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Aviat Networks describes best practices for building ultra-low latency microwave radio networks
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BEST PRACTICES FOR BUILDING ULL NETWORKS
PROGRESSION LOW LATENCY NETWORKS
FIBER DATA NETWORKS (ANALOG/DIGITAL)
ON COPPER
MESSENGER SERVICES, PHYSICAL/HAND DELIVERY
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PRE-1970’S 70’-80’s 90’s-TODAY over $4B
market globally
NEXT STEP IN LOW LATENCY PROGRESSION: MICROWAVE
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MICROWAVE IS FASTER THAN FIBER AND IS QUICKLY BECOMING DEFACTO STANDARD FOR ULTRA LOW LATENCY TRANSPORT
microwave uses more direct routes (less distance)
propagation is 30% faster over air
Functional, viable, practical. ???
WHAT IS USABLE LATENCY?
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Weather (rain,
propagation)
Reliability Installation
Sites and Acquisition
Number Hops
Path Design and
Regulatory Issues
Network Management
Co-Existence with Fiber
Security
Latency
BUT MICROWAVE IS COMPLEX AND NEW TO FINANCIAL SERVICES…
3 ULL MICROWAVE QUESTIONS
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Full size image
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RELEVANT TECHNICAL CONSIDERATIONS
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Equipment Latency Payload Interface Serialization Delay Modem Technology
End-to-End Latency Repeaters RF and Modem Performance
Operational Considerations
WHERE DOES LATENCY GO? On a standard latency microwave link
0.39%
7.00%
19.26%
30.82%
38.52%
3.85%
0.15%
SHORT FRAMES (64)
Interface Speed
Switching &Serialization
Transfer Buffers
Interleaving
Encoding/Decoding
Mod/Demod
Analog Front End
5.13%
44.07%
10.57%
16.91%
21.13%
2.11% 0.08%
LONG FRAMES (1518)
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PAYLOAD INTERFACES AND SERIALIZATION DELAY
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Ethernet Interfaces L1 Interfaces (STM1/OC3) Proprietary L1 Interfaces (Clock and Data)
MODEM TECHNOLOGY
Forward Error Correction Modulations and Bandwidths Diversity Protection
Improves link availability and hence low latency availability Adaptive Modulation and Adaptive Coding Latency Increase
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FEC Method
Linear and Iterative
Convolutional Codes
Algorithm
LPDC, Turbo Codes
Viterbi
Latency
High
Medium
Block Codes
No FEC
Reed Solomon
- - -
Low*
Lowest
SG Imp.
High
Good*
None
Good
BW 30 MHz
40 MHz
Mod
16 Q
AM
32 Q
AM
50 MHz
128
QA
M
64 Q
AM
256
QA
M
QPS
K
LOW LATENCY… (OBVIOUSLY) SO HOW DO WE REDUCE THE LINK LATENCY?
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- High speed interfaces - Use small frame sizes - Early packet forwarding - Reduce buffering wherever possible - Eliminate Interleaving - Reduce or eliminate FEC
And equipment/box latency is easy to understand/measure, but…
~10-20 µs
BOX
THE REAL METRIC IS END-END LATENCY (THIS IS WHERE IT GETS COMPLICATED…)
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Exchange
And best ways to lower end-end MW latency…
BOX Exchange
BOX BOX
BOX BOX
REDUCE NUMBER AND COMPLEXITY OF THE HOPS INTRODUCTION OF THE REPEATER CONCEPT
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- Latency in Nx10 ns - RF Repeater
- Limited RF Options - Mask Limitations
- IF Repeater - Frequency Agile - Mask Limitations
- Digital Repeater - Frequency Agile - Usually No Mask Limitations
Regenerator Node
Regenerator Node
Repeater Node
Repeater Node
30% reduction
Regenerator Node
Repeater Node
Repeater Node
Regenerator Node
Repeater Node
Repeater Node
Regenerator Node
Repeater Node
Repeater Node
Regenerator Node
Repeater Node
Regenerator Node
ADAPTIVE REPEATER TECHNOLOGY
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Ultra Low End-End Latency
Low End-End Latency (still better than fiber)
99% of time
1% of time
RF AND MODEM PERFORMANCE WHERE DOES IT HELP?
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• Link Distance • Number of Hops • Link Availability
• Techniques include: - Tx Power - Rx Sensitivity - Diversity
• Antenna Size • Number of Repeaters
- FEC Coding - Rx Threshold - Higher Quality Oscillators
Ultimately all revolves around having better System Gain !!!
QUANTIFY RF / MODEM PERFORMANCE
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Example: Chicago rain zone, 99.999 Availability, 6 Ft Antenna, 64QAM
Frequency Band
6 GHz
11 GHz
Std System Gain
51.6 Miles
35.1 Miles
+3dB
55.8 Miles
38.5 Miles
AND MANAGING THE RELIABILITY / LATENCY TRADEOFF
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End-End Latency
Path Uptime
Low Latency
High Latency
99.999% 90%
Good News: with new innovations,
best of both worlds can be achieved…
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SO THAT’S LOW LATENCY…
Thus a full featured microwave solution will be required
BUT what good is low latency if your network is:
BEST PRACTICE FOR BUILDING LOW LATENCY MICROWAVE NETWORKS: FOCUS ON END-END LATENCY USING A FULL-FEATURED
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MICROWAVE PLATFORM
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ULL MICROWAVE LIFECYCLE
And path planning is more than just GPS Coordinates and Google Maps! AVIAT NETWORKS
VALIDATE THE ROUTE
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Phase 1 - Planning and Design • Regulatory • Site Selection • Frequency Coordination and Acquisition • Transmission and Network Engineering • Site & Path Survey Is the route viable?
SECURE THE SITES
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Site Acquisition and Construction • Site Acquisition and Leasing • Engineering and Drafting • Zoning • Utilities and Construction • System Engineering and Optimization
BUILD AND LAUNCH THE NETWORK
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Integration and Deployment • Configuration and Network Engineering • Factory Integration • Equipment Staging • Installation of Antennas, Lines & Ground
Equipment • Radio Installation and Path Alignment • Acceptance Testing & Commissioning • Commercial Launch
When the network is built…then what? Focus on what you do best and let Microwave experts keep the network running at optimal speed and efficiency
Peace of Mind! AVIAT NETWORKS
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Functional, viable, practical. ???
MAXIMIZE PROFITABILITY OF THE NETWORK
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THANK YOU
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