SDN by Evertz IP Without Compromise

1. SDN by Evertz IP Without Compromise

2. Traditional Baseband Facility

3. Move to IP Facility & SDVN • Software Defined Video Networking: • Take advantage of Ethernet infrastructure • Distributed routing • Pooled resources vs linear paths • Remote resource and staffing • Efficient use of resources

4. SDVN Architecture Overview Architecture Overview

5. SDVN – Key Issues • Control must be seamless • Operations should not know the difference • Same control surfaces as baseband plant • Control panels and GUI’s • Functionality and Reliability paramount, i.e. must be as good as baseband • Deterministic video paths • Cannot tolerate contention • Simple to use and maintain

6. SDVN Building Blocks

7. IP Gateways • Universal IP edge devices for encapsulating, de-encapsulating, translating: • ASI/SD/HD/3G <> IP • IP <> IP (Unicast <> Multi-cast translation) • FEC (e.g. SMPTE 2022) • Hitless switching (SMPTE 2022-7) • 8/16/24/32 channel high density - modular • Multiple 1/10 GE interfaces with redundancy • Additional IP Gateways for : • Audio: AES, MADI • Data: RS232/422

8. IP Gateways • Can also be add-on modules for existing baseband Evertz routers • Provides easy transition to 10GE/IP for hybrid environment

9. IP Switch Fabric • Modular 6RU blades • 16/32/64, 1/10 GE Port Configurations (up to 640Gb/s) • Baseband Equivalents • Uncompressed HD (6 HD per 10GE) • 16 Port = 96 x 96 • 32 Port = 192 x 192 • 64 Port = 384 x 384 • Routing Control - Simple X-Y style • SRC >> DST >>TAKE • Traditional panel and GUI control • Simplify IP Network Channel Delivery

10. EXE-VSR Video Service Router 46Tb/s • 2304 ports of 10GigE in 40RU • Supports 40G/100G • • Fully separated control and data plane • • Fully non blocking modular architecture • • Active electronics hot swappable from the front • • Front to back redundant cooling • • Distributed Redundant Controllers

11. High Density Network Address Translation • Where need to manage the address space • One-to-one NAT (2048 static mapping) • VLAN base NAT (2048 VLAN ID mapping) • Port based NAT • 4 x 1/10GE interfaces • Applications • Typically used on the Network edge • In-bound firewall • Multicast <> Unicast • Stream replication

12. Application (Multicast/Unicast NAT)

13. Other Key Building Blocks • Bulk Encoders (Multi-channel J2K) • 10GE Multi-Viewers • No need to go back to baseband • Standard & Advanced AVM monitoring &analysis • Universal Encoders/Transcoders (UEP) • Any format (H.264/J2K/MPEG-2) IN <> OUT • ALL UNDER UNIFIED CONTROL IS KEY

14. SDVN Control Plane

15. Simple Ethernet Interface Configuration Enable 1/10Ge port

16. Virtual Multicast Sources

17. Simple X-Y Operator Control Set the cross-point like traditional x-y Video Routers

18. Complete System Monitoring & Control

19. Applications

20. SDVN for Transport

21. SDVN for Production

22. SDVN for Playout

23. Summary – Benefits of SDVN IP Facility • Future-proof facility • SD to 4K • Scalable • Remove physical restrictions of baseband growth • High Reliability • Utilize device and network redundancy • Efficient Workflows • Create “services” in a private “cloud” • Migrate from linear to non-linear workflow • CONTROL IS KEY – MUST BE SIMPLE

24. Thank you