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1 © Nokia 20161 © Nokia 2016
Alexander NosowDecember 2016
7x50 Portfolio Update7x50 Portfolio Update7x50 Portfolio Update7x50 Portfolio Update
2 © Nokia 2016
IP/MPLS portfolio
IP COREIP COREIP COREIP CORE IP EDGEIP EDGEIP EDGEIP EDGE IP AGGREGATIONIP AGGREGATIONIP AGGREGATIONIP AGGREGATION ACCESSACCESSACCESSACCESS
7950 XRS 7750-SR
VSR
7705 SAR
7210 SAS
3 © Nokia 2016
7x50 Product Family
Edge Routing
7750 SR-12e 7750 SR-12 / -7 7750 SR-3e/-2e/-1e 7750 SR-a8/-a4
7.2 Tb/s HD4 Tb/s HD2 Tb/s HD
1.2 Tb/s HD800 Gb/s HD400 Gb/s HD
400 Gb/s HD200 Gb/s HD
400G per slot FD 200G per slot FD 200G per IOM FD 100G per IOM FD
9 IOM/IMM slots22 RU
5 or 10 IOM/IMM slots14RU / 8 RU
1-3 IOM slots4 MDA-e’s per IOM13 RU / 10RU / 6RU
1-2 IOM slots4 MDA-a’s per IOM
7RU / 5RU
Terabit IP/MPLS multiservice router
Terabit Ethernet, IP/MPLS
Mid-scale Ethernet, IP/MPLS
Fabric-less, Mid-to-Small scale Edge Router
Fabric-less, Mid-to-Small scale Access router
ETSI 300mm compliant
7950 XRS-40 7950 XRS-20
32Tb/s HD 16 Tb/s HD
800G per XCM FD 800G per XCM FD
20 XCM slots40 XMA slotsTwo 19” racks
10 XCM slots20 XMA slotsOne 19” rack
Multi-Chassis Core Routing
Single-Chassis Core Routing
Core Routing
4 © Nokia 2016
The Evolution of Wire-Speed Line Cards
7750 SR
7950 XRS2003
2008
20102013
2017+
100G IMM (FP2)
• 1x100GigE IMM
• 3x40GigE IMM
• 12x10GigE IMM
50G IMM (FP2)
• 1xOC768c IMM
20G IOM
• 10xGigE MDA
• 1x10GigE MDA
50G IOM/MDA-XP/IMM
• 5x10GigE IMM
• 48x1GigE IMM
• 20xGigE MDA-XP
• 2x10GigE MDA-XP
FP4 based SFM/XMA/IMM200G IMM (FP3)
• Combo IMMs
400G IMM (FP3)
• 4 x 100GigE IMM
5 © Nokia 2016
FP3 Flexibility by Design
200 Gb/s LayoutIMM 200 Gb/s Layout
1-Port
100 GE
Switch
Fabric
XB
XB Q3
P3 P3
1-Port
100 GE
CPU
T3
IMM 400 Gb/s Layout
Q31-Port
100 GE
Switch
Fabric
XB
XB Q3
P3
1-Port
100 GE
1-Port
100 GE
1-Port
100 GE
P3
P3 T3
CPU
P3
Q3
T3
Packet Processor
Traffic Manager
Fabric Tap
Unique Three Chip Architecture
Maximizes the Feature Set
Increases Longevity
Ensures Deterministic Behavior
Maintains Backwards Compatibility
6 © Nokia 2016
7750 SR-e Family
7750 SR-1e 7750 SR-2e 7750 SR-3e
Height/depth 6 RU/538 mm 10 RU/538 mm 13 RU/538 mm
System capacity (HD) 400 Gb/s 800 Gb/s 1.2 Tb/s
Resiliency Redundant CPM, power, fans Redundant CPM, power, fans Redundant CPM, power, fans
MDA-e slots 4 8 12
IOM-e slots 1 2 3
GE/10GE/100GE ports 160/40/8 320/80/16 480/120/24
7 © Nokia 2016
7750 SR-e: System architecture
Chassis Control
Module (CCM-e)
Media Dependent
Adapter (MDA-e)
Integrated Service
Adapter (MS-ISA2-e)
Input/Output
Module (IOM-e)
Control Processor
Module (CPM-e)
Management and console
interfaces, timing,
alarms
Port interfacesLayer 4-7 service
processing blades
Slot-level control,
memory and interconnect
System-level control,
routing and processing
2 CCM-e per system 4/8/12 MDA-e per
SR-1e/2e/3e
4/8/12 ISA2-MS-e per
SR-1e/2e/3e
1/2/3 IOM-e per
SR-1e/2e/3e2 CPM-e per system
CPUCPUCPUCPU
CPM-e
XBXBXBXB IOM-e
ME-ISA2-MS
MDA-e
CCM-e
Mid-plane
FRONT REAR
8 © Nokia 2016
7750 SR-e forwarding plane
Ingress
Egress
FP3 200G
complex
IOM-eMDA-e
• 100 Gb/s FD throughput per MDA-e
.
