Next&Genera-on&Networks& for Broadcast&Applica-ons& · MPLS Layer 3 IP-VPN MESH NETWORK Satellite...
Transcript of Next&Genera-on&Networks& for Broadcast&Applica-ons& · MPLS Layer 3 IP-VPN MESH NETWORK Satellite...
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Crowe & Cli*on: Next Gen Broadcast Networks Page: 1
Next Genera-on Networks for
Broadcast Applica-ons
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Objec-ve and Outline • Objec-ve: provide an overview of next genera;on networks
being considered by PBS and others for professional broadcast applica;ons
• Outline: – The context – Why MPLS IP-‐VPN technology ? – Understanding Class of Service (COS/QOS) – Applica;ons – Lessons learned
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The Context The viewing habits, technologies, plaCorms, demographics and business models are changing rapidly and the broadcast industry is moving to IP distribu-on and workflows
Falling costs are making terrestrial broadband IP connec-vity (such as MPLS) a viable alterna;ve to legacy satellite broadcast networks.
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Produc-on Programming & Traffic
Automa-on Near-‐Line & Archive
Playout & Encode
Example Legacy Broadcast Network
Live events • Linear broadcast from files and/or live events
• Non-‐linear (files) for local playout
PUSH
Non-‐linear content (files)
Broadcast-‐quality content distribu-on/contribu-on for local sta-on free to air, cable and DTH satellite TV (i.e. not OTT delivery)
STATIONS
LOCAL CABLE Cable & Other
BROADCAST STATIONS
Point to mul-point (P2MP) Broadcast/Push
Free to Air (FTA/ATSC)
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Tradi-onal Satellite OPEX Advantage for Broadcast
P2MP= Point to mul-point
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The broadcast distribu-on bandwidth chain
SDI
Distribu-on Networks
Compression and Encoding
Decompression & Decoding
Produc-on
Playout & (re)Broadcast SDI
Uncompressed (Raw) video: • Serial Digital Interface (SDI) standard -‐ typical live/linear bandwidths:
• HD: 1.5 Gbps • SD: 270 Mbps • 4K: 6 Gbps
• Typical file sizes: 150-‐250 GB
• MPEG 4 AVC and MPEG 2 for Linear/Live broadcast -‐typical live/linear bandwidths:
• HD: 15 Mbps • SD: 4 Mbps • 4K : 25-‐30 Mbps (HEVC)
• Typical distribu;on profile file sizes: • HD: 7-‐15 GB • 4K: TBD
Compressed video for distribu-on: Broadcast video: • Local traffic management, automa;on & playout
• Add-‐in local linear/live & non-‐linear content
• SDI/Tape -‐> file based workflows
• SD-‐>HD-‐>4KUHDTV • MPEG 2 & 4 legacy playout • & Mul;ple OTT formats
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The broadcast distribu-on bandwidth chain
SDI
Distribu-on Networks
Compression and Encoding
Decompression & Decoding
Produc-on
Playout & (re)Broadcast SDI
Uncompressed (Raw) video: • Serial Digital Interface (SDI) standard -‐ typical live/linear bandwidths:
• HD: 1.5 Gbps • SD: 270 Mbps • 4K: 6 Gbps
• Typical file sizes: 150-‐250 GB
• MPEG 4 AVC and MPEG 2 for Linear/Live broadcast -‐typical live/linear bandwidths:
• HD: 15 Mbps • SD: 4 Mbps • 4K : 25-‐30 Mbps (HEVC)
• Typical distribu;on profile file sizes: • HD: 7-‐15 GB • 4K: TBD
Compressed video for distribu-on: Broadcast video: • Local traffic management, automa;on & playout
• Add-‐in local linear/live & non-‐linear content
• SDI/Tape -‐> file based workflows
• SD-‐>HD-‐>4KUHDTV • MPEG 2 & 4 legacy playout • & Mul;ple OTT formats
1.5 Gbps 15 Mbps
1.5 Gbps
1 Mbps
5 Mbps
15 Mbps
7-‐15 GB 150 GB
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One Approach: Internet Aggrega-on
SDI and/or IP Video
SDI and/or IP Video
SDI and/or IP Video PROVIDER APPLIANCE
Example service providers: LTN Global, VideoShip In use for broadcast today (e.g. NBC,CNN,FOX, PBS & others)
PUBLIC INTERNET
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One Approach: Internet Aggrega-on
Output buffer at egress “smooths out” jiher & latency varia-ons (200-‐600 msecs typical latency)
In-‐network jiher and delay
Original input at ingress (e.g. linear video)
1 2 3 4 5 6 7 1 2 3 4 5 6 7
1 2 3 4 5 6 7
• Latency excessive for most broadcast distribu-on applica-ons • Unmanaged core network with NO COS/QOS traffic engineering • Expensive for P2MP distribu-on & NOT IP mul-cast enabled
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Mul--‐Protocol Label Switching
PE= Provider Edge CE=Customer Edge
Inherently fast, robust and secure (i.e. NOT the public Internet)
