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Презентация для доклада, сделанного в рамках конференции Juniper New Network Day 01.01.2014. Докладчик -- Product Line Manager компании Juniper Дмитрий Шокарев. Видеозапись этого доклада с онлайн-трансляции конференции вы можете увидеть здесь: http://www.youtube.com/watch?v=dJwevBdrviU&hd=1
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MX SERIES
Overview and RoadmapApril 1st, 2014
2 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
LEGAL DISCLAIMER
This product roadmap sets forth Juniper Networks’ current intention and is subject to
change at any time without notice.
No purchases are contingent upon Juniper Networks
delivering any feature or functionality depicted on this
roadmap.
3 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
Connect everything, empower everyone
CLEAR MISSION AND FOCUSED STRATEGY
Silicon Systems Software
Through high-performance network and industry innovation
4 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
SILICON
5 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
SILICON ARCHITECTURAL COVERAGE
Low
High
Flexibility
Less More
Multiservice edge
Consumer edge
OTN services
MPLS core
Data center switching
IP core
Secured routers
Security appliance
Trio
Flex + Merchant Processors
Express
Mobile edge
Vanilla switching
Low bandwidth access
Merchant silicon
Bandwidth
6 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
1998: First separation of control plane & data plane 1998: First implementation of IPv4, v6, MPLS in silicon 1998: First 2.4Gbps forwarding engine 2000: First wire rate 10Gbps forwarding engine 2002: First implementation of integrated services 2003: First scalable cell-switched fabric 2004: First multi-chassis router 2005: First line-rate 40Gbps forwarding engine 2007: First Ethernet router 1998-2006: Record quadrupling of capacity every 2 years 2009: Next generation edge silicon: TRIO-3D 2011: First 100G Universal Edge Silicon 2012: 240G Edge chipset 2014: 400G Single Stream Edge Chip
A total of 80 chips delivered successfully!
JUNIPER HAS A HISTORY OF SILICON FIRSTS
7 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
TRIO: NETWORK INSTRUCTION SET PROCESSOR
Trio is based on 10+ years of leading edge ASIC based PFE
Network Instruction Set Processor (NISP) Incorporates best of ASIC and Network Processor worlds Network Primitives “burned” into ASIC Microcode blocks implemented in ASIC for flexible feature
development and rich QoS
Network Primitives Implements the core packet processing primitives required
Microcode Instructions Flexibility to provide a variety of features and functionality Dynamically adapts to new requirements Investment protection Implemented in ASIC for predictable performance
8 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
PLATFORMS
9 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
One JUNOSOne TRIO CHIPSET
One UNIVERSAL EDGE
MX 960MX 480MX 5-80 MX 240
20-80Gbps
MX 2010 MX 2020
5.8Tbps
2.8Tbps
1.4Tbps
10Tbps
5.3Tbps
2.6Tbps
REVENUE GENERATION FOR THE NEXT DECADE
40Tbps
17Tbps
80Tbps
34Tbps
EXPANDING THE UNIVERSAL EDGEINTRODUCING THE MX2000 – THE FUTURE OF THE EDGE HAS ARRIVED
MX104
80Gbps
1.92Tbps
960Gbps
480Gbps
10 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MX SERIES CHASSIS OVERVIEW (CURRENT)
MX240 MX480 MX960 MX2010 MX2020
Max system switching capacity (half duplex)
1.92Tbps 5.8Tbps 10Tbps 40Tbps 80Tbps
Height (RU) 6 8 16 34 45
Slots 2 6 11 10 20
Forwarding* capacity/slot 260Gbps 260Gbps 260Gbps 860Gbps 860Gbps
10GE Ports* 52 146 276 480 960
Redundant RE Yes