.
.
• Fabric-less IOM-e interconnect
P3 P3
Q3
T3
CPU
XB
FP3 for high performance, full service scale up to 200 Gb/s per IOM-e
9 © Nokia 2016
7750 SR-2e chassis components
7750 SR-2e front view 7750 SR-2e rear view
Cable guide
CCM-e
(‘A’ and ‘B’)
MDA-e
(slots 1-8)
Air intake
Power supplies
(up to 8)
CPM-e
(‘A’ and ‘B’)
IOM-e
(up to 2)
Fan tray
10 © Nokia 2016
7750 SR-e thermal designThermal design
• Innovative mechanical design � angled MDA card cage
- Enables true front-to-back NEBS-compliant design
• Crafted for optimal airflow and reduced noise
• Air intake areas enlarged for maximum airflow
Cooling
• Front-to-back airflow
• Internal redundant fans
• Removable/replaceable fan filters
• Variable speed for power efficiency
• Fan status/information via NMS/CLIFront air
intake
Rear air
exhaust
Efficient, resilient, scalable thermal design
11 © Nokia 2016
Media Dependent Adapters (MDA-e’s)
1-port 100GE CFP2
10-port 10GE SFP+
MDA-e type Feature highlights
10-port 10GE SFP+
6-port 10GE SFP+
• LAN or WAN PHY support
• OTU1e/OTU2/OTU2e framing
• FEC & ITU-T G.709
• Can use low-power 10G tunable DWDM SFP+
1-port 100GE CFP2 • OTU4 framing
• FEC & G.709
20/40-port GE SFP/cSFP • High-density GE
40/20-port GE cSFP/SFP
High performance – 100 Gb/s FD per MDA-e
Flexible media configurations - 4 MDA-e per IOM-e
12 © Nokia 2016
Integrated Service Adapter (ME-ISA2-MS)
ME-ISA2-MS Feature highlights
Hardware specs • 32 Core processor & 32GB RAM• Supports a 40G data path• Actual throughput dependent on function
Applications • Application Assurance (AA)
• Broadband (NAT/LNS)
• Tunnel: IPSec, GRE and IP-in-IP
Performance • ME-ISA2-MS is up to 4 x MS-ISA performance
• Increased scale and packet processing
bandwidth
• Increased bandwidth, flow scale & flow
setup rates
ME-ISA2-MS
IOM-e
FP3
40G ISA I/O 40G ISA I/O
ME-ISA2-MSME-ISA2-MS
Deliver advanced services through in-line Layer 4-7 processing
13 © Nokia 2016
7750 SR-7-B & 7750 SR-12-B ChassisNew backplane for the SR-7/-12
2000200020002000 2001200120012001 2002200220022002 2003200320032003 2004200420042004 2005200520052005 2006200620062006 2007200720072007 2008200820082008 2009200920092009 2010201020102010 2011201120112011 2012201220122012 2013201320132013 2014201420142014 201720172017201720162016201620162015201520152015
• Supports up to 400G FD per slot with FP4 (target)• Better power efficiency per GB with FP4• Fully backward compatible & release independent
New BackplaneExisting Backplane• Remains orderable for existing deployments• Supports up to 200G FD per slot today
7750 SR-7/-12 Backplane Revisions
Continued investment protection
14 © Nokia 2016
The New 7750 SR-12-B and SR-7-B
* Target with FP4 cards and SFM6
Chassis Built Prior to 2008Per Slot Max
Switch Capacity FD
Chassis built in 2008 to present dayPer Slot Max Switch Capacity FD
Chassis Built end of 2016
