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The Data Collection, Analytics, and Events (DCAE) subsystem, in conjunction with other OpenECOMP components, provides FCAPS (fault, configuration, accounting, performance, security) functionality. DCAE gathers performance, usage, and configuration data about the OpenECOMP system. This data can then be fed to various analytic programs, and if anomalies or significant events are detected, the results can trigger appropriate actions, such as publishing to other OpenECOMP components such as Policy, orchestration, or the data lake. DCAE supports closed-loop control and higher-level correlation for business and operations activities. It also provides the infrastructure for collection of autonomous events from the network and other cloud components, making them available to subscribing applications, including business support system (BSS) and operational support system (OSS) applications.

The DCAE environment forwards usage and other information that can be used by the BSS to generate billable events and other events and records. The BSSs obtain the data from DCAE distribution channels or from the data lake. For example, the billing function in a BSS can support near real-time balance management by receiving streaming analytics from DCAE.

Usage and event management BSSs can be created as applications on top of the DCAE environment as well as applications outside DCAE. These applications can collect customer events and perform mediation of the usage and events to downstream BSSs or OSSs (Operational Support Systems).  BSSs can also collect network events such as bill-impacting configuration changes, consumption or any new bill-impacting network product or service which can in turn be used for various purposes such as rating, balance management, and charge calculations. The following figure shows the DCAE architecture:

Figure 1. DCAE high-level architecture

A key subset of the DCAE architecture is the DCAE Platform.  The DCAE platform consists of the capabilities that help define how data is collected, moved, stored and analyzed within DCAE.

DCAE Platform Components

The DCAE Platform consists of several components: Common Collection Framework, Data Movement, Edge and Central Lake, Analytic Framework, and Analytic Applications.

Common Collection Framework

The collection layer provides the various data collectors that are needed to collect the instrumentation that is available from the cloud infrastructure.  Included are both physical and virtual elements. For example, collection of the following types of data is supported: 

  • events data for monitoring the health of the managed environment

  • data to compute the key performance and capacity indicators necessary for elastic management of the resources

  • granular data  needed for detecting network  and service conditions (such as flow, session and call records)

The collection layer supports both real-time streaming and batch collection.

Data Movement

This component facilitates the movement of messages and data between various publishers and interested subscribers. While a key component within DCAE, this is also the component that enables data movement between various OpenECOMP components.

Edge and Central Lake

DCAE supports a variety of applications and use cases. These range from real-time applications that have stringent latency requirements to other analytic applications that have a need to process a range of unstructured and structured data. The DCAE storage lake supports these needs and is scalable so that new storage technologies can be incorporated as they become available. The storage lake uses big-data storage technologies such as in-memory repositories and support for raw, structured, unstructured and semi-structured data to accommodate a broad scope of requirements such as large volume, velocity, and variety.

While there may be detailed data retained at the DCAE edge layer for detailed analysis and trouble-shooting, applications should optimize the use of bandwidth and storage resources by propagating only the required data (for example, reduced, transformed, or aggregated) to the core data lake for other analyses.

Analytic Framework

Analytics and related applications run in the Analytic Framework of DCAE. The Analytic Framework enables agile development of analytic applications. This framework supports creation of applications that process data from multiple streams and sources. Applications can be real-time – for example, analytics, anomaly detection, capacity monitoring, congestion monitoring, or alarm correlation – or non-real time, such as applications that perform analytics on previously collected data or forward synthesized, aggregated or transformed data to big data stores and other applications. The framework can process both real-time streams of data and data collected through traditional batch methods.  Analytic applications are managed by the DCAE controller.

Analytic Applications

The following list provides examples of types of applications that can be built on top of DCAE:

Analytics These will be the most common applications that are processing collected data and deriving interesting metrics or analytics for use by other applications. These analytics applications range from very simple ones (from a single source of data) that compute usage, utilization, latency, and similar metrics to very complex ones that detect specific conditions based on data collected from various sources. The analytics could be capacity indicators used to adjust resources or could be performance indicators pointing to anomalous conditions requiring response.

Fault / event correlation: This is a key application type that processes events and thresholds published by managed resources or other applications that detect specific conditions. Based on defined rules, policies, known signatures and other knowledge about the network or service behavior, an application of this kind would determine root cause for various conditions and notify other interested applications.

Performance surveillance and visualization: This class of application provides a window to  an operations organization notifying them of network and service conditions. The notifications could include outages and impacted services or customers based on various dimensions of interest. They provide visual aids ranging from geographic dashboards to virtual information model browsers to detailed drilldown to specific service or customer impacts.

Capacity planning: This class of application provides planners and engineers the ability to adjust forecasts based on observed demands as well as plan specific capacity augments at various levels, e.g., NFVI level (technical plant, racks, clusters, etc.), Network level (bandwidth, circuits, etc.), Service or Customer levels.

Testing and troubleshooting: This class of application provides operations the tools to test & trouble-shoot specific conditions. They could range from simple health checks for testing purposes, to complex service emulations orchestrated for troubleshooting purposes. In both cases, DCAE provides the ability to collect the results of health checks and tests that are conducted. These checks and tests could be done on an ongoing basis, scheduled or conducted on demand.

Security: Some components of AIC may expose new targets for security threats. Orchestration and control, decoupled hardware and software, and commodity hardware may be more susceptible to attack than proprietary hardware. However, SDN and virtual networks also offer an opportunity for collecting a rich set of data for security analytics applications to detect anomalies that signal a security threat, such as DDoS attack, and automatically trigger mitigating action.

Other: The applications listed here are by no means exhaustive and the open architecture of DCAE lends itself to integration of additional application capabilities over time.

System Architecture



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