(An open-ended discussion with random slides attached…) OUTLINE: Layouts Common Issues /...
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Transcript of (An open-ended discussion with random slides attached…) OUTLINE: Layouts Common Issues /...
(An open-ended discussion with random slides attached…)
U vs. L Layout Issues:How should we proceed
toward a determination?
OUTLINE: Layouts Common Issues / Distinguishing Issues U-Shape L-Shape (Si and Si+Diamond) How to Proceed
R. Mountain, Syracuse University SU VELO Meeting, 27 Jan 2010 2
How to Proceed? (1) Work Package I – Finalize
‘Strawman’ layout Contribute ideas (by 25th
January) Study selected layouts with
parametric simulation Study selected layouts with
full simulation Contribute engineering
cartoons Thermal simulations Foil R&D assessment Impact on electronics design Plus
CAD drawings, cooling options, RF shield studies, physics impact of design variations (SU)
Addition of hybrid geometry option (SU)
Work Package II – CO2 vs LN2 cooling choice Specify baseline CO2 solution Specify baseline LN2 solution Risk Assessment
(…Fro
m Paula’s su
rvey)
R. Mountain, Syracuse University SU VELO Meeting, 27 Jan 2010 3
Possible Layouts (Jan)
VELO L-Shape Layouts and Others – Marco Gersabeck -velo.upg.100119
cartoon
4R. Mountain, Syracuse University SU VELO Meeting, 27 Jan 2010
Comparison (Marco)
VELO L-Shape Layouts and Others – Marco Gersabeck -velo.upg.100119
5R. Mountain, Syracuse University SU VELO Meeting, 27 Jan 2010
U-Shape Sensor Periphery:
Active area close to R7.0 only in H direction – limited by ASIC size
RF Foil: Design close to current – so
AlMg3 possible Can pursue composite, but
we have a fallback Cooling:
Has 10 chips
Sensor Periphery: Can get active area closer to
R7.0 in both H,V – principal physics reason for L-shape
RF Foil: Must be a new design Must be new material – can’t
be AlMg3 This is a strategic gamble
Cooling: Has 12 chips
Distinguishing Issues?L-Shape
Many of these differences erased by using Diamond
6R. Mountain, Syracuse University
Physics: Simulation of efficiency, resolution, coverage, etc.
A given, not detailed here but the questions are well known Also, material effects, number and spacing of stations vis-à-vis U vs L, etc.
ASIC: What is the ultimate size of the ASIC?
How much modification is needed How many submissions can be made, given time constraints
Sensor Periphery: Silicon limited by rad damage to R7.0 at closest, but guard ring of
~0.5 mm moves active region back to R7.5 Guard ring of 0.5 mm – feasible? Some questions were raised Edgeless silicon – R&D stage, what is max size sensor made edgeless?
Note that Diamond will allow recovery to R7.0Sensor Size:
Split silicon into two – if sensor/ASIC registration gives low yield How many ASICs can be accurately bonded to a single sensor? If split, will introduce either overlaps or gaps in coverage (maybe both)
SU VELO Meeting, 27 Jan 2010
Common Issues? (1)In order of importance (?)
7R. Mountain, Syracuse University
Overlap: Is an overlap (~0.1 mm, 1-2 pixels) necessary? Can gaps be tolerated?
Does a staggered layout help? How bad is the effect of the additional material?
Inner Aperture: Square geometry at inner radius gives no coverage in corners –
significant?RF Foil:
Reduced RL reduces MCS for both cases Cooling:
Placement of cooling pipes – effect in fiducial volume? Diamond eases the cooling requirements
ASIC Readout: Issue of column direction readout rate and multiplicity? – How serious?
Motion Control: Have to adjust the position in V direction? – raised previously
Other …
SU VELO Meeting, 27 Jan 2010
Common Issues? (2)
R. Mountain, Syracuse University
What can we determine in the next “two” months? RF Foil:
Determine if there are any first-order show stoppers, by Evaluating a realistic L-shape design with CMADetermining basic material parameters, vacuum-tightness,
shielding Diamond:
Work out U-shaped diamond layout (problem?) Critical, but can’t prove it in short term…
Simulations: Continue current work, aim at some killer issue, like…
Thermal: Continue simulations (kill CO2?), plus <your input here>…
Plus: Pin down issues related to sensor periphery, size of ASIC, etc. Seriously evaluate potential of higher-risk technologies, like edgeless
silicon, TSVs, etc. And …
SU VELO Meeting, 27 Jan 2010 11
How to Proceed? (2)
I think we can only kill an idea in a two-month period, but we cannot prove it.