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Evolving Peering with a New Router Architecture. Jean-David LEHMANN-CHARLEY Compass-EOS RIPE 67, Athens j [email protected]. Peering Requirements / Challenges. Availability Critical service on limited number of nodes HA hardware features Scalability Bandwidth (100G interconnects) - PowerPoint PPT Presentation
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Asaf SOMEKH, Oct 15th, 2013
Evolving Peering with a New Router ArchitectureJean-David LEHMANN-CHARLEYCompass-EOSRIPE 67, Athens
Asaf SOMEKH, Oct 15th, 2013
Peering Requirements / Challenges• Availability
– Critical service on limited number of nodes– HA hardware features
• Scalability– Bandwidth (100G interconnects)– Port density (Nx10G, 100G)– BGP scaling– FIB convergence
• Dual stack IPv4/IPv6– MP-BGP to support both AFs– RIB/FIB scaling
Asaf SOMEKH, Oct 15th, 2013
Peering Requirements / Challenges• Stable/evolved BGP implementation
– Flexible routing policy framework– 4-byte ASN support, capability negotiation route
reflectors, confederations • Security
– Infrastructure filtering– Accounting (Netflow v9, IPFIX)– Control plane protection
• Colocation Cost control– Space– Power Consumption
Asaf SOMEKH, Oct 15th, 2013
Lessons from the Data Center Market
Virtualized Data Center
Clustering & VirtualizationBrought Efficiency to the Data
Center
Monolithic Mainframes
4
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Evolution of Industries
Data Centers Networks
Can Networks Follow The Data Center Evolution?
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So why do we have “Mainframe-like” routers?
It’s Electronics and Copper Limitations
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Zooming in on the challenge
• Chip I/O at speeds of 100G is limited to a few centimeters– Requiring Amplification every 2/3 cm– Requiring MORE electronics– Requiring MORE cooling– Requiring MORE space
Asaf SOMEKH, Oct 15th, 2013
Compass-EOS icPhotonics™
World First Chip-to-Chip Optical Interconnect
8
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icPhotonics™World’s First Chip-to-Chip Optical Interconnect
• 1.34Tb/s Full Duplex Bandwidth• Order of magnitude higher Chip
I/O Density. 64Gb/a per mm2• Passive optical links that stretch
to Hundreds of Meters vs. Centimeters with Electronics
• Direct Coupling to CMOS Chip• Low energy consumption:
10pJ/bit • Dozens of Patents Covering
Technology & Processes • Flexible form factor• Deployed in Production
Laser Matrix
Photo Detector
sStandar
d I/O
Digital CMOS chip
Direct optical
interface
Asaf SOMEKH, Oct 15th, 2013
Scale-OutEnlarge VCSEL
Matrix12 x 14
Scaling icPhotonics™ to Even Higher Capacities
10
S
cale
-Up
Increase VCSEL Speed
8 Gb/sPer
Channel
Today: 1.34b/s
SHIPPING
Over 10Tb/s !
Asaf SOMEKH, Oct 15th, 2013
icPhotonics™ – Inter-Chip Photonics
Revolutionizing Backplane Connectivity
The Traditional Way:Multi-Layer Midplaneand Switching Fabric
The Compass-EOS Way:icPhotonics™
Passive Optical Mesh
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ComplexHigh CostsHigh Power
Larger SystemsLimited BW/Slot
SimpleLower CostsLower Power
Smaller Footprint
Unlimited BW/Slot
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Enabling a simplified routing building-block
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Enabling the Vision of Network Virtualization
SDN ServiceData Center
Simplifying the Network with Routing Building Blocks & SDN
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How icPhotonics playsRequirement Solution
Colocation Cost EfficiencyOptical backplane reduces the routers physical foot print and power consuptions
Efficient port density and scale
Congestion free optical mesh enables dense 100G solutions
AvailabilityHigher MTBF with passive optical backplane replaces active electronics based fabric boards
SecurityNo “Security Vs. Capacity” Compromises – Full mesh based centralized policing
Enabled by Compass-EOS icPhotonics™