Experiment Lifecycle Sample Clauses

Experiment Lifecycle. The use cases described in following paragraphs all follow this experiment lifecycle
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Experiment Lifecycle. In this section, are explained in details all the steps that an Experimenter shall follow in order to access the platform, define an experiment and deploy/provision it. The information provided below are also available as part of the official documentation online: xxxx://xxxx.xxxxxxxx.xx/getting-started/
Sample 1Sample 2
Experiment Lifecycle. However, at the time of writing this tutorial, new development has been done on the SoftFIRE middleware. For that reason, we suggest to follow the more up to date SoftFIRE Experimenter guidelines and usage manual, always available here at our documentation website [5]. The life cycle of an experiment is depicted in Figure 8: • Design phase o List resources: listing all the available resources. o Define the experiment: based on the previous step, decide what to reserve and define the experiment in order to fulfil your requirement. • Provision phase o Resource reservation and provisioning: first reserve a timeslot to access the resources (in the case of LTE and other radio resources an exclusive access is of importance to avoid interferences). Then deploy the experiment defined in the previous step. • Runtime phase o Resource monitoring: once deployed, if the monitoring of the resources were selected in the previous steps, it will be possible to monitor the deployed resources using a monitoring server dedicated to the experimenter o Resource control at runtime: It is also possible to access remotely some of the virtual resources when deployed correctly and additionally some external services, such as auto scaling will be available. • Closing phase o Resource termination: when the experiment is finished, either because the time has expired or because the experimenter has finished, the resources will be released.
Sample 1
Experiment Lifecycle. The life cycle of an experiment is depicted in Figure 15: Experiment Lifecycle. The actual conduction usually consists of the following steps the experimenter takes:  Discovery: o List the resources that are available on the testbed/federation.  Requirements: o Select and formally specify the resources the experimenter aims to use for performing the experiment.  Reservation: o Reserve a timeslot to access the resources; in the case of LTE and other radio resources an exclusive access is of importance to avoid interferences.  Provision: o In this step the resources are provisioned for the experimenter. E.g. this can be the inclusion of the experimenters ssh key to provide such access or start-up of core network services with configuration parameters specified by the experimenter.  Monitoring: o The setup of appropriate monitoring tools, so that during the experiments' execution the resources are being monitored for subsequent evaluation.  Usage: o The actual experiment is run in this phase  Termination: o After the experiment is finalized, the resources have to be released and restored. All of these experiment life cycle steps are support by mechanisms for identity management, authorization and authentication.
Sample 1
Experiment Lifecycle. The life cycle of an experiment is depicted in Figure 15: Experiment Lifecycle. The actual conduction usually consists of the following steps the experimenter takes: Discovery: • List the resources that are available on the testbed/federation.
Sample 1
Experiment Lifecycle. The life cycle of an experiment is depicted in Figure 15: Experiment Lifecycle. The actual conduction usually consists of the following steps the experimenter takes: • Discovery: o List the resources that are available on the testbed/federation. • Requirements: o Select and formally specify the resources the experimenter aims to use for performing the experiment. • Reservation: o Reserve a timeslot to access the resources; in the case of LTE and other radio resources an exclusive access is of importance to avoid interferences. • Provision: o In this step the resources are provisioned for the experimenter. E.g. this can be the inclusion of the experimenters ssh key to provide such access or start-up of core network services with configuration parameters specified by the experimenter. • Monitoring: o The setup of appropriate monitoring tools, so that during the experiments' execution the resources are being monitored for subsequent evaluation. • Usage: o The actual experiment is run in this phase • Termination: o After the experiment is finalized, the resources have to be released and restored. All of these experiment life cycle steps are support by mechanisms for identity management, authorization and authentication. The SoftFIRE approach allows in addition to these steps the upload of custom Network function images into the Testbeds. The upload is done before the discovery step by using the SoftFIRE Software portal. The NFV image is then automatically distributed into all connected Testbeds where they can be discovered via the SFA API.
Sample 1

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