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MPLS IP-‐VPN • Mul- Protocol Label Switching (MPLS): – Next-‐gen Wide Area Network (WAN) technology replacing legacy Layer 2 ATM & Frame Relay networks
• IP-‐VPN: – Internet Protocol (e.g. Layer 3 router-‐to-‐router) – Virtual Private Networks on shared but dedicated/managed fiber infrastructure
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Why MPLS IP-‐VPN? • State-‐of-‐the-‐art for enterprise-‐class
WAN today with mul-ple topologies (e.g. mesh) available
• 100 Mbps & DS3 (45 Mbps) are common and most popular – 1 Gbps and 10 Gbps also readily available
• Becoming increasingly affordable & very compe--ve
Mul-ple Tier 1 Vendors:
…+ others WAN= Wide Area Networks
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Why MPLS IP-‐VPN (Layer 3)? • Transparent private virtual networks using IP
• IP mul-cast enabled for bandwidth efficiency • Automa;c redundancy/DR in the core network
• Class of Service (COS) provides ability to priori-ze traffic (e.g. linear video over non-‐linear file delivery). Typical performance: • Low latency: e.g. 25-‐ 50 msecs RTT • Low jifer: e.g. 2 -‐ 5 msecs • Low Bit Error Rate (BER): “Near zero”
• Variety of network topologies available including full-‐duplex (i.e. two-‐way) mesh interconnec-on
• Alterna-ves (e.g. Layer 2 VPLS) over MPLS also available
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Example Tier 1 Product Offerings Routing Transparency Protection CoS Network Billing Technology
Customer ControlledFull Layer 2 Transparency
Optional on local access.
Customer Controlled
Dedicated FlatEthernet over
DWDM
Customer ControlledFull Layer 2 Transparency
Fast Reroute in the core
All Traffic classified as Premium Data
Shared FlatEthernet over MPLS Core
Multipoint MAC switching Ethernet
VPN service
Tagged or Transparent options
Fast Reroute in the core
4 Classes of Service Shared FlatEthernet over MPLS core
IPv4, IPv6 Layer 3 ServiceFast Reroute in
the core
6 Classes of service with 10 Priority
Options.Shared Flat IP over MPLS
IPv4, IPv6 Layer 3 ServiceFast Reroute in
the core4 Classes of Service
Public Internet
Tiered and Burstable
IP over MPLS core
Source: Verizon 2014Source: Verizon
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Example Tier 1 Product Offerings
Source: Level 3
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Example MPLS IP-‐VPN Broadcast Network Approach
MPLS Network
Sta-on
((( )))
CE
PE= Provider Edge CE=Customer Edge
CE
CE
CE
CE
CE
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Example “Generic” M&E Applica-on
Linear
Non-‐Linear
M&C
Content
Linear
Non-‐Linear
Content
M&C
M&C=Monitoring & Control
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Understanding COS/QOS
• Class of Service (COS) is a Traffic Engineering (TE) technique used to priori-ze traffic on a network • used to implement Quality of Service (QOS) rules to
differen;ate and shape/police network traffic • gives priority to higher value traffic in ;mes of network
conges;on (e.g. linear/live video over best effort file delivery)
• MPLS-‐TE = Traffic engineering inside the MPLS core network
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Understanding COS/QOS
For modern Layer 3 IP networks, Differen-ated Services (DiffServ) QOS (e.g. DSCP-‐x) replaces legacy IPv4 Type of Service (TOS)
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Example “Generic” M&E Applica-on
COS is checked at ingress to the MPLS network and delivered over MPLS by priority assigned limits/queues (i.e. MPTS-‐TE)
VLAN-‐type COS is set by applica-on and priority
For example:
HI -‐-‐-‐-‐-‐-‐-‐ LOW -‐-‐-‐
MED -‐-‐-‐
Policing to bandwidth limits (e.g. 100 Mbps) and output priority by COS is done at the egress from the MPLS network
-‐-‐-‐-‐-‐ HI -‐-‐-‐-‐-‐ LOW
-‐-‐-‐-‐-‐ MED
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Fully Duplex & Symmetric – Both ways
COS is checked at ingress to the MPLS network and delivered over MPLS by priority assigned limits/queues (i.e. MPLS-‐TE)
Policing to bandwidth limits (e.g. 100 Mbps) and output priority by COS is done at the egress from the MPLS network
HI -‐-‐-‐-‐-‐-‐-‐ LOW -‐-‐-‐
MED -‐-‐-‐
VLAN-‐type COS is set by applica-on and priority
For example:
-‐-‐-‐-‐-‐ HI -‐-‐-‐-‐-‐ LOW
-‐-‐-‐-‐-‐ MED
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Produc-on Programming & Traffic
Automa-on Near-‐Line & Archive
Playout & Encode
Example MPLS Broadcast Configura-on
Live events TSoIP
Man
aged
VLA
N Switch
