| 92 | | <td>Deter </a></td> |
| 93 | | <td>Testbed for security experiments consisting of about 200 co-located PCs that can be loaded with an experimenter specified OS image and connected in arbitrary topologies</td> |
| 94 | | <td>Complete PCs</td> |
| 95 | | <td>PCs can be set up as routers</td> |
| 96 | | <td>No</td> |
| 97 | | <td>I2? NLR? Internet</td> |
| 98 | | <td><a href="http://www.protogeni.net"> ProtoGENI Tools</a>, <a href="http://seer.deterlab.net/trac"> SEER </a></td> |
| 99 | | </tr> |
| | 92 | <td> <a href="http://groups.geni.net/geni/wiki/GeniAggregate/MillionNodeGeni"> Million Node GENI </a> </td> |
| | 93 | <td> Compute resources on thousands of platforms donated by individuals and institutions. Platforms may be mobile and/or behind firewalls and NATs. </td> |
| | 94 | <td> Experimenter software, written in a subset of Python, runs in sandboxes on Million Node GENI platforms. </td> |
| | 95 | <td> No </td> |
| | 96 | <td> Million Node GENI includes wireless platforms </td> |
| | 97 | <td> Internet </td> |
| | 98 | <td> <a href="http://www.protogeni.net"> ProtoGENI Tools</a>, Million Node GENI Tools </td> |
| | 99 | </tr> |
| | 100 | </table> |
| | 101 | <p style="font-size:x-small;">GENI Aggregate Providers: Please report errors and omissions in the table above to <a href="mailto:vthomas@bbn.com"> Vic Thomas </a></p> |
| | 102 | }}} |
| | 103 | |
| | 104 | ==== 3.1.2 Programmable Networks ==== |
| | 105 | {{{ |
| | 106 | #!html |
| | 107 | <table border="1"> |
| | 108 | <tr> |
| | 109 | <th><b>Aggregate</b></th> |
| | 110 | <th><b>Description</b></th> |
| | 111 | <th><b>Compute Resources</b></th> |
| | 112 | <th><b>Programmable Network</b></th> |
| | 113 | <th><b>Wireless</b></th> |
| | 114 | <th><b>Network Connectivity</b></th> |
| | 115 | <th><b>Experimenter Tools</b></th> |
| | 116 | <tr> |
| | 117 | </tr> |
| | 118 | |
| | 119 | <tr> |
| | 120 | <td>Supercharged PlanetLab Platform (SPP) Nodes </a></td> |
| | 121 | <td> Five high-performance PlanetLab nodes at Internet2 co-location sites. Nodes incorporate high-performance server and network processor blades to support service delivery over high speed overlay networks. </td> |
| | 122 | <td> Experimenters program the General-Purpose Processing Engines (GPEs) and Network Processor Blades (NPE) of the SPP nodes. </td> |
| | 123 | <td> Yes </td> |
| | 124 | <td> No </td> |
| | 125 | <td> Internet2 </td> |
| | 126 | <td> </td> |
| | 127 | </tr> |
| | 128 | <tr> |
| | 129 | <td> <a href="GeniAggregate/ProtoGeniBackBoneNodes"> ProtoGENI Backbone Nodes </a></td> |
| | 130 | <td> Nodes at 5 Internet2 co-location sites. The ProtoGENI backbone runs Ethernet on a 1Gbps Internet2 wave, and slices it with VLANs. Researchers select the topology of VLANs on this infrastructure. </td> |
| | 131 | <td> No </td> |
| | 132 | <td> Yes </td> |
| | 133 | <td> No </td> |
| | 134 | <td> Internet2: Layer 2 and IP; Internet2 ION service (incl. many ProtoGENI sites); 1 Gbps to GpENI and Wisconsin ProtoGENI site, 10 GBps to Utah ProtoGENI site and Mid-Atlantic Crossroads; connected to SPP and ShadowNet nodes</td> |
