EP-SFT, IT-CM, IR-ECO, Open Data initiatives, …
Up2U MicroExperiment produced very encouraging results Valuable educational materials as interactive notebooks
Good basis for future collaborations with University of Geneva and Outreach programmes at CERN
Thanks to the colleagues who helped in preparing the MicroExperiment!
https://twitter.com/i/moments/894136600254349313
Up To University
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56 Outline Up2U Introduction Technology Physiscope Conclusions
Future Directions
Piloting Up2Universe to candidate schools User feedback will drive the evolution of the platform
Collaborations within CERN on Outreach and Education Concrete use cases driven by existing outreach activities
Intersection between Up2U and, e.g., S’CoolLab and teacher programmes
Collaboration with UniGE Physiscope Potential users of Up2U services
Allow visitors to access additional resources after their session
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Cloud Services for Education
Up2University Project at CERN-IT and UniGE Physiscope
Margherita Boselli (University of Geneva) Enrico Bocchi (CERN, IT-ST)
Jakub T. Mościcki (CERN, IT-ST)
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Backup Slides
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60 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U Working Packages
60
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61 Outline Up2U Introduction Technology Physiscope Conclusions
Up2U Working Packages
61
• Interaction with science lab
• Educational materials with scientific content
• Up2U MicroExperiment: Student summer apprenticeship
WP5
• CERNBox – File Sync&Share
• Open Cloud Mesh (OCM) – Federation of cloud storage spaces
• SWAN – Jupyter Notebooks
WP3
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62 Outline Up2U Introduction Technology Physiscope Conclusions
Open Data for Education
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63 Outline Up2U Introduction Technology Physiscope Conclusions
Open Data for Education
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64 Outline Up2U Introduction Technology Physiscope Conclusions
Cloud Services for Synchronisation and Sharing – CS3
2014 - CERN 2016 – ETH Zurich 2017 - SURFsara 2018 - Cyfronet