Redundant Fabric Yes
Redundant Power Yes - AC/DC
* Current capacity, system capacity is higher
11 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MX SERIES CHASSIS OVERVIEW (CURRENT)
MX5 MX10 MX40 MX80 MX104
Capacity 20Gbps 40Gbps 60Gbps 80Gbps 80Gbps
Height (RU) 2 2 2 2 3.5
Slots1 fixed slot
(1 MIC)1 fixed slot
(2 MIC)1 fixed slot
(2 MIC)1 fixed slot
(2 MIC)1 fixed slot
(4 MIC)
BW / Slot* 20Gbps 40Gbps 60Gbps 80Gbps 80Gbps
10GE Ports* 2 4 6 8 8
Redundant RE No No No No Yes
Redundant Fabric No
Redundant Power
Yes – AC/DC
* Current capacity, chassis capacity is higher
12 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
THE MX2020 3D UNIVERSAL EDGE ROUTERFIRST SHIPMENTS: Q1 2013
Scales to 80Tbps - the industry’s most powerful edge router
20 I/O slots – Scales to 2Tbps FD per slot
Standard 19”Rack fit (45RU, 4 post rack)
Support for all MX services & applications
Support for all MPC’s - providing full investment protection
860Gbps per slot of fabric capacity Backplane future proofed to support 2x higher
Fully redundant design for all common components Fully redundant power feeds, and power modules DC and AC power support Redundant Routing Engines based on Quad-Core RE-S-1800x4 Scalable, Redundant Fabric architecture
Optimized, scalable thermal design
13 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
THE MX2010 3D UNIVERSAL EDGE ROUTER FIRST SHIPMENTS: Q2 2013
Exact same architecture as MX2020
Scales to 40Tbps
10 I/O slots – Scales to 2Tbps FD per slot
Standard 19”Rack fit (34RU, 4 post rack)
Support for all MX services & applications
Support for all MPC’s - providing full investment protection
860Gbps per slot of fabric capacity Backplane future proofed to support 2x higher
Fully redundant design for all common components Fully redundant power feeds, and power modules DC and AC power support Redundant Routing Engines based on Quad-Core RE-S-1800x4 Scalable, Redundant Fabric architecture
Optimized, scalable thermal design
14 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
Clock Gating
Reduces Dynamic power dissipation by disabling unused logic circuitry
Voltage Scaling
Increase/Decrease voltage to conserve power
Memory Sleep Mode
Unused memory put in sleep mode
Multiple levels of power redundancy
Zone, Supply, Distribution, Feed
Chassis common power amortization
Switch Fabric, RE, Fan power amortized over 20 slots
Active Power Monitoring
Hotter FRUs are shut down before it affects system performance
Fan Speed based on FRU temperature
At ambient temperature, fans consume only 20% of max power
Flexible Provisioned Power
Can provision less power if installation is guaranteed to operate at <25C or <40C
Dynamic Power Management
Drawing additional power only if a particular MIC is inserted
Chassis doesn’t pay the penalty for supporting a high powered MIC
SILICON
POWER DESIGN
SYSTEM SOFTWARE
15 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MX2K AMBIENT TEMPERATURE KNOB
Motivation MX2K is designed for NEBS requirements which means the system is
designed to operate under 55C ambient temperature conditions – this requires significant power to operate the system, particularly to cool it Some customers have facilities which provide 25C (some at 40C) ambient
temperatures with backup systems to ensure the ambient never rises above those temperatures and would prefer not to allocate power they do not need or plan to use
If the required amount of power is not available, the system will not power-up even if the router is located in a facility with an ambient less than 55C
Proposed Solution
