| 253 | | {{{ |
| 254 | | #!html |
| 255 | | <h1 style="text-align: center; color: #FF0000"> |
| 256 | | <div class="alignleft" style="width:100%;height:2;border-top:2px solid #FF0000;"></div> |
| | 259 | |
| | 260 | |
| | 261 | {{{ |
| | 262 | #!html |
| | 263 | <h1 style="text-align: center; color: #FFC0CB"> |
| | 264 | <div class="alignleft" style="width:100%;height:5;border-top:10px solid #FFC0CB;"></div> |
| | 265 | }}} |
| | 266 | === SDX and Federation === |
| | 267 | {{{ |
| | 268 | #!html |
| | 269 | <h1 style="text-align: center; color: #FFC0CB"> |
| | 270 | <div class="alignleft" style="width:100%;height:5;border-top:10px solid #FFC0CB;"></div> |
| | 271 | }}} |
| | 272 | |
| | 273 | ==== EON-IDMS ==== |
| | 274 | |
| | 275 | The Earth Observation Depot Network (EODN) is a distributed storage service that capitalizes on resources from the NSF-funded GENI and Data Logistics Toolkit (DLT) projects. The Intelligent Data Movement Service (IDMS), a deployment of the DLT on the NSF-funded GENI cloud infrastructure, realizes EODN to enable open access, reduced latency, and fast downloads of valuable Earth science information collected from satellites and other sensors. Beyond basic storage capacity, the IDMS-EODN system includes mechanisms for optimizing data distribution throughout the depot network while also taking into account the desired locality of user data. Accelerating access enables better synchronization of disparate imagery sets and facilitates new meteorological and atmospheric research applications. |
| | 276 | |
| | 277 | Participants: |
| | 278 | * Ezra Kissel,ekissel@indiana.edu |
| | 279 | |
| | 280 | {{{ |
| | 281 | #!html |
| | 282 | <h1 style="text-align: center; color: #FFC0CB"> |
| | 283 | <div class="alignleft" style="width:100%;height:2;border-top:2px solid #FFC0CB;"></div> |
| | 284 | }}} |
| | 285 | |
| | 286 | ==== GENI Enabled Software Define Exchange (SDX)==== |
| | 287 | |
| | 288 | This demonstration will show a very early prototype for a GENI enabled Software Defined Exchange (SDX) which utilizes Network Service Interface (NSI) for network element control, and includes public cloud resources from Amazon Web Services (AWS) as part of GENI Stitched topologies. The work demonstrated here is driven by a vision for future R&E cyberinfrastructure that consists of an ecosystem of ad hoc and dynamically federated Software Defined Exchanges (SDXs) and Software Defined ScienceDMZs services. GENI technologies are leveraged in the form of the MAX Aggregate Manager which utilizes the GENI Rack Aggregate Manager (GRAM) software for GENI Federation functions. This MAX/GRAM AM utilizes the Open Grid Forum (OGF) NSI protocol to provision services across the network elements within the Washington International Exchange (WIX) located in McLean, Virginia and the MAX Regional Network. |
| | 289 | |
| | 290 | * Tom Lehman,tlehman@umd.edu, Univ of Maryland |
| | 291 | maxyang@umd.edu |
| | 292 | |
| | 293 | {{{ |
| | 294 | #!html |
| | 295 | <h1 style="text-align: center; color: #FFC0CB"> |
| | 296 | <div class="alignleft" style="width:100%;height:2;border-top:2px solid #FFC0CB;"></div> |
| 265 | | |
| 266 | | |
| 267 | | {{{ |
| 268 | | #!html |
| 269 | | <h1 style="text-align: center; color: #FFC0CB"> |
| 270 | | <div class="alignleft" style="width:100%;height:5;border-top:10px solid #FFC0CB;"></div> |
| 271 | | }}} |
| 272 | | === SDX and Federation === |
| 273 | | {{{ |
| 274 | | #!html |
| 275 | | <h1 style="text-align: center; color: #FFC0CB"> |
| 276 | | <div class="alignleft" style="width:100%;height:5;border-top:10px solid #FFC0CB;"></div> |
| 277 | | }}} |
| 278 | | |
| 279 | | ==== EON-IDMS ==== |
| 280 | | |
| 281 | | The Earth Observation Depot Network (EODN) is a distributed storage service that capitalizes on resources from the NSF-funded GENI and Data Logistics Toolkit (DLT) projects. The Intelligent Data Movement Service (IDMS), a deployment of the DLT on the NSF-funded GENI cloud infrastructure, realizes EODN to enable open access, reduced latency, and fast downloads of valuable Earth science information collected from satellites and other sensors. Beyond basic storage capacity, the IDMS-EODN system includes mechanisms for optimizing data distribution throughout the depot network while also taking into account the desired locality of user data. Accelerating access enables better synchronization of disparate imagery sets and facilitates new meteorological and atmospheric research applications. |
| 282 | | |
| 283 | | Participants: |
| 284 | | * Ezra Kissel,ekissel@indiana.edu |
| 285 | | |
| 286 | | {{{ |
| 287 | | #!html |
| 288 | | <h1 style="text-align: center; color: #FFC0CB"> |
| 289 | | <div class="alignleft" style="width:100%;height:2;border-top:2px solid #FFC0CB;"></div> |
| 290 | | }}} |
| 291 | | |
| 292 | | ==== GENI Enabled Software Define Exchange (SDX)==== |
| 293 | | |
| 294 | | This demonstration will show a very early prototype for a GENI enabled Software Defined Exchange (SDX) which utilizes Network Service Interface (NSI) for network element control, and includes public cloud resources from Amazon Web Services (AWS) as part of GENI Stitched topologies. The work demonstrated here is driven by a vision for future R&E cyberinfrastructure that consists of an ecosystem of ad hoc and dynamically federated Software Defined Exchanges (SDXs) and Software Defined ScienceDMZs services. GENI technologies are leveraged in the form of the MAX Aggregate Manager which utilizes the GENI Rack Aggregate Manager (GRAM) software for GENI Federation functions. This MAX/GRAM AM utilizes the Open Grid Forum (OGF) NSI protocol to provision services across the network elements within the Washington International Exchange (WIX) located in McLean, Virginia and the MAX Regional Network. |
| 295 | | |
| 296 | | * Tom Lehman,tlehman@umd.edu, Univ of Maryland |
| 297 | | maxyang@umd.edu |