| | 135 | <td> <a href="http://www.protogeni.net"> ProtoGENI Tools</a> </td> |
| | 136 | </tr> |
| | 137 | <tr> |
| | 138 | <td>BGP Mux </a></td> |
| | 139 | <td> BGP-session multiplexer that provides stable, on-demand access to global BGP route feeds. Arbitrary and even transient client BGP connections can be provisioned and torn down on demand without affecting globally visible BGP sessions. </td> |
| | 140 | <td> No </td> |
| | 141 | <td> Yes </td> |
| | 142 | <td> No </td> |
| | 143 | <td> Internet2 </td> |
| | 144 | <td> </td> |
| | 145 | </tr> |
| | 146 | <tr> |
| | 147 | <td> Stanford OpenFlow Network </a></td> |
| | 148 | <td> </td> |
| | 149 | <td> </td> |
| | 150 | <td> </td> |
| | 151 | <td> </td> |
| | 152 | <td> Internet2 </td> |
| | 153 | <td> </td> |
| | 154 | </tr> |
| | 155 | <tr> |
| | 156 | <td> Indiana Openflow Network </a></td> |
| | 157 | <td> </td> |
| | 158 | <td> </td> |
| | 159 | <td> </td> |
| | 160 | <td> </td> |
| | 161 | <td> Internet2 </td> |
| | 162 | <td> </td> |
| | 163 | </tr> |
| | 164 | <tr> |
| | 165 | <td> Rutgers Openflow Network </a></td> |
| | 166 | <td> </td> |
| | 167 | <td> </td> |
| | 168 | <td> </td> |
| | 169 | <td> </td> |
| | 170 | <td> Internet2 </td> |
| | 171 | <td> </td> |
| | 172 | </tr> |
| | 173 | <tr> |
| | 174 | <td> <a href="http://groups.geni.net/geni/wiki/GeniAggregate/GpoLabOpenFlow"> GPO Lab Openflow Network </a></td> |
| | 175 | <td> <a href="http://www.openflow.org/"> OpenFlow </a> testbed consisting of three OpenFlow-controlled switches (one each of HP, NEC, and Quanta) and an Expedient AM/OIM/FV stack. </td> |
| | 176 | <td> Computing resources provided by the GPO Lab myPLC and GPO Lab ProtoGENI aggregates </td> |
| | 177 | <td> Yes </td> |
| | 178 | <td> No </td> |
| | 179 | <td> Internet2: IP and Layer 2, NLR: IP and Layer 2 </td> |
| | 180 | <td> OpenFlow tools (<a href="http://noxrepo.org/wp/">NOX</a> and <a href="http://yuba.stanford.edu/~jnaous/expedient/docs/index.html">Expedient</a>), <a href="http://trac.gpolab.bbn.com/gcf/wiki/Omni">Omni</a> </td> |
| | 181 | </tr> |
| | 182 | </table> |
| | 183 | <p style="font-size:x-small;">GENI Aggregate Providers: Please report errors and omissions in the table above to <a href="mailto:vthomas@bbn.com"> Vic Thomas </a></p> |
| | 184 | }}} |
| | 185 | |
| | 186 | ==== 3.1.2 Wireless Testbeds ==== |
| | 187 | {{{ |
| | 188 | #!html |
| | 189 | <table border="1"> |
| | 190 | <tr> |
| | 191 | <th><b>Aggregate</b></th> |
| | 192 | <th><b>Description</b></th> |
| | 193 | <th><b>Compute Resources</b></th> |
| | 194 | <th><b>Programmable Network</b></th> |
| | 195 | <th><b>Wireless</b></th> |
| | 196 | <th><b>Network Connectivity</b></th> |
| | 197 | <th><b>Experimenter Tools</b></th> |
| | 198 | <tr> |
| | 199 | </tr> |
| 118 | | <tr> |
| 119 | | <td> <a href="http://groups.geni.net/geni/wiki/GeniAggregate/MillionNodeGeni"> Million Node GENI </a> </td> |