Allow customer to specify what the ambient temperature is (25C, 40C or 55C) Will reduce the amount of power required by the system to power up
16 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MX2K AMBIENT TEMPERATURE KNOB DETAILS
Key implementation aspects Power calculation now uses ambient temperature based power information
Prior to this, it always assumes 55C ambient Fantray speed limited, even if temperature sensors indicate over-temp condition If over-temp condition persists, the affected FRU will be taken off-line Fantray power is a function of worst case line card present in the system
SKU Power, W
RE-CB 250
SFB 220
Fantray 1700
MPC6E2 950
“System” 3 28060
SKU 25C, W 40C, W 55C, W
RE-CB 250 250 250
SFB 220 220 220
Fantray(LC)1 315 695 1700
MPC6E2 850 900 950
“System”3 20520 23040 28060
1Fantray power is a function of worst case line card (LC) present; example here assumes MPC6E2MPC6E power requirements are approximate and subject to change until FRS3System consists of MX2020 Premium with 20 MPC6E line cards
OLD NEW
17 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MX104
Compact, Redundant & Future proof Trio based PFE – 80G 7.5 inches (W) x 3.5RU (H) x 9.5 inches (D) ETSI-300 compliant Dual redundant hot-pluggable REs for Control Plane
redundancy Dual redundant 1RU 600 Watt PSUs; AC and DC inputs
variants Wide operating temp range -40C to +65C Forced cooling with side-to-side airflow; FRU’able fan tray Alarm extension ports
Timing: BITS (T1/E1), 10MHz &1PPS and ToD timing
IO interfaces Sync E, SONET and 1588 (Brilliant IP
integration) timing features
Modular Design: 4x10GE SFP+ LAN/WAN uplink ports (built-in) 4 MIC Slots -~20G BW per slot
18 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MX80
48x1 RJ-45 ports 8 ports more than MIC 10/100/1000
4x10GE XFP built in ports
1 Services Slot for MS-MIC
Per Port Queuing
Fixed Chassis
2 MIC Slots• 20x1SFP, 2x10 XFP, 40x1 RJ-45• 100FX, 100BX
4x10GE XFP built in ports
1 Services Slot for MS-MIC
2 UART ports (Clock input/output), BITS input
Hierarchical QoS (per VLAN queuing)• License based queues
Synchronous Ethernet and 1588v2 supported
Modular Chassis
19 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
LINE CARDS
20 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MPC4E – MONOLITHIC 10 AND 100G MPC
MPC has 260G of bandwidth capacity
Line Card 1: 32x10GE SFP+ ports
Full Scale Routing
Applications 260G MPC
VPLS, L3VPN, L2VPN
Service Rich
Line Card 2: 2x100GE CFP & 8x10GE SFP+ ports
LAN and WAN PHY on 10GE ports
Now ShippingPort based Queuing
32x10GE SFPP ports
2x100G CFP + 8x10G SFPP ports
21 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MPC5E - HQOS ENABLED MONOLITHIC LINE CARD
240G Performance
HQoS and Port Queue Versions Available
Configurations: 2x100G CFP2 + 4x10G SFP+ 6x40G QSFP+ / 24x10G SFP+
Key Features 1588v2 / SyncE Support G.709 (OTN) termination 5 level HQoS 1M Queues
Applications Business Edge Subscriber Edge Data Center Core / Aggregation
1H 2014
22 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MPC6E – MX2010/MX2020 MODULAR LINE CARD
520G Performance
2 Interface Module Slots
Port Queue Only
Interface Module Options: 2x100G CFP2 OTN 4x100G CXP 24x10G SFP+ 24x10G SFP+ OTN
Key Features 1588v2 / SyncE Support G.709 (OTN) termination
Applications Business Edge Core Peering Data Center Core / Aggregation
1H 2014
23 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
SCBE2 – NG FABRIC CARD
Supports 480G per slot 360G per slot with fabric redundancy
260Gbps with redundancy on enhanced chassis 205Gbps with non-enhanced chassis
Capacity Increase
MPC4E
NOW SHIPPING
