ETD

Archivio digitale delle tesi discusse presso l'Università di Pisa

Tesi etd-09042009-150948


Tipo di tesi
Tesi di laurea specialistica
Autore
TONGIANI, CLAUDIO
URN
etd-09042009-150948
Titolo
Definition and design of a new communication protocol and interfaces for data transmission in High Energy Physics experiments
Dipartimento
INGEGNERIA
Corso di studi
INGEGNERIA ELETTRONICA
Relatori
relatore Ing. Saponara, Sergio
relatore Prof. Fanucci, Luca
tutor Dott. Magazzù, Guido
Parole chiave
  • high energy physics
  • CERN
  • LHC
  • CMS
  • ATLAS
  • protocol
  • interface
  • FF-LYNX
  • trigger
Data inizio appello
09/10/2009
Consultabilità
Completa
Riassunto
High Energy Physics experiments have very similar architectures with respect to systems for acquisition of data from sensors and for control and management of the detector, and therefore similar requirements about data rate, trigger latency, robustness of critical data against transmission errors, radiation hardness and power dissipation and of hardware components and material budget. The use of common solutions that can be reused in different applicative contexts can reduce costs, risks and time needed for the development of new experiments. In particular, a research and development activity appeared as useful in the field of electrical links that are employed for data transmission to and from Front End circuits inside the detectors to move power-consuming optical converters away from the interaction point. Moving from these considerations, the FF-LYNX (Fast and Flexible links) project was started in January 2009 by a collaboration between INFN-PI (Italian National Institute for Nuclear Physics, division of Pisa) and the Department of Information Engineering (DII_IET) of the University of Pisa, with the aim of defining a new serial communication protocol for integrated distribution of TTC signals and Data Acquisition, satisfying the typical requirements of HEP applications and providing flexibility for its adaptation to different scenarios, and of its implementation in radiation-tolerant, low power interfaces. The work presented in this thesis constituted a phase of the FF-LYNX project working plan and was carried out at the Pisa division of INFN: in particular, it dealt with the definition of a first version of the FF-LYNX protocol and the design of hardware transmitter and receiver interfaces implementing it. In this thesis first of all the purposes of the project are presented and the methodology defined for the project work is outlined; then the FF-LYNX protocol (version 1) is described: the basic issues about trigger and data transmission that were considered in the definition of this version of the protocol are outlined, as well as the solutions that were adopted to address these issues, and the results of simulations in a high-level model of the link, intended to estimate various aspects of the protocol performance, are presented. Subsequently, the architecture that was defined for the interfaces implementing the FF-LYNX protocol version 1 is illustrated, and the VHDL models of the transmitter and receiver blocks that was created in the design phase of the FF-LYNX interfaces is described in detail also reporting results of simulations on a VHDL test bench for the complete transmitter-receiver system. Finally, an FPGA based emulator for the FF-LYNX transmitter-receiver system, foreseen as the final result for the FF-LYNX project first year of activity, is outlined in its functional architecture, the development board chosen for its implementation is briefly described, and the results of preliminary synthesis trials of the designed TX and RX blocks onto the target FPGA are reported.
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