When viewing the Technical Program schedule, on the far righthand side
is a column labeled "PLANNER." Use this planner to build your own
schedule. Once you select an event and want to add it to your personal
schedule, just click on the calendar icon of your choice (outlook
calendar, ical calendar or google calendar) and that event will be
stored there. As you select events in this manner, you will have your
own schedule to guide you through the week.
You can also create your personal schedule on the SC11 app (Boopsie) on your smartphone. Simply select a session you want to attend and "add" it to your plan. Continue in this manner until you have created your own personal schedule. All your events will appear under "My Event Planner" on your smartphone.
Dynamic Circuit Network Services and OpenFlow Integration
SESSION: SCinet Research Sandbox Experiment Results
EVENT TYPE: Research Sandbox
TIME: 11:15AM - 11:30AM
Presenter(s):Aaron Brown, Jeff W. Boote, Tom Lehman, Xi Yang
ROOM:TCC LL2
ABSTRACT: The research and education community has deployed a Dynamic Circuit Network Service (DCN) [1] infrastructure that provides scheduled, dedicated bandwidth, Ethernet VLAN based circuits which can be provisioned on-demand across multiple network domains. Researchers utilize this service for large data transfers and other bandwidth intensive or critical operations that can benefit from scheduled and dedicated network paths and bandwidth. This service has been deployed on multiple networks including Internet2 ION [2], ESnet SDN [3], US LHCNET [4], MAX [5], and other networks in the United States and other countries. In addition, as a result of the National Science Foundation (NSF) DYNES [6] project, the DCN system will be deployed at approximately 40 additional Universities and Regional Networks over the next year.
As the interest in OpenFlow technologies increases it is important that this operational DCN service be provided across and between OpenFlow network regions. The expectation is that the near-term network research infrastructure will be a heterogeneous mix of OpenFlow capable regions and DCN capable regions. The objective is to provide researchers with mechanisms to enable:
• provisioning of DCN services across OpenFlow regions
• utilizing DCN capable networks to stitch together distributed OpenFlow regions to enable OpenFlow specific research to be conducted
This demonstration will show an initial implementation and operational use case to enable the above items.
