3Ceragon IP-20 - New Generation of MW Equipment
Short Description
Ceragon...
Description
FibeAir IP-20N & IP-20G New Generation of Microwave Equipment
Oct. 2014
The #1 Wireless Hauling Specialist Innovation
>550,000 Radios since 2004
3
Experience
Rev. $404M four rolling quarters
Commitment
Field Proven Experience
Proprietary and Confidential
Professional R&D Teams
Ceragon’s In-House Hauling Capabilities Technology Leadership with Proven Footprint
• Best performance - capacity, reliability, green, form-factor • Agile and flexible in innovation rollout • Tight integration between all IP-20 series products •
Turnkey projects
Enabler for mass production
Professional Services Integration Self‐designed
Experience and committed
Planning, Building, Operating & Maintaining
Indoor unit + Radio unit Programmable network processors
RFIC design modem “System‐on‐a‐Chip”
FibeAir IP-20 Platform
Ceragon’s vertical integration From self‐designed RFICs and modem “System‐on‐a‐Chip” to turnkey projects 4
Proprietary and Confidential
FibeAir IP-20N / IP-20G Wireless Multi-Technology Aggregation / Edge Nodes
FibeAir IP-20N Multi-Radio Technology Aggregation Node
IP-20N
IP-20N
IP-20N
• Up to 10 radio carriers in 2RU • Any radio transmission technology mix (4-86GHz)
• • • • 6
TDM & Ethernet - 4x 1GE / 1x 10GE, 16x E1 / 1x ch-STM1 Integrated Carrier Ethernet switch, MEF CE 2.0 compliant, MPLS-TP-ready High service granularity using Hierarchical QoS (H-QoS)
Fully interoperable with Ceragon installed-base units Proprietary and Confidential
FibeAir IP-20N Selection Guidelines Capacity • • •
Installation
Up to 500Mbps 500Mbps – 1Gbps Above 1Gbps
• • •
Output Power
Application
All-outdoor Split-mount All-indoor
• • •
Access/Edge Multi-direction (Node) Multi-carrier (Trunk)
• • •
Standard High Ultra-High
FibeAir IP-20N Multi-Radio Technology Aggregation Node
IP-20N E-Band
RFU-C
1RU chassis
• • • 7
IP-20S
IP-20C
IP-20N 2RU chassis
Highly scalable and modular Hybrid multi-service platform –TDM & Ethernet Single network element for all any radio transmission technology mix (4-86GHz) Proprietary and Confidential
IP-20N
FibeAir IP-20N – 2RU Chassis Filter tray (optional)
2 x Slots for Main traffic and control cards (TCC)
8 8
2 x Slots for power distribution cards (PDC)
10 x Universal slots for: - Radio interface cards (RMC, RIC) - Ethernet line cards (4x GE, 1x 10GE) - TDM line cards (16x E1, 1x ch-STM1)
Proprietary and Confidential
Fans tray
FibeAir IP-20N – 1RU Chassis Filter tray (optional)
1 x Slot for Main traffic and control card (TCC)
1 x Slot for power distribution card (PDC) Single or Dual feed
5 x Universal slots for: - Radio interface cards (RMC, RIC) - Ethernet line cards (4x 1GE, 1x 10GE) - TDM line cards (16x E1, 1x ch-STM1)
9 9
Proprietary and Confidential
Fans tray
FibeAir IP-20G Multi-Radio Technology Edge Node
• Low footprint fixed design - quick, simple and reliable set - 2 radio carriers in 1RU
• Any radio transmission technology mix (4-86GHz)
• TDM & Ethernet - 4x 1GE, 16x E1 • Integrated Carrier Ethernet switch, MEF CE 2.0
IP-20G IP-20G
compliant, MPLS-TP-ready
• High service granularity using Hierarchical QoS (H-QoS) • Fully interoperable with Ceragon installed-base units
10
Proprietary and Confidential
FibeAir IP-20G Selection Guidelines Capacity • • •