Mix of T2/T3 Cards All T3 Based Cards Mix of T3/T4 Cards All T4 Based Cards
SFM6 (FP4 based)
50 Gbps redundant 100 Gbps redundant 200 Gbps redundant 200/400G redundant* 400 Gbps redundant*
SFM5 50 Gbps redundant 100 Gbps redundant 200 Gbps redundant 200Gbps redundant 200 Gbps redundant
SF/CPM4 50 Gbps redundant 100 Gbps redundant 100 Gbps redundant 100 Gbps redundant 100 Gbps redundant
SF/CPM3 50 Gbps redundant 50 Gbps redundant 50 Gbps redundant 50 Gbps redundant 50 Gbps redundant
15 © Nokia 2016
7750 SR – Double Policer Scaling with the IOM4-e-BHigher Scale Unlocked
Doubles policer scale in R14.0.R4
IOM4-e-B introduced in R14.0.R4
Provides added policer scale for FP2 migration to FP3
IOM4-e-B IOM4-e IOM4-e-B
Policer Scale
256k ingress/egress256k ingress dedicated & 256k egress dedicated
Extensive list of MDA-e’s available:• 10-port 10GE SFP+• 6-port 10GE SFP+• 1-port 100GE CFP2• 40-port GE cSFP (20-port GE SFP)• MS-ISA2• 2-port 100GE CFP4• 2-port 100GE QSFP28/QSFP+
16 © Nokia 2016
Additional MDA-e cards for IOM4-e, IOM4-e-B & IOM-e
Increased capacity per MDA-e over existing MDAs
2-port 100GE CFP4 MDA-e
40-port 1GE cSFP (20-port 1GE SFP)
MDA-e
• Complements existing 1-port 100GE CFP2 MDA-e introduced in 13.0.R4
• Doubles 100G density for SR-7/-12 and ESS-7/-12
• Beta in 14.0.R4
• Clause 91 FEC & 1588 supported in 14.0.R6
• High density GE with cSFPs
• Minimizes fiber usage and clutter
• 1588 supported
Multi-rate 2-port QSFP28 MDA-e
• 2-port 100G QSFP28 / 40GE QSFP+
• Clause 91 FEC & 1588 supported 14.0.R6
17 © Nokia 2016
IMM P-160 for on-device GE density
SR-12e SR-12 SR-7
1440 ports 1600 ports 800 ports
• Nokia patented “drawer” innovation adds 2nd row of SFP cages
• Supports standard SFP’s and/or compact SFP’s
- Enabling double-density via BiDi technology
• 200G FP3 based IMM
- Delivers full line rate on all 160 ports
• All resources shared between all ports
• Supported in SR-7, SR-12 and SR-12e
18 © Nokia 2016
2 x GE RJ.5 cSFPA Nokia In-House Innovation
P160, 40-port GE cSFP MDA-e
72pt GE cSFP/SFP C-XMA: IPCore & LSR
40-port GE cSFP MDA-e
44-port GE cSFP MDA-a
22-port GE cSFP IMM-b (SAS-R6, SAS-R12)
7750 SR
7950 XRS
7750 SR-a
7750 SR-e
7210 SAS
• Double copper port density on any existing cSFP MDA, IMM or C-XMA
• RJ.5 to RJ45 cable adapters available
• Supported across all platforms in the portfolio
• 7750 SR, 7750 SR-a, 7750 SR-e, 7950 XRS & 7210 SAS
19 © Nokia 2016
Satellites for offSatellites for offSatellites for offSatellites for off----device density device density device density device density Local/Remote 1 GE/10 GE Ethernet Aggregation
• Access ports on satellites map to 7x50 ports
• Local and Remote satellites
• 4 x 10GE Uplink + 24/48 RJ45/SFP 1GE access
• 4 x 100GE Uplink + 64 SFP+ 1/10 GE access
• No local switching on satellite
• 7x50 Host + all satellites – one NE for management
7x50Host
7210 SAS-S
