Trigger processor John Huth Harvard. NSW + TGC of BW’s track fitting track position (R,  ) d  : deviation of incidence angle from infinite pT muons.

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Presentation transcript:

Trigger processor John Huth Harvard

NSW + TGC of BW’s track fitting track position (R,  ) d  : deviation of incidence angle from infinite pT muons Coarse d  -cut 2/3 coin. hit position 3/4 coin. track position and deviation H-pT Board Sector Logic R-  coin. track fitting crossing angle :  pT calculation Small Wheel  hit information (R,  ), d   Precision Detector  < 100  m  -information Level-1 Trigger resolution of incidence angle < 1 mrad BCID, LVL1 latency RoI, dR, d  TGC2TGC1TGC3 Phase-1 upgrade 2

NSW coverage :  = 1.3 – 2.4 # of RoI’s in Large SW Sector : 560 # of RoI’s in Small SW Sector : 366 Position info.  /  : precision (RoI size)  calculation : need  ~ 0.01 # of granularities per SW Sector < 1024 # of bits per track is 16-bit Position : 10-bit d  : 5-bit, 1mrad resolution hit flag : 1-bit Total: 16-bit # of tracks per 40MHz 4 40 MHz (16+4)-bit x 4 x 40MHz = 3.2 Gbps Max. # of tracks per Large SW Sector up to 8 or 12 tracks, 2 or 3 fibres Max. # of tracks per Small SW Sector up to 4 or 8 tracks, 1 or 2 fibres NSW boundary BW boundary Matching between BW sector and NSW, bit format 3

New SL : 10 ticks Rendezvous at 44 ticks in the front of SL 4

Requirements to Trigger Processor of NSW detector Outputs to Sector Logic should be fully synchronous to 40 MHz clock. – Packets in every clock contain a complete set of track info. of each bunch, independent of each other. – Fixed latency No queuing structure at Sector Logic – 3 fibres for Large SW Sector – 2 fibres for Small SW Sector NSW detectors should combine track info’s from sTGC and MicroMegas. Do not deliver them separately. Latency to Sector Logic is shorter than 44 clk’s. New Sector Logic incorporate segments info. from BIS7,8, EES and EEL into the level-1 trigger decision. 5

Additional box for Osamu?

Matlab first pass simulation

[F/B] [L/S] [Wedge] [Plane] [Strip] = 24 bits Assumptions about number of bits required for spatial information Need BCID – integrate over four crossings

Full use of trigonometric functions Early results with old geometry (will show updated geometry) Full use of trigonometric functions Early results with old geometry (will show updated geometry)

Full use of trigonometric functions

First pass at strip address search algorithm

Current XUV Geometry Random background, radial fall-off Current XUV Geometry Random background, radial fall-off

0.1% fakes, probably can be improved

Ken’s version of processor (based on LAr card)

Personnel at Harvard J. Huth D. Lopez Mateos B. Clark N. Felt (EE) J. Oliver (EE)

To do list (short term): Implementing new geometry (XUV) Background BCID integration Algorithm exploration FPGA function exploration+timing Examine stereo orientations in Z Begin use of Athena when digitization is fully implemented