Installation
Up to 500Mbps 500Mbps – 1Gbps Above 1Gbps
• • •
All-outdoor Split-mount All-indoor
Output Power
Application • • •
Access/Edge Multi-Direction (Node) Multi-Carrier (Trunk)
• • •
Standard High Ultra-High
FibeAir IP-20G Multi-Radio Technology Edge Node
E-Band
RFU-C
IP-20S
IP-20G
IP-20C
IP-20G
• • • • 11
Optimized for access/edge sites Easy to install and maintain Low footprint fixed design - quick, simple and reliable set up Hybrid multi-service platform –TDM & Ethernet Proprietary and Confidential
FibeAir IP-20G – Tail/Edge Node Product Overview
1RU
16 x E1s (optional)
External Alarms (DB9) Sync in/out (RJ45)
2 x FE Management (RJ45)
2 x Dual-Mode:
GE Electrical or ‘Cascading’ (RJ45) Terminal (RJ45)
2 x GE Optical (SFP)
1 or 2 RFU interfaces (TNC)
Power -48V DC (Single-feed & Dual-feed options)
2 x GE Electrical (RJ45)
Purpose-built for tail/edge nodal sites Same features/capabilities as IP-20N Aggregation Nodes 12
Proprietary and Confidential
Hybrid (TDM + Eth) services over IP-20G ‘cascading port’ TDM cross-connect (VCs)
SAP
Cascading Port
TDM traffic
Port
Ethernet Services (EVCs)
SNP SAP
SNP
TDM cross-connect (VCs) E1/ ch-STM1 Port
SAP
Cascading Port Port
User Port (UNI)
Ethernet Services (EVCs)
GE/FE Port
SAP SAP
SNP SAP
Packet traffic
Hybrid Radio
FibeAir IP-20 Short-Haul Solution Reference Network and Configurations FibeAir IP-20C Compact All-outdoor Multi-Core Core Network
IP-20G
Fiber Aggregation Network
Tail/Edge Node IP-20N
IP-20C
IP-20N
IP-20C
IP-20G
FibeAir IP-20S Compact All-outdoor
IP-20G
IP-20G
IP-20S
FibeAir IP-20N 1RU / 2RU Modular Chassis
IP-20G
Tail Node
FibeAir IP-20G
IP-20G
1RU Fixed Design, Cascadable
Aggregation Node Up to 5/10 RFUs Full redundancy option (No SPoF)
Tail/Edge Node 1 or 2 RFUs per unit 14
Proprietary and Confidential
FibeAir IP-20E New Generation for E-Band Solutions
15
FibeAir IP-20E Technical Highlights IP-20E
•
Applications: • Macro sites interconnection • Tail Sites and Small Cells Aggregation • Alternative to spectrally congested bands (e.g. 38GHz)
•
Frequencies: FDD 71-76 / 81-86 GHz • 250MHz channel • Header De-duplication, 30% capacity gain
•
4-256QAM – Errorless ACM transition
•
Networking • E2E service provisioning and management • Integrated CET, MEF 2.0 compliant • MPLS-TP ready • Advanced H-QoS • Flexible packet sync – SyncE,1588v2
•
Power: DC (48VDC), PoE
Capacity Highlights (Radio capacity only) 1Gbps at 1.54km (1ft, 250MHz, 99.99%, RZ-K) 1.3Gbps at 1.54km (1ft, 250MHz, 99.97%, RZ-K)
16
Proprietary and Confidential
FibeAir IP-20E Mechanical Overview 1+0 Direct Mount
1+1 HSBY Direct Mount Radio Only
Dimensions Weight
17
230mm (H) x 233mm (W) x 98mm (D) 4 kg
Proprietary and Confidential
FibeAir IP-20E Interfaces (Bottom View)
Ext DC
GE1 (Elec + PoE /Opt)
GE2 (Elec/ Opt)
GE3 (Elec/ Opt)
• 3 Data Interfaces •
• 18
• Either optical or electrical – assembly option External DC interface • For cases when PoE is not required External Management Proprietary and Confidential
MGT
CeraOS - The Unifying Thread
Infrastructure software that provides seamless integration and common capabilities across the entire IP-20 platform
FibeAir Family Ethernet
IP-10G
Multi Carrier Multi Direction
IP-20N
Multi-Technology Aggregation Node
IP-20LH
Multi-Carrier Trunk Node
Integrated Carrier Ethernet Node 20
