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Patrick R. Haspel, University of Mannheim1 FutureDAQ Kick-off Network Design Space Exploration andAnalysis Computer Architecture Group Prof. Brüning Patrick.

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Presentation on theme: "Patrick R. Haspel, University of Mannheim1 FutureDAQ Kick-off Network Design Space Exploration andAnalysis Computer Architecture Group Prof. Brüning Patrick."— Presentation transcript:

1 Patrick R. Haspel, University of Mannheim1 FutureDAQ Kick-off Network Design Space Exploration andAnalysis Computer Architecture Group Prof. Brüning Patrick R. Haspel haspel@uni-mannheim.de Computer Architecture Group University of Mannheim, Germany

2 Patrick R. Haspel, University of Mannheim2 Research & Projects Research Areas (Computer Architecture) Parallel- and Cluster computing using innovative Computer Architectures low latency Interconnection Networks high performance chip design using leading edge EDA Tools (proven cell based design flow) Actual projects ATOLL: Networkinterface for SANs OASE: Optical Datatransmission Research Areas (Optoelectronics, Prof. Brenner) Microoptical System Interconnects for digital communication (board to board, chip to chip) 3D Microintegration of optical components Actual projects OASE: Optical Data Transmission Blue DVD lens for Laser beam shaping Microoptical components fabrication

3 Patrick R. Haspel, University of Mannheim3 ATOLL – System Area Interconnect ATOLL Extreme low-latency network (currently fastest worldwide) Distributed switching resource (X-Bar) -> massively scalable Arbitrary network topology

4 Patrick R. Haspel, University of Mannheim4 ATOLL 2d Torus Topology Example Node with an ATOLL NIC All topologies fitting to the 4 interconnects are supported...

5 Patrick R. Haspel, University of Mannheim5 ATOLL Tree Topology Example NIC

6 Patrick R. Haspel, University of Mannheim6 ATOLL-ASIC Basic Architecture 4,5 Mio transistors Cell based design (>1 Mio gates) 0.18µm CMOS process 5,7 x 5,7 mm Chip Fastest and Second Biggest Chip Design of a European University 2 GByte Bisection bandwidth ~80ns Reliable links

7 Patrick R. Haspel, University of Mannheim7 Optimization for Performance and Cost

8 Patrick R. Haspel, University of Mannheim8 OASE Architecture OASE integrated optical interconnect (1x, 4x, 8x, Nx) Patent pending

9 Patrick R. Haspel, University of Mannheim9 Custom Network @ CBM Advantages of a customized interconnection network – Using full network design space by: Network tuning – Application optimized network parameter (Latency/Bandwidth/Topology) Adopting network interface to simplify front-end electronic (physical/protocol level) Expanding network function (data transport -> data manipulation) Introducing computing in the network (CPU on network interface)

10 Patrick R. Haspel, University of Mannheim10 Customization process System level evaluation and simulation (architecture and behaviour level) SystemC – development suite using C/C++/SystemC based models Building Block Modelling Message Passing protocol specification - Transport Packet Design Networkanalysis and Interfacedesign platform development for software development (HW/SW cosimulation) optional CoWare simulation and analysis environment for advanced debugging

11 Patrick R. Haspel, University of Mannheim11 Proposal for CBM  Let the network sort your packets  Let the network manage load balancing  Regarding node utilization (automatic target selection)  Regarding network congestion (dynamic routing)  Use programmable packet engine on the network interface to do arbitrary data manipulations  Computing in the network (data is manipulated travelling through the network)

12 Patrick R. Haspel, University of Mannheim12 Thank you!

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