Farah Fahim scite author profile

Farah Fahim

4Publications

95Citation Statements Received

74Citation Statements Given

How they've been cited

129

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Affiliations

Fermilab, Northwestern University, Islamia University of Bahawalpur

Publications

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Construction and commissioning of CMS CE prototype silicon modules

Açar

Adamov²,

Adloff

et al. 2021

J. Inst.

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As part of its HL-LHC upgrade program, the CMS Collaboration is developing a High Granularity Calorimeter (CE) to replace the existing endcap calorimeters. The CE is a sampling calorimeter with unprecedented transverse and longitudinal readout for both electromagnetic (CE-E) and hadronic (CE-H) compartments. The calorimeter will be built with ∼30,000 hexagonal silicon modules. Prototype modules have been constructed with 6-inch hexagonal silicon sensors with cell areas of 1.1 cm 2 , and the SKIROC2-CMS readout ASIC. Beam tests of different sampling configurations were conducted with the prototype modules at DESY and CERN in 2017 and 2018. This paper describes the construction and commissioning of the CE calorimeter prototype, the silicon modules used in the construction, their basic performance, and the methods used for their calibration.

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Various Structures Based on Nickel Oxide Thick Films as Gamma Radiation Sensors

Arshak

Korostynska

Fahim

2003

Sensors

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Thick films of Nickel oxide (NiO) in the form of pn-junctions and planar structures with interdigitated electrodes were investigated for γ-radiation dosimetry purposes. Samples were fabricated using the thick film screen-printing technique. All devices were exposed to a disc-type 137 Cs source with an activity of 370 kBq. They showed an increase in the values of current with the increase in radiation dose up to a certain level. Performance parameters of the devices, such as sensitivity to γ-radiation exposure and working dose region, were found to be highly dependant on the composition of the materials used.

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A Reconfigurable Neural Network ASIC for Detector Front-End Data Compression at the HL-LHC

Guglielmo

Fahim

Herwig

et al. 2021

IEEE Trans. Nucl. Sci.

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Despite advances in the programmable logic capabilities of modern trigger systems, a significant bottleneck remains in the amount of data to be transported from the detector to off-detector logic where trigger decisions are made. We demonstrate that a neural network autoencoder model can be implemented in a radiation tolerant ASIC to perform lossy data compression alleviating the data transmission problem while preserving critical information of the detector energy profile. For our application, we consider the high-granularity calorimeter from the CMS experiment at the CERN Large Hadron Collider. The advantage of the machine learning approach is in the flexibility and configurability of the algorithm. By changing the neural network weights, a unique data compression algorithm can be deployed for each sensor in different detector regions, and changing detector or collider conditions. To meet area, performance, and power constraints, we perform a quantizationaware training to create an optimized neural network hardware implementation. The design is achieved through the use of high-level synthesis tools and the hls4ml framework, and was processed through synthesis and physical layout flows based on a LP CMOS 65 nm technology node. The flow anticipates 200 Mrad of ionizing radiation to select gates, and reports a total area of 3.6 mm 2 and consumes 95 mW of power. The simulated energy consumption per inference is 2.4 nJ. This is the first radiation tolerant on-detector ASIC implementation of a neural network that has been designed for particle physics applications.

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Active Feedback With Leakage Current Compensation for Charge Sensitive Amplifier Used in Hybrid Pixel Detector

Kmon

Deptuch

Fahim

et al. 2019

IEEE Trans. Nucl. Sci.

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Farah Fahim

Construction and commissioning of CMS CE prototype silicon modules

Various Structures Based on Nickel Oxide Thick Films as Gamma Radiation Sensors

A Reconfigurable Neural Network ASIC for Detector Front-End Data Compression at the HL-LHC

Active Feedback With Leakage Current Compensation for Charge Sensitive Amplifier Used in Hybrid Pixel Detector

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