Compact All-Outdoor Node
Compact E-Band Node
Compact All-Outdoor Multi-Core Node
Multi-Technology Edge Node
Multi-Technology Cascaded Edge Node
IP-20E
IP-20C
IP-20G
IP-20G
IP-20S IP-20G
High End Edge Node
Two Carriers Two Directions
Single Carrier Single Direction
Ethernet + TDM
Proprietary and Confidential
IP-20C HP
Compact High Power Multi-Carrier Trunk
Resolving Hauling Challenges Across Entire Networks
FibeAir IP-20S
FibeAir IP-20C
FibeAir IP-20G
FibeAir IP-20N
Compact All-Outdoor Node
Compact All-Outdoor Multi-Core Node
Multi-Technology Edge Node
Multi-Technology Aggregation Node
21
FibeAir IP-20LH Multi-Carrier Trunk Node
Proprietary and Confidential
Evolution IP-20LH Multi-Carrier Trunk Node
CeraOS - The Unifying Thread A single, unified software infrastructure that provides improved interwork management and higher application availability
The CeraOS cost-effectively manages resources by controlling and unifying complex, distributed network intelligence
IP-20LH
IP-20LH
CeraOS
IP-20N
IP-20C HP
IP-20G IP-20G IP-20C IP-20S
IP-20N
Small Cells
IP-20C
IP-20S 22
BNC/RNC
IP-20N
Proprietary and Confidential
CeraOS - the unifying thread • The CeraOS provides a complete set of service-centric features and performance-boosting capabilities across the all IP-20 products.
• CeraOS creates a unified, simple to operate and manage approach for building, expanding and maintaining wireless backhaul & fronthaul network
CeraOS Complete set of functionality across all IP-20 product series
FibeAir IP-20 Product Series
Evolution IP-20LH
IP-20 Platform Technologies
23
Proprietary and Confidential
CeraOS - Interwork Intelligence • Infrastructure software intelligence that can add new services, features and applications to the interwork
CeraOS QoS Consistency End-to-end service Provisioning & Monitoring
Synchronization distribution Capacity boosting techniques Common O&M user interface
Common capabilities across all IP-20 product series 24
Proprietary and Confidential
IP-20 Value Structure • Hardware, Software & Licensed Features
25
Licensed Software Operating System
Hardware
Software
Licensed Scalability • • • •
Radio capacity 2nd modem/core activation (IP-20G/C) Additional GE user interfaces Additional CET-Node services/EVCs (L2)
Licensed Premium Functionality
Licensed Mode – CET-Node
•
• •
• • • • •
Advanced radio configurations Advanced QoS Ethernet OAM Synchronization Network resiliency Advanced security
CET services/EVCs (L2) 2x GE user interfaces
CeraOS Base-line functionality Smart-Pipe services (L1); 10M radio capacity; 1x GE user interface
Evolution IP-20LH
IP-20 Product Series Product Models, Assembly options, Add-on modules
Proprietary and Confidential
TDM Services
Hybrid Services Engine – Ethernet + TDM Services engine TDM cross-connect (VCs) E1 Ch-STM1
TDM traffic TDM PW
Hybrid Radio Network processor (EVCs)
Packet traffic GE/FE
• Native TDM Services (VCs) • Ethernet Services (EVCs) • Ethernet switched (L2) services – E-Line (PtP), E-LAN (MPtMP)
• Ethernet port based (L1) services (“smart pipe”) • TDM Pseudowire services – Unstructured (SAToP), Structured (CESoP) 28
Proprietary and Confidential
FibeAir IP-20N / IP-20G Backhaul Solutions • • • •
Multi-Gigabits Capacity H-QoS’s Role Synchronization Distribution TCP Burst Resiliency in LTE/4G Networks
