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GOLD down the drain Uli Schäfer 1 What’s left after Heidelberg.

Published byEverett Eaton Modified over 9 years ago

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Presentation on theme: "GOLD down the drain Uli Schäfer 1 What’s left after Heidelberg."— Presentation transcript:

1 GOLD down the drain Uli Schäfer 1 What’s left after Heidelberg

2 Strawman design HD-meeting 14-slot ATCA crate with custom backplane Up to 3 instances of topological processor: 2 dual-quadrant boards 1 merger Uli Schäfer 2 Backplane traffic @ 640 Mb/s LVDS signalling Up to 600 lanes on a chip Up to 200 lanes on standard ATCA backplane  double that at the expense of rear transition module  non-ATCA

3 Topo processor modules Uli Schäfer 3 Quadrant processor stage consisting of 2 FPGAs (??) Covering one quadrant each 7*12*6.4 Gb/s from cluster/jet/muon processors Would require 42 xGb links per processor (??) Merger stage is single FPGA Operating on 640Mb/s links

4 Strawman design How does it fit MZ processor design (GOLD) ?  not at all Restricted choice of algorithms due to limited bandwidth from quadrant processors to merger Opto transceivers will have to go onto front panel, that’s a pain in the *** maintenance-wise  Try and adopt the unavoidable Design for a sandwich of two feeder modules and one processor Avoid the most horrible Do high speed links (6.4 and 10.4) Gb/s rather than 640 Mb/s to avoid bottlenecks Keep space in zone 3 for opto links Adapt GOLD accordingly Uli Schäfer 4

5 GOLD 2.0 ATCA form factor (8U x 280 mm) Standard Zone1 connectivity (2*-48V supply scheme) Zone2 xGb/s inputs from adjacent feeder modules Zone3 (RTMs) xGb/s optical links 4 processors XC6VLX240T/550T-FFG1759 : 24/36 * GTX link (6.5Gb/s) 4 processors XC6VHX380T/XC6VHX565T : 48*GTX, 24* GTH (10Gb/s) – available ~ Oct. ’10 (?) engineering samples Supply 2 processors with input data via backplane Supply 6 processors from daughter module Might have to mix standard SNAP12 (up to 6.4 Gb/s only?) and Avago transceivers Merger ??? Optical inputs from backplane via bare fibre ribbons Electrical link fan-out (*2) with CML buffers (SY58011) 1*SNAP12 out from control/merger FPGA or from processors ? Everything else stays as planned Build daughter module and backplane resident feeder module Uli Schäfer 5

6 Gold floor plan Uli Schäfer 6 ATCA daughter module w. 4*FMC connector 8 processors SFP / SNAP12 out Merger / control ?? SystemACE config Local routing Z1 Z2 Z3 Opto ?

7 Test daughter Uli Schäfer 7 Half size module 3* SNAP12 receive 36 * fanout (*2, CML) 2 FMC connectors 3 * SNAP12 transmit SNAP12 control CPLD

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