Opened 6 years ago

Closed 6 years ago

#1468 closed (fixed)

ARCCN Self-Organized Cloud

Reported by: anvial@lvk.cs.msu.su Owned by: peter.stickney@bbn.com
Priority: major Milestone:
Component: GPO Version: SPIRAL7
Keywords: GEC23 Cc: anvial@lvk.cs.msu.su
Dependencies:

Description

Demo Title: ARRCN Self-Organized Cloud Platform

One-sentence layman's description: This demo shows a working prototype of the cloud orchestration platform with VNF use-case demonstration.

Who should see this demo? Attendees interested in cloud computing, DC, NFV, SND, network virtulisahtion and OpenStack should see this demo.

Demo description paragraph(s): TBD…

List of equipment that will need AC connections (e.g. laptop, switch, monitor): 2 Just put in the number of connections needed if your demo description already lists equipment.

Total number of wired network connections (sum standard IP and VLAN connections): 1

Number of wired layer 2 VLANs (if any): 0 Specify VLAN number, if known, approximate bandwidth, and whether tagged or untagged.

Number of wireless network connections (include required bandwidth if significant): 2

Number of static addresses needed (if any): 0

Monitor (specify number, standard/large, and VGA/DVI): large, HDMI or VGA Specify resolution only if your software has resolution restrictions.

Number of posters (max size poster boards are 30" x 40"): 0

Special requests: Require connection to the internet, to get access to Demo-Rack (through VPN) Include any specific network connectivity needs (e.g. VLANs to a particular GENI location, projects you'd like to be near, etc.)

Change History (6)

comment:1 Changed 6 years ago by anvial@lvk.cs.msu.su

Owner: changed from peter.stickney@bbn.com to anvial@lvk.cs.msu.su
Status: newaccepted

comment:2 Changed 6 years ago by anvial@lvk.cs.msu.su

Demo description:

Selforganizing cloud platform (SOC) to deploy virtual networks in DC is presented. The platform supports both IaaS mode and PaaS mode. SOC platform uses some components of OpenStack (Nova, Cinder, Keystone, Rabbit Message Queue) in combination with the original specialized components: OpenFlow controller, orchestrator, unified scheduler for consistent resource allocation, graphical user interface (GUI) for network definition, an extensive “sensor” system for physical resources monitoring and management, and modified OpenStack component Neutron.

SOC cloud platform considered in this paper allows to deploy both manageable and non-manageable virtual networks in the data center. Possibility of virtual resources migration, consistent scheduling and management of computing resources allows one to ensure high load of physical resources and guaranteed SLA compliance for the network as a whole. Request for virtual network creation can be defined either by means of the network description language or by means of GUI.

comment:3 Changed 6 years ago by anvial@lvk.cs.msu.su

Owner: changed from anvial@lvk.cs.msu.su to peter.stickney@bbn.com
Status: acceptedassigned

comment:4 Changed 6 years ago by anvial@lvk.cs.msu.su

Cc: anvial@lvk.cs.msu.su added

comment:5 Changed 6 years ago by peter.stickney@bbn.com

Status: assignedaccepted

Thanks for the demo submission, I'll put you down for one wired network connection, let me know if you need more, not a problem.

Of note, NSF will be looking at this wiki page, so please feel free to update if you notice any errors or wish to update your demo description. We will be updating the page as often as possible.

http://groups.geni.net/geni/wiki/GEC23Agenda/EveningDemoSession

See you in Illinois!

comment:6 Changed 6 years ago by peter.stickney@bbn.com

Resolution: fixed
Status: acceptedclosed

Thanks for coming out to GEC. Feel free to update the wiki page with any additional information.

http://groups.geni.net/geni/wiki/GEC23Agenda/EveningDemoSession

Note: See TracTickets for help on using tickets.