[[Include(WikiToC)]] = Resources, Services and APIs Everything that Experimenters can interact with is referred to as a [wiki:Resources Resource] To run an experiment, you will configure the resources that you need. This includes: * Compute * capable of having disk images loaded and saved * users can log into them with ssh after provisioning * Software Defined Radios * FPGA images loaded with UHD * Radio paramaters controlled with UHD or other API * RF Frontends * api to control switches, filters, and gain * Network switches * connectivity defined with API * Optical Devices * space switch, roadms, and other devices controlled with optical config service Note, some resources will fall into more than one of the above categories, such as a compute machine with integrated SDR, like the [wiki:Hardware/sdr/usrp2974 USRP 2974] == RF Control == A number of services is availabe for experimenters to manage various aspects of domains and resources. These include: * [wiki:Resources/Services/RFSwitch RF Switch] management service: service for management of RF switches in various sandbox nodes. * Node [wiki:Resources/Services/RFControl RF control] service: management of the RF front-end in large and medium outdoor nodes. == SDR Control == * [wiki:Resources/Notes/KryptonUsage USRP 2974 Driver Installation and Access] * [wiki:Resources/Notes/N310Usage USRP N310 Configuration and Access] * [wiki:Resources/Notes/SerialConsole Node Serial Console] == Compute Control == * [wiki:Resources/Images Disk Images] * [wiki:Resources/Notes/LatencyTuning OS Latency Tuning] == Network Control == == Optical Control == ==== Resources ==== REFERENCE: J. Yu, C. Gutterman, A. Minakhmetov, M. Sherman, T. Chen, S. Zhu, G. Zussman, I. Seskar, and D. Kilper, “Dual use SDN controller for management and experimentation in a field deployed testbed,” in Proc. OSA OFC’20, T3J.3, 2020. CONTACT: Jiakai Yu More details in the attached slides. === SDN controller architecture === SDN controller core functionalities: || [[Image(SDN_CONTROL.png, width=1200px)]] || === Transmission setup === COSMOS optical topology overview: || [[Image(COSMOS_optical_topology.png, width=1400px)]] || One of the default COSMOS Transmission setups is the ring network: || [[Image(RING_topo.png, width=1400px)]] || || [[Image(default topo.png, width=1400px)]] || === User JSON format request examples === ==== Add a light-path through multiple ROADMs with RWA ==== {"Request_Class": "**addPathConnection**", “direction": "bi-direction", "source_node_ip": "1.1.1.1", "source_node_port": "1", "destination_node_ip": "1.1.1.2", "destination_node_port": "1", "connection_name": "cosmos", "connection_id": “1", "channel_id": "50"} ==== Monitor WSS connection information of a ROADM ==== {"Request_Class": "**MonitorWSS**", "node_ip": "1.1.1.1"} ==== Configure a single ROADM WSS connection ==== {"Request_Class": "**ConfigWSS**", "node_ip": "1.1.1.1", "name": "cosmos", "module_id": "2", "connection_id": "1", ’ "input_port": "5101", "output_port": "5203", "start_freq": "194600.00", "end_freq": "194650.00", "attenuation": "4.0", "status": "in-service", "block": "false"} ==== Set up cross-connections in Calient S320 ==== {"Request_Class": "**SetupCRS**", "crs": ["5.7.6>5.8.5","5.7.7>5.8.6"]} === Page Map === [[TOC(Resources/*,inline,nonumbering,notitle,noheading,depth=3)]]