FibeAir IP-20N / IP-20G Backhaul Solutions • • • •
Multi-Gigabits Capacity H-QoS’s Synchronization Distribution TCP Burst Resiliency in LTE/4G Networks
Ultra-high Capacity at Any Spectrum Multi-Gigabits Radio Capacity with High Spectral Efficiency Capacity Boosting Techniques
Radio Capacity without any optimization
Traffic Boosting
Network Utilization
Spatial Efficiency HQoS Header Deduplication
Spectral Efficiency
WRED
Spectrum
Asymmetrical
4x4 LoS MIMO
Payload Deduplication
2048QAM Wide Channels
31
Proprietary and Confidential
TCP Buffers
Topics for Discussions Capacity-Boosting techniques Payload De-Duplication
Header De-Duplication
Radio Capacity without any optimization
MHz 32
• Payload De-Duplication • Header De-Duplication • LTE/HSPA Optimized Header Compression • •
Multi Carrier Adaptive Bandwidth Control (ABC) Adaptive Bandwidth Recovery (ABR)
Radio Capacity without any optimization • High Modulations • XPIC • 4x4 LoS MIMO
Channel BW Proprietary and Confidential
Show Me The Numbers Capacity Innovations over a Single 28MHz Channel in Licensed Bands Payload De-Duplication
Header De-Duplication
Over a
single 28MHz channel
1Gbps (2048 QAM)
4x4 LoS MIMO
Radio Capacity without any optimization
+520Mbps
520Mbps
Radio Capacity
(2048 QAM)
XPIC
+260Mbps
260Mbps
without optimization
in licensed bands
(2048 QAM)
240Mbps
1Gbps
+65Mbps
(1024QAM)
195Mbps (256 QAM)
28/30 MHz 33
Proprietary and Confidential
Capacity-Boosting Techniques Header De-Duplication
Payload De-Duplication
Header De-Duplication
+30% 10%
LTE/HSPA Optimized Header Compression
20%
Multi-Layer (L2-4) Compression
• • •
Performs compression of L2 – L4 headers between 2 ends of the same link Does not impact or alter traffic Does not affect latency
1Gbps (2048 QAM)
4x4 LoS MIMO
Radio Capacity
520Mbps
without any optimization
XPIC
(2048 QAM)
260Mbps (2048 QAM)
240Mbps (1024QAM)
195Mbps (256 QAM)
28/30 MHz 34
Proprietary and Confidential
Capacity-Boosting Techniques Payload De-Duplication
+40% Payload De-Duplication
Header De-Duplication
40%
Traffic Optimizer
10%
LTE/HSPA Optimized Header Compression
20%
Multi-Layer (L2-4) Compression
1Gbps (2048 QAM)
4x4 LoS MIMO
Radio Capacity
520Mbps
without any optimization
XPIC
(2048 QAM)
• Innovative Bit Stream Indexing technology • Additive to other traffic acceleration techniques offered by Ceragon
• • • •
Exploits repetitive bit patterns in traffic Content, application & protocol agnostic Does not affect network functionality Optimized for aggregation microwave backhaul where most repetitions occur
260Mbps (2048 QAM)
Repetitive bit-level patterns identified & compacted
240Mbps (1024QAM)
195Mbps (256 QAM)
28/30 MHz 35
De-compressor Proprietary and Confidential
Compressor
FibeAir IP-20N / IP-20G Backhaul Solutions • • • •
Multi-Gigabits Capacity H-QoS Synchronization Distribution TCP Burst Resiliency in LTE/4G Networks
Hierarchical QoS (H-QoS) vs. Standard QoS Standard QoS
•
Differentiation between different traffic classes (CoS)
•
Services within the same traffic class are treated as a single aggregate with no isolation
•
Limited per-service visibility and control
V
Service 1
Voice
S V
Service 2
Streaming
S V
D
S
D
Eth. traffic
Ethernet Radio
Data
D
Service 3
H-QoS
•
Each service gets its own personalized treatment
•
TDM-grade performance providing per-service full visibility and control