| 120 | | <td> Compute resources on thousands of platforms donated by individuals and institutions. Platforms may be mobile and/or behind firewalls and NATs. </td> |
| 121 | | <td> Experimenter software, written in a subset of Python, runs in sandboxes on Million Node GENI platforms. </td> |
| 122 | | <td> No </td> |
| 123 | | <td> Million Node GENI includes wireless platforms </td> |
| 124 | | <td> Internet </td> |
| 125 | | <td> <a href="http://www.protogeni.net"> ProtoGENI Tools</a>, Million Node GENI Tools </td> |
| 126 | | </tr> |
| 127 | | <tr> |
| 128 | | <td>ViSE </td> |
| 129 | | <td> Virtualized access to three sensor nodes located in the Amherst, MA area. Sensor nodes include a Davis Pro Vantage Pro2 Weather Station, a Sony SNC-RZ50N Pan-Tilt-Zoom Camera, and a Raymarine RD424 Radome Radar Scanner. </td> |
| 130 | | <td> Linux virtual machines on sensor nodes </td> |
| 131 | | <td> No </td> |
| 132 | | <td> Testbed nodes use long distance 802.11b over directional antenna for communication </td> |
| 133 | | <td> </td> |
| 134 | | <td> </td> |
| | 218 | </table> |
| | 219 | <p style="font-size:x-small;">GENI Aggregate Providers: Please report errors and omissions in the table above to <a href="mailto:vthomas@bbn.com"> Vic Thomas </a></p> |
| | 220 | }}} |
| | 221 | |
| | 222 | ==== 3.1.3 Specialized Aggregates ==== |
| | 223 | {{{ |
| | 224 | #!html |
| | 225 | <table border="1"> |
| | 226 | <tr> |
| | 227 | <th><b>Aggregate</b></th> |
| | 228 | <th><b>Description</b></th> |
| | 229 | <th><b>Compute Resources</b></th> |
| | 230 | <th><b>Programmable Network</b></th> |
| | 231 | <th><b>Wireless</b></th> |
| | 232 | <th><b>Network Connectivity</b></th> |
| | 233 | <th><b>Experimenter Tools</b></th> |
| | 234 | <tr> |
| | 235 | </tr> |
| | 236 | <tr> |
| | 237 | <td>Deter </a></td> |
| | 238 | <td>Testbed for security experiments consisting of about 200 co-located PCs that can be loaded with an experimenter specified OS image and connected in arbitrary topologies</td> |
| | 239 | <td>Complete PCs</td> |
| | 240 | <td>PCs can be set up as routers</td> |
| | 241 | <td>No</td> |
| | 242 | <td>I2? NLR? Internet</td> |
| | 243 | <td><a href="http://www.protogeni.net"> ProtoGENI Tools</a>, <a href="http://seer.deterlab.net/trac"> SEER </a></td> |
| 146 | | <td>Supercharged PlanetLab Platform (SPP) Nodes </a></td> |
| 147 | | <td> Five high-performance PlanetLab nodes at Internet2 co-location sites. Nodes incorporate high-performance server and network processor blades to support service delivery over high speed overlay networks. </td> |
| 148 | | <td> Experimenters program the General-Purpose Processing Engines (GPEs) and Network Processor Blades (NPE) of the SPP nodes. </td> |
| 149 | | <td> Yes </td> |
| 150 | | <td> No </td> |
| 151 | | <td> Internet2 </td> |
| 152 | | <td> </td> |
| 153 | | </tr> |
| 154 | | <tr> |
| 155 | | <td> <a href="GeniAggregate/ProtoGeniBackBoneNodes"> ProtoGENI Backbone Nodes </a></td> |