Future Investment Protection
MX960 ready for 480G line card No upgrade to Power/Fan/Fabric required All MPCs are supported, no DPC support
Centralized Clocking Support
BITS/GPS/RJ-45 clocking input Clocking Redundancy
10Tbps per MX960
24 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MX960 LINE-CARD FABRIC MIDPLANE BANDWIDTHPer Slot Bandwidth in Gbps 2009 2011 2013 2014
Line Rate Bandwidth1 160G 160G 260G 260G
Fabric Bandwidth Redundant [Non-Redundant]
80[120] 160[240] 160[240]205[250]260[260]3
Midplane Bandwidth Redundant [Non-Redundant] 320[480] 320[480] 320[480]
320[480]
360[480] 3
What’s New 16x10 MPC SCBE MPC4 MPC4 + SCBE2Usable Full-Fuplex
Line-rate Bandwidth 2 120G 160G 240G 260G
Notes:1. Line-rate capacity supported for each line-card slot; equally divided
among the number of PFEs2. Usable bandwidth is MIN(Line card BW, Fabric Capacity, Midplane)3. With enhanced midplane connector
25 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MX2010/MX2020 LINE-CARD FABRIC MIDPLANE BANDWIDTH
2012 2014
Line Card Line Rate BW 260G 480G
Fabric – BW per LC Redundant
[Non-Redundant]750[860] 750[860]
Midplane 2T 2T
What’s New MPC4E MPC6E
Usable full-duplex Line-rate slot BW 260G 480G
Notes:1. Line-rate capacity supported for each line-card slot; equally divided
among the number of PFEs2. Usable bandwidth is MIN(Line card BW, Fabric Capacity, Midplane)3. With enhanced midplane connector
29 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MPC4E/MPC5E BANDWIDTH
ChassisSCBE SCBE2
Fabric Redundancy
No Fabric Redundancy
Fabric Redundancy
No Fabric Redundancy
PREMIUM2 160G 240G 205G 260G for MPC4E240G for MPC5E
PREMIUM3 160G 240G 250G for MPC4E240G for MPC5E
260G for MPC4E240G for MPC5E
For MX240/MX480/MX960
For MX2020/2010
ChassisSFB
Fabric Redundancy No Fabric Redundancy
MX2020 260G for MPC4E240G for MPC5E
260G for MPC4E240G for MPC5E
MX2010 260G for MPC4E240G for MPC5E
260G for MPC4E240G for MPC5E
30 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MPC Type DescriptionTotal MPC
PFE Bandwidth
MX240MX480MX960
MX2010MX2020
MPC1 & MPC2(-Q/-EQ)
2 MIC slots (1GE,10GE MICs)
40 & 80 Gbps 2010 2H 2012
16 x 10GE Fixed 16 x 10GE Fixed 160 Gbps 20102H 2012
MPC32 MIC slots (100GE, 40GE,
10GE MICs)130 Gbps 2012 2H 2012
MPC432 x 10GE Fixed
2x100GE + 8x10GE Fixed260 Gbps 2013 1H 2013
MPC524x10GE or 6x40GE Fixed2x100GE + 4x10GE Fixed
240 Gbps 1H 2014 1H 2014
MPC6MX2000 520G MPC
2 MIC slots (10GE,100GE MICs)
520 Gbps NO 1H 2014
MX MPC SUMMARY
31 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
SERVICE MIC AND NEXT-GEN SERVICE MPC
NG NPU
NG NPU
NG NPU
NG NPU
TRIO
Service MIC
NG NPU
MPC/MX80
Service MIC Design - One NPU per MIC
IPSEC, Stateful Firewall, NAT
Inline Software Development Kit
For MX deployments needing to optimize slot real-estate and MX80
Up to 10Gbps of services capacity
Service MPC Design - 4 NPUs
L4-7 Services IPSEC, Stateful Firewall, NAT
Inline Software Development Kit
Very high scale/feature performance for NG Mobility
Up to 65Gbps of services capacity
Trio based inline offload
32 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MX SOFTWARE
33 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
x86 Server
VIRTUAL ROUTE REFLECTOR
Virtual RRExtensible to any virtualization platform that takes FreeBSD as a guest OS
Centos with KVM/QEMU Ubuntu VMWare ESXi (future)
Orchestration Platform: LIBVIRT, OpenstackFlexibility to choose any x86 platformJUNOS 13.3R3, 64-bit RPDEnables route reflector centralization
Hypervisor
Scale up and scale out with CPU and memory size to match the requirements
34 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