1-4 10GE uplinks
1-4 100GE uplinks
7210 SAS-S 10G
7210 SAS-S 7210 SAS-S 10G*
20 © Nokia 2016
High Voltage DC (HVDC)
AC
DC
DC
AC
AC
DC
DC
DC
Mother-board
Battery
480VAC
100 ~200V
AC 31 2 4
UPS Router
AC
DC
DC
DC
Mother-board
Battery
480VAC
48VDC
1 2
Rectifier Router
AC
DC
DC
DC
Mother-board
Battery
480VAC
260-400VDC
1 2
Rectifier Router
AC
Pow
er
-48V
Pow
er
HV
DC
• Power conversion steps = 4• Common and widespread• Not optimized for efficiency• Many components and higher complexity
• Power conversion steps = 2• Widely used in telecom, less common in datacenters
• Higher efficiency & reliability compared to AC � fewer components
• Power conversion steps = 2• Reduced currents compared to -48VDC which results in thinner cable requirements � lower installation costs
21 © Nokia 2016
HVDC support on 7950 XRS & 7750 SR-12e platforms
First Core/Edge routers to support HVDC• HVDC on 7950 XRS-40, XRS-20 and 7750 SR-12e
• New HVDC APEQ & power cable
• Voltage range 260V – 400VDC, 13Amps
• 3000W per APEQ
Backward Compatible design• Similar design to existing AC APEQ
• Power connections at front of APEQ instead of via the rear panel � Backward compatible design
• One power connection per HVDC APEQ
Right: HVDC 8 Guage Wire• Width = 1.5 in, height = 1 in.• Weight = 0.1lbs/in.
Left: LVDC 2 Gauge Wire• Width = 6 in. height = 1 in.• Weight = 0.5lbs/in.
12 cable pairs: One per APEQ on the XRS
Huge weight, space, power efficiency and cost savings through cabling alone
22 © Nokia 2016
• Coherent 100G Polarization Multiplexed - Quadrature Phase Shift Keying (PM-QPSK) Modulation
• C-Band 50GHz Tunable DWDM
• OTU4 framing
• ITU-T G.709 OAM
• Access Reach: up to 80km without optical amplification (loss limited)
• Metro: up to 600km enabling multi-vendor interoperability with “Staircase” FEC
• Long-Haul: up to 1000km with SD-FEC 1000km
• In customer field trials since March’16
1-Port 100G Coherent PM-QPSK tunable DWDM
IP-Optical IntegrationIntegrated Coherent 100G DWDM IMM for 7750-SR
Multi-vendor interworking (FEC, OAM)
• Nokia part of first multi-vendor 100G IPoDWDMfield trials
• IMM is productized as part of the multi-vendor IPoDWDM optical and FEC profiles
23 © Nokia 2016
• Coherent 100G Polarization Multiplexed - Quadrature Phase Shift Keying (PM-QPSK) Modulation
• C-Band 50GHz Tunable DWDM
• OTU4 framing
• ITU-T G.709 OAM
• Access Reach: up to 80km without optical amplification (loss limited)
• Metro: up to 600km enabling multi-vendor interoperability with “Staircase” FEC
• Long-Haul: up to 1000km with SD-FEC
2-Port 100G Coherent PM-QPSK tunable DWDM XMA
IP-Optical Integration – Available Q4’16Integrated Coherent 100G DWDM XMA for the 7950 XRS
Multi-vendor interworking (FEC, OAM)
• Nokia part of first multi-vendor 100G IPoDWDMfield trials
• XMA is productized as part of the multi-vendor IPoDWDM optical and FEC profiles