| 156 | | <td> Nodes at 5 Internet2 co-location sites. The ProtoGENI backbone runs Ethernet on a 1Gbps Internet2 wave, and slices it with VLANs. Researchers select the topology of VLANs on this infrastructure. </td> |
| | 255 | <td>ViSE </td> |
| | 256 | <td> Virtualized access to three sensor nodes located in the Amherst, MA area. Sensor nodes include a Davis Pro Vantage Pro2 Weather Station, a Sony SNC-RZ50N Pan-Tilt-Zoom Camera, and a Raymarine RD424 Radome Radar Scanner. </td> |
| | 257 | <td> Linux virtual machines on sensor nodes </td> |
| 158 | | <td> Yes </td> |
| 159 | | <td> No </td> |
| 160 | | <td> Internet2: Layer 2 and IP; Internet2 ION service (incl. many ProtoGENI sites); 1 Gbps to GpENI and Wisconsin ProtoGENI site, 10 GBps to Utah ProtoGENI site and Mid-Atlantic Crossroads; connected to SPP and ShadowNet nodes</td> |
| 161 | | <td> <a href="http://www.protogeni.net"> ProtoGENI Tools</a> </td> |
| 162 | | </tr> |
| 163 | | <tr> |
| 164 | | <td>BGP Mux </a></td> |
| 165 | | <td> BGP-session multiplexer that provides stable, on-demand access to global BGP route feeds. Arbitrary and even transient client BGP connections can be provisioned and torn down on demand without affecting globally visible BGP sessions. </td> |
| 166 | | <td> No </td> |
| 167 | | <td> Yes </td> |
| 168 | | <td> No </td> |
| 169 | | <td> Internet2 </td> |
| 170 | | <td> </td> |
| 171 | | </tr> |
| 172 | | <tr> |
| 173 | | <td> Stanford OpenFlow Network </a></td> |
| 174 | | <td> </td> |
| 175 | | <td> </td> |
| 176 | | <td> </td> |
| 177 | | <td> </td> |
| 178 | | <td> Internet2 </td> |
| 179 | | <td> </td> |
| 180 | | </tr> |
| 181 | | <tr> |
| 182 | | <td> Indiana Openflow Network </a></td> |
| 183 | | <td> </td> |
| 184 | | <td> </td> |
| 185 | | <td> </td> |
| 186 | | <td> </td> |
| 187 | | <td> Internet2 </td> |
| 188 | | <td> </td> |
| 189 | | </tr> |
| 190 | | <tr> |
| 191 | | <td> Rutgers Openflow Network </a></td> |
| 192 | | <td> </td> |
| 193 | | <td> </td> |
| 194 | | <td> </td> |
| 195 | | <td> </td> |
| 196 | | <td> Internet2 </td> |
| 197 | | <td> </td> |
| 198 | | </tr> |
| 199 | | <tr> |
| 200 | | <td> <a href="http://groups.geni.net/geni/wiki/GeniAggregate/GpoLabOpenFlow"> GPO Lab Openflow Network </a></td> |
| 201 | | <td> <a href="http://www.openflow.org/"> OpenFlow </a> testbed consisting of three OpenFlow-controlled switches (one each of HP, NEC, and Quanta) and an Expedient AM/OIM/FV stack. </td> |
| 202 | | <td> Computing resources provided by the GPO Lab myPLC and GPO Lab ProtoGENI aggregates </td> |
| 203 | | <td> Yes </td> |
| 204 | | <td> No </td> |
| 205 | | <td> Internet2: IP and Layer 2, NLR: IP and Layer 2 </td> |
| 206 | | <td> OpenFlow tools (<a href="http://noxrepo.org/wp/">NOX</a> and <a href="http://yuba.stanford.edu/~jnaous/expedient/docs/index.html">Expedient</a>), <a href="http://trac.gpolab.bbn.com/gcf/wiki/Omni">Omni</a> </td> |
| | 259 | <td> Testbed nodes use long distance 802.11b over directional antenna for communication </td> |
| | 260 | <td> </td> |
| | 261 | <td> </td> |