CENTRALIZED VIRTUAL ROUTE REFLECTOR DESIGNSolving the best path selection problem for cloud virtual route reflector
VRR 1 Region 1
RegionalNetwork 2
VRR 2 Region 2Data Center
CloudBackbone
GRE, IGP
GRE, IGP
VRR 2 selects path based on R1
view
R1
R2VRR 2 selects
path based on R2 view
GRE tunnel is originated from gre.X (control plane interface)VRR behaves like it is locally attached to R1 (requires resolution RIB configuration)
Client 2
Client 1Regional
Network 1
iBGP
iBGP
Client 3
iBGP
35 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
BUSINESS EDGESOFTWARE ROADMAP HIGH LEVEL OVERVIEW
• FIB scaling improvements via VPN localization• Inline implementation for CFM, BFD
Scaling and Performance
• IP FRR - Remote LFA, Policy LFA, per prefix LFA• BGP Prefix Independent Convergence• Node / Link protection via service mirroring• Dual Feed Multicast w/ Sender based RPF for MVPN
Convergence
• EVPN & VXLAN• Virtual CPE• Junos Node Unifier• Inline Video Monitoring
New services and
deployment models
41 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
INLINE KEEPALIVES INFRASTRUCTUREOVERVIEW
MPC
CPU
WAN Fabric
Data plane links
Control plane links
Inline keepalive
processing
Inline means packets are processed by the Trio network processor
Every Trio maintains a session table for sessions pertaining to the interfaces it serves
Trio periodically transmits and receives keepalive packets with high accuracy (milliseconds). Line card CPU is not involved
If no keepalive is seen in a required period of time, this is reported to the line card CPU, which informs RE and (may) trigger a re-route event
Aggregated Interfaces and Multi-LU PFEs are special case, one anchor PFE (or LU) may be selected to process keepalives, other PFEs (LUs) steer incoming traffic to the anchor one (depend on the application)
Trio
Trio
42 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
INLINE CFM (CONTINUITY CHECK)PLATFORM SUPPORT AND SCALING
N SESSIONS INTERVAL LEVEL
500 10 ms Line card
2000 100 ms Line card
8000 1 s Chassis
PLATFORM MX
LINE CARD Trio
MX MIXED MODE Yes
JUNOS 12.3R5
Software and hardware
Scaling (tested with RE-1800)
ENCAPSULATIONSVPLS, CCC,
Bridge, Routed
OTHERNON-AE interfaces
Features
43 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
INLINE BFDPLATFORM SUPPORT AND SCALING
N SESSIONS INTERVAL LEVEL
600 3 ms Line card
6000 50 ms Line card
10000 150 ms Line card, System
PLATFORM MX
LINE CARD Trio
MX MIXED MODE Yes
JUNOS 13.3
Software and hardware
Scaling (tested with RE-1800)
PROTOCOLS IPv4 and IPv6
OTHER Single hop only
Features
44 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
SRX
VPLS DEPLOYMENT OPTIONS WITH MX – TODAY
NATFWLB
IPSec
SRX
Switch
MX Series
NATFWLB
IPSecSwitch
MX Series
MC-LAG
NATFWLB
IPSec
SRX
Switch
MX Series
LAG
VC
VPLS Multi-Homing VPLS with MC-LAG Active-Standby
VPLS with MX Virtual Chassis
LAG LAG
IP, MPLS IP, MPLS IP, MPLS
LAG LAG
>1 VPLS devicesVPLS controlled Active-StandbyPer VLAN
A A A ASS
>1 VPLS devicesMC-LAG controlled Active-Standby on LANPer VLAN
One VPLS deviceActive forwarding through all links of LAG
LAG
45 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
LAN
ETHERNET VPN INTRODUCTION
LAG
Ethernet-VPN a new standards based protocol
Inter-connects L2 domains over MPLS or IP backbone
Multi-vendor initiative between JNPR, CSCO, ALU
Control Plane based protocol
Preferred choice for a variety of SDN solutions
Leverages BGP and MPLS strengths
Policy based learning, advertisement for controlled learning
L3 aware L2 solution
WAN
BGP based state exchange
EVPN router
EVPN router