Mul-cast Source *
Linear
TSoIP = Transport Stream over IP Non-‐linear
File Transfer (unicast
&mul-cast)
Monitoring & Control
M&C
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Produc-on Programming & Traffic
Automa-on Near-‐Line & Archive
Playout & Encode
Example MPLS Broadcast Configura-on
Live events TSoIP
Man
aged
VLA
N Switch
Mul-cast Source *
Linear
Non-‐linear
File Transfer (unicast
&mul-cast)
Monitoring & Control
M&C MED -‐>
HI -‐>
LO -‐>
Example Traffic priori-za-on using COS for a typical broadcast
applica-on
TSoIP = Transport Stream over IP
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“IP” IRDs “IP” IRDs
Example “Sta-on-‐side” Configura-on
IRD = Integrated Receiver Decoder
“IP” IRDs
VLAN Switch
File Share
Cache
M&C
((( )))
Produc-on Programming
Traffic, Automa-on,
Master Control & Playout
HD-‐SDI STATION
FTP
Mul-cast video
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“IP” IRDs “IP” IRDs
Example “Sta-on-‐side” Configura-on
IRD = Integrated Receiver Decoder
“IP” IRDs
VLAN Switch
File Share
Cache
M&C
((( )))
Produc-on Programming
Traffic, Automa-on,
Master Control & Playout
HD-‐SDI STATION
FTP
MED
HI
LO
COS: EXAMPLES ONLY
Mul-cast video
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Example: using COS to Manage QOS
BEST EFFORT (COS=LOW)
• 5 GB @ 50 Mbps = 13.3 mins
• 5 GB @ 100 Mbps = 6.7 mins
• 5 GB @ 200 Mbps = 3.3 mins
BEST EFFORT
IP MULTICAST (COS=HI)
• HD: 15 Mbps • SD: 4 Mbps
IP MULTICAST
This IRD does mul-cast join
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Example – Full Duplex Mesh Linear
IP MULTICAST (COS=HI)
• HD: 15 Mbps • SD: 4 Mbps
IP MULTICAST
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COS/QOS = Auto Management of Priori-es
Time of Day
Band
width (M
bps)
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Adding Diversity & Scaling Up
Secondary (Diversity, DR/BC & load
Balancing)
Primary
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Other Features of MPLS IP-‐VPN
Direct internet Access (DIA)
Public Internet
Private & Hybrid Cloud Service Providers
(IaaS, PaaS, SaaS)
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Hybrid Cloud??????
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STATIONS LOCAL CABLE
GigE/10GigE 100 Mbps
POTENTIAL CLOUD SERVICES (PRIVATE and/or
HYBRID)
MPLS Layer 3 IP-VPN MESH
NETWORK
Satellite Overlay & Backup
Example Hybrid System Architecture
PUBLIC INTERNET
Primary NOC
Secondary NOC
Other
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Some Lessons from Proof of Concept Work • Ini-al IP connec-vity and ac-va-on of MPLS is easy but not quick
• Industry norm = typical 60-‐90 days from order • Service Level Agreements (SLAs) are typically Telco standard
• Overall performance once a circuit is installed and accepted is great • MPLS = inherently low jifer, low latency, very low BER + mesh full duplex! • IP Mul;cast works and is a great bandwidth saver (use what you take)
• However: • IT language ≠ Broadcast Language (e.g. FEC ≠ FEC) • Test equipment and processes needed to confirm performance must use broadcast
industry standards and metrics (e.g. Media Delivery Index/MDI) • COS boundaries usually work alone (WOOB) but “fine tuning of network
configs” (especially tail circuits) is needed when boundaries are stressed • System architecture has to account for some specific issues (e.g. “backhoe fade”)
Not vendor
specific
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Crowe & Cli*on: Next Gen Broadcast Networks Page: 34
Example Future-Proofing via SOA
CyberSecurity Infrastructure ( “bed of nails”)
DAM MyPBS & Other PBS Services
CyberSecurity Service
NOC Playout & SOC
AS03 File Delivery Service
File Transfer Service
MOC
PBS Enterprise Service Bus (ESB)
PBS Digital
Service Oriented Architecture (SOA)
v6 Master Scheduling Service
v6 Network M&C Service
v6 System User Interface
Service
v6 Content Storage Service
Currently in Proof of Concept Tes-ng
STATIONS'LOCAL'CABLE'
GigE/10GigE 100 Mbps
POTENTIAL'CLOUD'SERVICES'(PRIVATE'and/or'
HYBRID)'
MPLS Layer 3 IP-VPN MESH
NETWORK
Satellite Overlay & Backup
PUBLIC'INTERNET'
Primary'NOC'
Secondary'NOC'
Other'
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Crowe & Cli*on: Next Gen Broadcast Networks Page: 35
Ques-ons? Thank you for your -me!
Thomas A. Crowe III: PBS Vice President of Interconnec;on System Engineering [email protected], 703-‐739-‐5491
Ron W. Clivon: PBS v6 Solu;on Architect, Cli*onGroup Interna;onal Limited rcli*on@cli*ongroup.ca, 613-‐852-‐8833