1. BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS On the Optimal Configuration of Metro Ethernet for Triple Play András Kern, Tibor Cinkler, István Moldován

2. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN2 Triple-Play in Metro Ethernet Network » Three different services on a single infrastructure » High Speed Internet (HSI) » Voice over IP (VoIP) » Video service (IPTV, iVoD)

3. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN3 » Ethernet is the most dominating LAN technology » Cheap equipment + high speed (up to 10 Gbps) Ethernet in Metro Networks » Introduce Ethernet into the Metro network (Metro Ethernet Forum): » consistent network platform » Ethernet should be Carrier Grade: » Traffic and User separation » Traffic and User separation ~ Virtual LANs » QoS » QoS ~ 8 traffic classes » Reliability » Reliability ~ Rapid Spanning Tree Protocol » Scalability » Scalability ~ MAC-in-MAC and Q-in-Q » Operation, Administration Management

4. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN4 Routing in Ethernet: Spanning Trees Protocols (STP) » MORE VLAN based spanning trees » Multiple spanning tree instances » Each tree runs a separate Rapid STP instance » 1 VLAN  1 tree » By default tree spanning is “Topology-Driven”: » Port costs based on topology and link capacities » Costs can be set manually (to obtain desired trees) » Spanning Trees form loop-free logical topologies » Their shape influenced by Port Costs » Provide restoration

5. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN5 Resource Management Architecture » TE-pipe » Runs between access and edge nodes » pre-provisioned resources » Per Service » AN & EN » Enforcing traffic via » Policing » Shaping » Network Management Entity » Manages the resources » Performs CAC based on service datas and QoS. » Configures network elements (e.g., SNMP)

6. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN6 QoS Model » Priority based scheduling: » Lower priority traffic is not served until there is higher priority traffic in the queue. » To ensure low delay for each QoS class: amount of higher priority traffic should be limited for each link » Static global limits are defined for each class » The method of how to determine these limits is out of scope. Class IDProvided service BW ratio 1VoIP0.1 2IPTV0.2 3-- 4HSIremaining

7. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN7 IPTV: Multicast in Metro Ethernet » Efficient distribution of Video needs multicast » Dynamic Multicast » Ethernet switches “snoops” IGMP messages » Decides on which ports sends the packet out. » Manual Filtering » VLAN are for restricting Broadcast Domains » Shaping the VLAN to Multicast-trees » Assumed method » Forming P2MP Pipes ~ VLANs » Carrying more MC tree » IGMP snooping can be also used

8. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN8 HSI: Statistical Multiplexing » Traffic of individual users highly varies » Considering it at PIPE dimensioning » Aggregation of these flows still fluctuates » Guèrin's model assumed » Variances of Flows have to be estimated » Flows ~ Independents & Normal Distribution » TE pipes are described: (Mean Rate; Peak Rate)

9. BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS On the Optimal Configuration of Metro Ethernet for Triple Play Proposed Method and Simulation Results

10. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN10 Problem Formulation » Input parameters: » Topology » QoS model » Static Traffic Matrices for each service » Tree Instances » The proposed method » Defines uni/multicast pipes for demands, » Spans the tree instances and » Assign the pipes for the tree instances » Integer Linear Model was presented for the basic problem, but it does not deals with » statistical multiplexing » multicasting

11. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN11 Proposed Heuristic Method » Decomposes the problem to » Sequential allocation of pipes AND appending them to a tree instances. » Demand ordering problem » In each iteration random selection between: » Allocation of NEW pipe » Remove an existing tree

12. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN12 Case Study » Assumed dual homing based topology » Services » VoIP » Unicast + symmetric PIPEs » No statistical mux assumed. » 10% of total traffic » Video » Multicast + asymmetric PIPEs » Medium traffic variance (PMR ~1.2) » 30% of total traffic » HSI » Unicast + asymmetric PIPEs » Large traffic variance (PMR ~ 2.0) » 60% of total traffic

13. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN13 Traffic Model » Demand sizes based on Gaussian distribution » PEAK rate: Total traffic level x Service Ratio » MEAN rate: PEAK rate / PMR » VoIP and HSI : separate PIPEs for each AN—EN pair » IPTV: 1 multicast PIPE for each EN. » Performance descriptor: ACHIEVABLE THROUGHPUT » Determined via binary search of Total traffic level

14. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN14 The effects of Statistic Multiplexing Same throughput – less resources 20% more throughput achieved

15. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN15 Notes on scalability » „OFF-LINE” configuration method » No strict time constraints » Scalability still important » On larger networks » Perform Dynamic TE » The proposed method iterative + polynomial steps within a minute » Finds solutions within a minute in the Test Case » Needs 100 rounds to find the solutions » For 1000 and 10000 rounds only a slight increase of performance… » Recent simulation on larger networks also show its scalability

16. BME - TMIT BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS 2nd EuroNGI Conference on Next Generation Internet Design and Engineering, Valencia, SPAIN16 Conclusion » To provide Triple-Play QoS aware architecture is needed » To decrease costs Ethernet is a good choice » We propose » An efficient algorithm for off-line configuration » Deals with priority based QoS » Multicast » Exploit the effects of Statistical Multiplexing » Its performance is presented on a test case

17. BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS BUDAPEST UNIVERSITY OF TECHNOLOGY AND ECONOMICS DEPARTMENT OF TELECOMMUNICATIONS AND MEDIA INFORMATICS Thank you for your attention