ROD R&D Status
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Transcript of ROD R&D Status
ROD R&D Status
K. Johns, C. Armijo, J. Steinberg (U. Arizona)H. Chen, F. Lanni, J. Mead (BNL)
L. Hervas (CERN) A. Meyer, A. Kielburg-Jeka, A. Straessner (Dresden)
G. Perrot (LAPP)G. Blasetti, M. Citterio (INFN, Milano)D. Schamberger (SUNY, Stony Brook)
Optical Link NotesCurrently we build with
Reflex Photonics SNAP12 Emcore SNAP12
Both specified @ 3.5 Gbps
Recent news/results Delivery date for Reflex Photonics SNAP12
@ 6.25 Gbps still +6 weeks First promised for July 1
Both RP and Emcore 3.5 Gbps versions can run at higher speeds Emcore shows better performance (up to 5
Gbps) based on measured BER2
Optical Link Notes
Designing @ 6.25 Gbps and beyond Measurements with AZ test board
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Optical Link NotesDesigning @ 6.25 Gbps and
beyond Vias degrade eye pattern No difference in trace length or layer
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Optical Link NotesIn order to move to higher optical
density we are now designing with Reflex Photonics LightABLE OE OSA is an IC with 12 channel GaAs VCSEL
or 12 channel GaAs PIN photodetector Connected electrically via wire bonds Connected optically via MT connector
Present speed @ 6.25 Gbps Designer provides an electrical footprint
on the PCB RP mounts (wirebonds) the OSA
OE part and mounting cost is ~$350 / die
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Optical Link Notes
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ATCA Sub-ROD Development (BNL)
Base Interface (Gigabit Ethernet)Fabric Interface (10Gig Ethernet)
Zone 3 (to transition module) LVL1 communication
Update ChannelGlobal Clocks
-48v Power Input and IPMI interface
12 fiber inputs on SNAP12 format
DDR2SODIMM Memory
Virtex-5 FXT FPGA
Power Conversion
Serial Debug Port
ATCA Sub-ROD Development AdvancedTCA 8U Module
With separated +5V power connector and Gigabit Ethernet connector on front panel, it allows testing of main functions without ATCA crate
IPMI development is underway, received development document and source code from DESY. Even though we use different processor, all the code is in C which helps software porting
One module was shipped to Dresden in late June/early July
High Speed Parallel Optical Links and FPGA SERDES Self loopback test works at 3.2Gbps on 12 channels, 40Gbps
total bandwidth Sub-ROD (and sub-ROD injector) still awaiting 75 Gbps
transceiver from Reflex Photonics Present plan is to do sub-ROD and sub-ROD injector
integration tests in October using Emcore parts which can run over spec
ATCA Sub-ROD Injector (AZ)
Sub-rod injector ATCA card also now available
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ATCA Sub-ROD Injector (AZ)
Testing with test ATCA backplane
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ATCA Sub-ROD Injector (AZ)
Details of test backplane
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ATCA Sub-ROD Injector (AZ)
Eventual testing in ATCA crate
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ROD in ATCA/AMC Form Factor
Present plan is to build processing units (ROD or ROD injectors) in AMC format on ATCA cards
ROBs would also reside in ATCA crate
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Up to 48 Fiber’s per AMC (4 - SNAP12)
LVL 1 Interface
Connection to ROB through ATCA
backplane using 10Gigabit Ethernet
AMC PU
AMC PU
AMC PU
AMC PU
ROD in ATCA/AMC Form Factor
AMC cards are Processing Units Contain optical receivers and FPGA based SERDES Perform energy calculations and partial Level-1 sums High speed, low latency connections for Level-1 sums
require communication between AMC modules and possibly between different ATCA carriers
Processing units can be developed independently of ATCA carrier board (using MicroTCA crate)
ATCA Carrier Board Provides connections between AMC modules and also
to ATCA backplane Low latency switching protocol Possible connection to ROB via 10G Ethernet Provides connections to rear transition board for Level-
1 sums14
AMC Card using LOB
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4 x 12 channels per AMC card Stratix IV has 48 transceiver channels
@ 8.5 Gbps
4 AMC cards per ATCA (ROD)
AMC Card using LOB
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4 x 12 channels per AMC cardStratix IV has 48 transceiver channels @
8.5 Gbps
4 AMC cards per ATCA (ROD)
ATCA/AMC Form FactorWorking plan is to build ROD (and
ROS) cards on ATCA cards ROD receive modules in AMC format ROD injector transmit modules in AMC
format
ATCA sub-ROD already exists (BNL)ATCA sub-ROD injector now exists
(AZ) ATCA sub-ROD injector can also be used
to hold sub-ROD injector AMC card
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sLHC LAr ROD Upgrade R&DMailing list
[email protected] espace
https://espace.cern.ch/slhc-atlas-lar-rodPhone meeting
First meeting was organized on Sept. 11th, people from Univ. of Arizona, BNL, Dresden, LAPP and Stony Brook Univ. were connected
Goal was to update what everybody’s been working on and discuss how to proceed
Plan to continue this phone meeting once a month
Optical Link Notes
Designing @ 6.25 Gbps and beyond Hyperlynx SI software
Good for impedance estimation Less useful eye patterns (2.5 - 6 GHz
below)
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ATCA Sub-ROD Injector (AZ)
Eventual testing in ATCA crate
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