V
Service 1 D
V S
Service 2
D
Service 2
V
Service 3
37
S
Service 1
S
Service 3 D
Proprietary and Confidential
Ethernet Radio
NEW Revenue Streams - Diversified SLA Packages Common CoS
Predictable Service Performance CoS with multiple classes of Availability
Priority Service 1 2
User 1
3
Voice Data
Bandwidth Profile:
Priority Service
Q. High
1
1 1 1
2
Best effort
User 1
Q. Medium
User 2
1
Voice
2
Data
3
2 2 2
Q. Low
Best effort
3 3 3 2 2 2 1 1 1
User 2
38
Voice
Gold
Data
99.999% availability
3
Best effort
1
Voice
Silver
2
Data
99.99%
3
Best effort
3 3 3
User 3
1
Voice
1
Voice
2
Data
2
Data
3
Best effort
3
Best effort
User 3
CoS & Availability
availability
Bronze 99.9% availability
Proprietary and Confidential
3 3 3 2 2 2 1 1 1
NEW Revenue Streams - Diversified SLA Packages Predictable Service Performance
Common CoS
CoS with multiple classes of Availability Priority Service 1 2
User 1
3
Voice Data
Bandwidth Profile:
Priority Service
Q. High
1
1 1 1
2
Best effort
User 1
Q. Medium
User 2
1
Voice
2
Data
3
2 2 2
Q. Low
Best effort 3 3 3
User 3
39
1
Voice
2
Data
3
Best effort
2 2 2 1 1 1
Adaptive Modulation effect
User 2
User 3
CoS & Availability
Voice
Gold
Data
99.999% availability
3
Best effort
1
Voice
Silver
2
Data
99.99%
3
Best effort
1
Voice
2
Data
3
Best effort
availability
Bronze 99.9% availability
Proprietary and Confidential
3 3 2 2
1 1
Adaptive Modulation effect
Hierarchical QoS CoS Level (Within a service)
Service Level
Port Level
CoS 1
CoS 5
SP + WFQ
SP + WFQ
CoS 6
WFQ
CoS 7 CoS 8
WFQ
CoS 1
CoS 3 CoS 4
CoS 5 CoS 6
WFQ
CoS 2
Service #n
CoS 7 CoS 8
Multiple Levels of Scheduling and Shaping Differentiate Services 40
Dual Shaper
CoS 4
Dual Shaper
Service #1
Dual Shaper
CoS 3
WFQ
CoS 2
Proprietary and Confidential
1st priority 2nd priority 3rd priority 4th priority
FibeAir IP-20N / IP-20G Backhaul Solutions • • • •
Multi-Gigabits Capacity HQoS’s Role in Backhaul Sharing Synchronization Distribution TCP Burst Resiliency in LTE/4G Networks
Integrated Sync Solutions • Native Sync Distribution •
Integrated Sync unit • • • •
•
End-to-End Frequency distribution for nodal configurations Dedicated Sync interfaces (in/out) SyncE and TDM input/output (G.8262) SSM/ESMC (G.8264)
PRC grade (G.811) performance for pipe applications (“regenerator”)
• IEEE 1588v2 (Precision Time Protocol) •
Synchronization distribution for… • Frequency • Phase • Time of day
• • •
Controlled delay/delay-variation using Frame Cut-Through technology Transparent clock (TC) Integrated Client, Master & Boundary clocks (OC/BC)
Flexible solution for any network and migration strategy Optimized for LTE/LTE-A 42
Proprietary and Confidential
Native Sync Distribution
Eth E1 Eth E1
FibeAir IP-20
STM1
FibeAir IP-20
Eth E1 STM1
FibeAir IP-20
Any interface as sync output
Native sync distribution over radio links
Any interface as sync reference
• E1
• Any link configuration
• E1
• STM1
• Any network topology
• STM1
• Ethernet (SyncE)
• Dynamic sync source selection
• Ethernet (SyncE)
43
Proprietary and Confidential
STM1
FibeAir IP-20N / IP-20G Backhaul Solutions • • • •
Multi-Gigabits Capacity HQoS’s Role in Backhaul Sharing Synchronization Distribution TCP Burst Resiliency in LTE/4G Networks
The Problem Why am I not getting the throughput I think I should be getting?
