Versions Compared

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.

Project Committers detail:

Initial Committers for a project will be specified at project creation. Committers have the right to commit code to the source code management system for that project.

...

Committer

Committer

Company

 Committer Contact Info

Committer Bio

Committer Picture

Self Nominate for PTL (Y/N)

Prakash Siva

Radysis

psiva@radisys.com




Presentation:

View file
nameRadisys - Akraino - Edge Media Use Case_v4.pdf
height250
Edge Video Processing Blueprint

Use Case Details:

Attributes

Description

Informational

Type

New

 

Industry Sector

Telco Carrier Networks and Enterprises

 

Business driver

Vast amounts of mobile/wireline data (predominantly video) is expected to continue to grow, particularly with 5G and IoT. Low latency, backhaul bandwidth restrictions/cost, and real time edge media analytics require media processing at network edges versus transporting all media to network core. Without the ability to process real time media at the network edges a number of new advanced applications would not be possible nor economically viable.

 

Business use cases

  1. Edge deployments at enterprises, entertainment venues, factory automation plants, public facilities where real time media processing required
  2. Edge media applications include multi-party conferencing, gaming, surveillance, IoT generated content, AR and VR applications
  3. Edge media applications requiring low latency and to overcome backhaul BW availability and costs being prohibitive 
  4. Real time media analytics with AI and ML based applications for high value and media monetization applications

 

Business Cost - Initial Build Cost Target Objective

Initial build requires a small footprint POD with minimal fabric and management switch, 4+ compute nodes with optional GPU acceleration, local storage node(s), PSUs, rack, typically under $100K with SW

 

Business Cost – Target Operational Objective

  1. Low operation cost, with support for remote FCAPS management, and ONAP based zero-touch resource and service orchestration
  2. Typical 16U height OCP rack with similar power consumption, with minimal footprint of 2 compute nodes.
  1. Edge Media solution shall support POD level consolidated management (OSAM) and service level orchestration and LCM via ONAP.
  1. Zero touch provisioning, upgrades, fault and performance management KPI, and auto-scaling and auto-healing capabilities

 

Security need

POD platform SW and application level security vulnerability scanning and automated patching capabilities required

Media content security and user access authentication capabilities required

 

Regulations

Depending on type of Edge Media application GDPR or other regulatory requirements may be applicable. NEBS may be required depending on deployment location and carrier network requirements

 

Other restrictions

Depending on deployment location, a single half-height rack to multiple full-height racks at Edge DC or Edge CO locations may drive power and cooling requirements

 

Additional details

Edge Media solution shall enable support for high density media processing via GPU or FPGA acceleration for advanced high density AI and ML applications and shall scale from single site to 100s in regional deployments to 1000s globally

Additional details on architecture and use cases documented in supplementary PPT

...