Completed first release and building up capabilities
46 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
ADVANTAGES OF EVPN
NATFWLB
IPSec
SRX
SwitchNetwork
MX Series
MX Series
NATFWLB
IPSec
SRX
MPLS or IP
LAGLAG
SwitchNetwork
detours
detoursAll Active forwarding with built-in L2 Loop Prevention
Leading HA, fast convergence and recovery capabilities
Control Plane based information exchange / control
(policy based control)
L2 & L3 Layers Tie-In Built-in the
protocol
VM Mobility Optimizations
Leverages strengths of MPLS and
BGP
47 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
WAN
VXLAN OVERLAY GATEWAY ON MX
Virtual eXtensible Local Area Network (VXLAN)
L2 connections within IP overlay
Unicast & multicast
Delivering a solution agnostic of Ethernet switch layers
Allows flat DC design w/out boundaries
Network design simplicity and elasticity
Options to run with and without SDN controller
1H 2014
Overlay environment
TOR
IP overlay connections established between VXLAN end-points of a tenant
Gateway between
overlay LAN: one end of the
VXLAN tunnels
VDS
VMVM
VMVM
VMVM
VMVM
VMVM
VMVM
Hypervisor / distributed
Virtual Switch – other end of
VXLAN tunnels
Fully meshed unicast tunnels – for known L2 unicast traffic
PIM signaled multicast tunnels for L2 BUM traffic
Management Station
48 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
JUNOS NODE UNIFIER – JNUController Central hub to manage hundreds of connected
network devices
MX Series 3D Universal (with MPC)Satellite Network devices managed and provisioned
from a central hub system
EX-series, QFX, ACX etc.
Port Extender Mode
Feature Rich Mode
Provisioning from single touch point
Operations from single touch point
SNMP traps/SNMP polling/Logs from single touch point
Software upgrade/downgrade from single touch point
49 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MX SOLUTIONS
50 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
BROADBAND EDGE SOLUTION 1.0
BROADBAND EDGE SOLUTION
Available at http://www.juniper.net/us/en/local/pdf/implementation-guides/8010092-en.pdf
Sharing best practices and recommended designs Basic Broadband Services - Triple Play, IPv6 Subscriber Mgt - PPP/DHCP Dual Stack AAA Integration for H-QoS & Filters Resiliency - GRES/ISSU/Virtual Chassis,
Subscriber Secure Policy (e.g., Lawful Intercept), Wholesale services - L2TP LAC
51 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
BUSINESS EDGE 1.0 DESIGN GUIDE
BUSINESS EDGE SOLUTIONDESIGN GUIDE
Available at http://www.juniper.net/us/en/local/pdf/design-guides/8020019-en.pdf
Sharing best practices and recommended designs Auto-bandwidth RSVP TE Edge Class of Service Profiles Pseudo-wire headend termination (lt-based) Remote Triggered Blackholes (Source and
Destination) Loopback filter / Control Plane Protection Generalized TTL Security Mechanism for eBGP IPFIX export for the peering router Internet Routing Policy for peers, customers and
upstreams FWNAT Service Geo-redundancy
52 Copyright © 2013 Juniper Networks, Inc. www.juniper.net
MOBILE BACKHAUL SERVICE PROFILES AND DEPLOYMENT SCENARIOS
Service profileUse case
MBH
Topology
Deployment Scenarios
IP/MPLS Transport
Services Sync & Time
Rin
g T
op
olo
gy
Hu
b a
nd
Sp
oke
ISIS
,R
SV
P, B
GP
-LU
, L
DP
DO
D
Syn
cE
1588
v2
CESoPSNSATOP
ATM PW
H-VPLS
CES
E-LAN
E-TREE
Hierarchical
L3VPN
L3VPN with PW
in Access
2G/3G
3G
4G/LTE
HSPA
UNIVERSAL ACCESS AND AGGREGATION MOBILE BACKHAUL DESIGN GUIDE
https://www.juniper.net/elqNow/elqRedir.htm?ref=http://www.juniper.net/us/en/local/pdf/design-guides/8020018-en.pdf
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