Post on 03-Jun-2018
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FibeAir IP-40 Introduction
Ing. Martin Buro
VUMS DataCom
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12. Partnersk den VUMS DataCom, Praha, 9.12.2010
Introducing: FibeAir IP-40
FibeAir IP-10
FibeAir IP-40
Integrated nodal solution (L2) & pipes (L1)
All-packet & Native2 (Packet + TDM)
Purpose built for high capacity (Full GE) packet pipes only (L1)
Optimized for access
Optimized for aggregation
Replace
FibeAir IP-MAX2
Purpose built for packet pipes only (L1)
Carrier Density
Jumbo frames
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FibeAir IP-40 highlights
Purpose built for high capacity (Full GE) aggregation wireless links
Any network topology and technology (Ethernet, MPLS, etc.)
Ideal for Short-haul and Long-haul/Trunk applications coupled withCeragons market leading RFU portfolio
Ultra flexible & modular design with built-in redundancy
Optimized value proposition with seamless scalability
Jumbo frames support
Availability Mid-2011
GE
(With optional LAG)
Main supported radio configurations:
4 x 1+0
2 x 1+1 HSB (optional SD/FD)
2 x 2+0 East/West (XPIC optional)
2+2 HSB (XPIC, SD/FD optional)
3+0/2+1 (XPIC optional)
4+0/3+1 (XPIC optional)
Ultra modular & compact design up to 4 carriers in 1RU
Highly flexible, Fully redundant
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FibeAir IP-40 Main innovations
Unique True 4+0 multi-radio Full GE native packet solutionusing 28MHz channels
Unique Full high availability (no SPoF) in 1RU
Highest capacity and spectral efficiency
Advanced Multi-Layer header compression
Advanced traffic optimization
Lowest latency frame cut-through for delay sensitive traffic(VoIP, PWE3, etc.)
Highest synchronization performance optimized LTE readysync solution including ACM and narrow channels support
SyncE regenerator with PRC (G.811) grade performance
Optimized PTP transport (IEEE-1588, NTP, etc.)
Integrated AES256 encryption option
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RU height , rack width modules
Up to 4 carriers in 1RU
FibeAir IP-40
Split-mount architecture - Compatible with all Ceragon RFUs.
Dimensions: Height 1RU , width fits 19" rack, Depth 248mm (ETSI)
Fans
drawer
Craft
Terminal(RJ45)
1 x GE combo
Electrical (RJ45)or Optical (SFP)
2 x FE for
management
(RJ45)
Power feed,
-48V DC
Radio
interface
(TNC)
Alarms
(DB9)
EOW
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RFUs support
FibeAir IP-40 works with:
FibeAir RFU-HP FibeAir RFU-HS FibeAir RFU-P FibeAir RFU-C
High power Standard power
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IP-40 High Capacity scripts - ETSI
* Ethernet capacity depends on average packet size. MAC header compression enabled
ACM
PointModulation
Ethernet
Capacity
(Mbps)
1 QPSK 40 - 58
2 8 PSK 54 - 78
3 16 QAM 78 - 111
4 32 QAM 105 - 151
5 64 QAM 131 - 188
6 128 QAM 160 - 229
7 256 QAM 178 - 255
8 256 QAM 188 - 268
ACM
PointModulation
Ethernet
Capacity
(Mbps)
1 QPSK 76 - 109
2 8 PSK 114 - 163
3 16 QAM 151 - 217
4 32 QAM 202 - 288
5 64 QAM 251 - 358
6 128 QAM 301 - 430
7 256 QAM 343 - 490
8 256 QAM 372 - 532
7MHz
ACM
PointModulation
Ethernet
Capacity
(Mbps)
1 QPSK 56 - 80
2 8 PSK 83- 119
3 16 QAM 122 - 174
4 32 QAM 153 - 218
5 64 QAM 191- 274
6 128 QAM 214 - 305
7 256 QAM 243 - 347
8 256 QAM 259 - 370
ACM
PointModulation
Ethernet
Capacity
(Mbps)
1 QPSK 9.5 13.5
2 8 PSK 14 20
3 16 QAM 19 28
4 32 QAM 24 34
5 64 QAM 28 40
6 128 QAM 32 46
7 256 QAM 38 54
8 256 QAM 42 60
ACM
PointModulation
Ethernet
Capacity
(Mbps)
1 QPSK 20 - 29
2 8 PSK 29 - 41
3 16 QAM 42 - 60
4 32 QAM 49 70
5 64 QAM 57 82
6 128 QAM 69 - 98
7 256 QAM 81 - 115
8 256 QAM 87 - 125
14MHz
28MHz 40MHz 56MHz
ACM
PointModulation
Ethernet
Capacity
(Mbps)
16 QAM 9.5 13.5
64 QAM 14 20
3.5MHz
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FibeAir enhanced radio efficacy and capacity for
Ethernet traffic
Intelligent Ethernet header compression mechanism No affect on user traffic
Ethernet
Frame size (bytes)
Capacity increase by compression
MAC header
compression
Multi-Layer header
compression*
64 45% 250%
96 29% 84%
128 22% 55%
256 11% 23%
512 5% 10%
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FibeAir Radio Latency Innovation
Best in class latency (RFC-2544) for all channels ready for LTE!
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Gigabit EthernetMulti Radio
v
h
N+0 Ethernet Traffic (XPIC supported)
Graceful degradation ability in case of one or more carriers fail Multi Radio & Adaptive modulation
Independence behavior for each radio carrier Maximize spectrum efficiency
Optimal data split between two carriersAchieving 100% utilization of radio resources
Load balanced based on instantaneous radio capacity per carrier
NOT according to Link Aggregation, so not dependent on number of MAC addresses
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FibeAir packet synchronization solution
Unique PTP optimized transport
Support IEEE-1588, NTP, etc.
Guaranteed ultra-low PDV (
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FibeAir synchronization solution
Unique - PRC grade (G.811) performance for pipe applications
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CoreSite
HubSite
Tail site FibeAirIP-10
RNC
BSC/MSCIP-10 used for
transporting both Ethernetand DS1 services natively
using the integrated
switching, XC and nodal
capabilities
Both Ethernet and
E1 services are
mapped over MPLS
using pseudo-wires.
Native DS1s
Native Ethernet
Native
2
(MW links)
FibeAir
IP-10
n x DS`
FE/GEGE
GE
OC3
STM1/
OC3
IP-40 used as high-capacity
"MPLS-aware" Ethernet
MW radio where fiber
connections are not
available
FibeAir IP-40 & IP-10 PositioningIP-10 terminal/nodal at the access, IP-40 pipes at the aggregation
MPLS
Router
MPLS (Fiber/MW mix)
MPLS
Router
TDM/ATM PWs
Ethernet PWs
IP/MPLS edge router acts
as gateway between the
Native2 and IP/MPLS
based networks.
IP-40 pipes (L1)IP-10 Nodal (L2)
IP-10 Terminal (L2)
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Thank you!