ISP: Acme Telecom
Speedtest.net says 18.9Mb/s, only 36% of 50 Mbps Service? File download at 339 KB/Sec utilizes only 6% of 50 Mbps Service?
• Mobile LTE/4G networks runs most services and applications over TCP protocol • Instantaneous congestion over the TCP protocol resulting in instantaneous, large bursts that contribute to application throughput reduction and poor quality of experience for the user Proprietary and Confidential
The Problem (cont.) Factors affecting throughput: • •
Bandwidth profile Traffic policing & shaping
• Protocol of choice – IP, TCP, UDP etc. •
Other SLA parameters - Delay, Delay Variation, Frame Loss Ratio, Frame size
Are you getting all of this?
No, slow down Mobile Network
This presentation is about the affect of TCP protocol on throughput in mobile 4G/LTE networks 46
Proprietary and Confidential
Recommended Buffer Size What is the recommended buffer size for single TCP flow in LTE network? • The buffer size must be calculated carefully and based on two considerations: • Latency – If low latency is required, small buffer sizes are preferred as dropping frames in the queue is preferable to increasing latency.
• Throughput immunity to fast bursts – When the traffic is characterized by fast bursts, it is recommended to increase the buffer sizes of the priority queues to prevent packet loss. Of course, this will come at the expense of a possible increase in the latency.
Burst sizes can be configured as a tradeoff between the latency and immunity to bursts according application requirements Proprietary and Confidential
Handling Buffer Size in Microwave Radios • The large buffer size is easily supported by the Ceragon’s FibeAir •
microwave radios Planning for burst handling is done according to Enhanced QoS
Buffer Size
5Mbit
Sync & Management
10Mbit
Voice & Signaling
60Mbit
Data (TCP) - Bronze
60Mbit
Data (TCP) - Silver
60Mbit
Data (TCP) - Gold
Priority queues with configurable buffer length 49
Proprietary and Confidential
Summary
Main Features – Split-Mount: IP-20G & IP-20N FibeAir IP-20G
FibeAir IP-20N
Positioning – Integrated solution (L2)
Edge node with up to 4 radio carriers/directions. 1RU, Fixed, fan-less, dual-modem design. Optimized for cost, easy installation & operation and low power consumption.
Aggregation node with up to 10 radio carriers/directions. 1RU/2RU, Ultra-Modular, high density. Full redundancy option (2RU only). Optimized for scalability, versatility and highavailability.
Positioning – Smart-Pipe solution (L1)
Access split-mount packet/hybrid terminal. Up to 2+0/1+1 with RFU-C, 4+0/2+2 with IP-20C* Optional E1s
Aggregation split-mount packet/hybrid terminal. Up to 8+0/2+2 with RFU-C or IP-20C Optional E1s / STM1
RFU-C/Ce supported configurations
• • • • •
• • • • •
RFUs support
• RFU-C/Ce • IP-20C/S*
• RFU-C/Ce • IP-20C/S*
Ethernet Traffic Interfaces
• 2x GE optical (4 x GE optical w/ cascading) • 4x GE electrical (6 x GE electrical w/ cascading)
• 8 x GE electrical/optical • 2 x 10GE*
TDM traffic interfaces
• 16x E1s (32x E1s w/ cascading)
• Up to 160x E1s • Up to 10x ch-STM1* • Up to 4x STM1 RST (Clear-Channel)*
1+0 (including 2 directions in same unit) 1+1 HSB Multi-Carrier: 2+0 ABC* Multi-Carrier: 1+1 HSB/BBS XPIC*
1+0 1+1 HSB Multi-Carrier: 4+0 ABC, 8+0 ABC* Multi-Carrier: 1+1/2+2 HSB/BBS XPIC
* Roadmap 51
Proprietary and Confidential
FibeAir IP-20N & IP-20G
52
FibeAir IP-20N
FibeAir IP-20G
Wireless Multi-Technology Aggregation Nodes
Wireless Multi-Technology Edge Nodes Proprietary and Confidential
Thank You
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