Real-Time Data Acquisition and Processing System for MHz Repetition Rate Image Sensors

An electro-optic detector is one of the diagnostic setups used in particle accelerators. It employs an electro-optic crystal to encode the longitudinal beam charge profile in the spectrum of a light pulse. The charge distribution is then reconstructed using data captured by a fast spectrometer. The...

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Autores principales: Aleksander Mielczarek, Dariusz Radosław Makowski, Christopher Gerth, Bernd Steffen, Michele Caselle, Lorenzo Rota
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Lenguaje:EN
Publicado: MDPI AG 2021
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spelling oai:doaj.org-article:d0f36c86637e4c1ca28c5227f7052d522021-11-11T16:07:06ZReal-Time Data Acquisition and Processing System for MHz Repetition Rate Image Sensors10.3390/en142174031996-1073https://doaj.org/article/d0f36c86637e4c1ca28c5227f7052d522021-11-01T00:00:00Zhttps://www.mdpi.com/1996-1073/14/21/7403https://doaj.org/toc/1996-1073An electro-optic detector is one of the diagnostic setups used in particle accelerators. It employs an electro-optic crystal to encode the longitudinal beam charge profile in the spectrum of a light pulse. The charge distribution is then reconstructed using data captured by a fast spectrometer. The measurement repetition rate should match or exceed the machine bunching frequency, which is often in the range of several MHz. A high-speed optical line detector (HOLD) is a linear camera designed for easy integration with scientific experiments. The use of modern FPGA circuits helps in the efficient collection and processing of data. The solution is based on Xilinx 7-Series FPGA circuits and implements a custom latency-optimized architecture utilizing the AXI4 family of interfaces. HOLD is one of the fastest line cameras in the world. Thanks to its hardware architecture and a powerful KALYPSO sensor from KIT, it outperforms the fastest comparable commercial devices.Aleksander MielczarekDariusz Radosław MakowskiChristopher GerthBernd SteffenMichele CaselleLorenzo RotaMDPI AGarticlelinear camera1D image acquisitionoptical spectrometerKALYPSOGOTTHARDMicroTCATechnologyTENEnergies, Vol 14, Iss 7403, p 7403 (2021)
institution DOAJ
collection DOAJ
language EN
topic linear camera
1D image acquisition
optical spectrometer
KALYPSO
GOTTHARD
MicroTCA
Technology
T
spellingShingle linear camera
1D image acquisition
optical spectrometer
KALYPSO
GOTTHARD
MicroTCA
Technology
T
Aleksander Mielczarek
Dariusz Radosław Makowski
Christopher Gerth
Bernd Steffen
Michele Caselle
Lorenzo Rota
Real-Time Data Acquisition and Processing System for MHz Repetition Rate Image Sensors
description An electro-optic detector is one of the diagnostic setups used in particle accelerators. It employs an electro-optic crystal to encode the longitudinal beam charge profile in the spectrum of a light pulse. The charge distribution is then reconstructed using data captured by a fast spectrometer. The measurement repetition rate should match or exceed the machine bunching frequency, which is often in the range of several MHz. A high-speed optical line detector (HOLD) is a linear camera designed for easy integration with scientific experiments. The use of modern FPGA circuits helps in the efficient collection and processing of data. The solution is based on Xilinx 7-Series FPGA circuits and implements a custom latency-optimized architecture utilizing the AXI4 family of interfaces. HOLD is one of the fastest line cameras in the world. Thanks to its hardware architecture and a powerful KALYPSO sensor from KIT, it outperforms the fastest comparable commercial devices.
format article
author Aleksander Mielczarek
Dariusz Radosław Makowski
Christopher Gerth
Bernd Steffen
Michele Caselle
Lorenzo Rota
author_facet Aleksander Mielczarek
Dariusz Radosław Makowski
Christopher Gerth
Bernd Steffen
Michele Caselle
Lorenzo Rota
author_sort Aleksander Mielczarek
title Real-Time Data Acquisition and Processing System for MHz Repetition Rate Image Sensors
title_short Real-Time Data Acquisition and Processing System for MHz Repetition Rate Image Sensors
title_full Real-Time Data Acquisition and Processing System for MHz Repetition Rate Image Sensors
title_fullStr Real-Time Data Acquisition and Processing System for MHz Repetition Rate Image Sensors
title_full_unstemmed Real-Time Data Acquisition and Processing System for MHz Repetition Rate Image Sensors
title_sort real-time data acquisition and processing system for mhz repetition rate image sensors
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/d0f36c86637e4c1ca28c5227f7052d52
work_keys_str_mv AT aleksandermielczarek realtimedataacquisitionandprocessingsystemformhzrepetitionrateimagesensors
AT dariuszradosławmakowski realtimedataacquisitionandprocessingsystemformhzrepetitionrateimagesensors
AT christophergerth realtimedataacquisitionandprocessingsystemformhzrepetitionrateimagesensors
AT berndsteffen realtimedataacquisitionandprocessingsystemformhzrepetitionrateimagesensors
AT michelecaselle realtimedataacquisitionandprocessingsystemformhzrepetitionrateimagesensors
AT lorenzorota realtimedataacquisitionandprocessingsystemformhzrepetitionrateimagesensors
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