H
H. Alexanian
Researcher at ESIEE Paris
Publications - 4
Citations - 23
H. Alexanian is an academic researcher from ESIEE Paris. The author has contributed to research in topics: Data acquisition & Large Hadron Collider. The author has an hindex of 3, co-authored 4 publications receiving 23 citations.
Papers
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Journal ArticleDOI
FERMI: a digital Front End and Readout MIcrosystem for high resolution calorimetry
H. Alexanian,G. Appelquist,P. Bailly,R. Benetta,S. Berglund,J. Bezamat,F. Blouzon,Christian Bohm,Luca Breveglieri,S. Brigati,P.W. Cattaneo,L. Dadda,J. David,M. Engstrom,J.F. Genat,M. Givoletti,V. G. Goggi,S. Gong,G. M. Grieco,Magnus Hansen,H. Hentzell,T. T. Holmberg,I. Hoglund,S. Inkinen,Andras Kerek,C. Landi,O. LeDortz,M. Lippi,B. Lofstedt,Bengt Lund-Jensen,Franco Maloberti,S. Mutz,P. Nayman,Vincenzo Piuri,G. Polesello,M. Samid,Aurore Savoy-Navarro,P. Schwemling,Renato Stefanelli,R. Sundblad,Christer Svensson,G. Torelli,J.P. Vanuxem,N. Yamdagni,Jiren Yuan,A. Odmark +45 more
TL;DR: A digital solution based on analogue signal compression, high speed A/D converters, a fully programmable pipeline and a digital signal processing (DSP) chain with local intelligence and system supervision aimed at providing maximal front-end processing power by performing waveform analysis using DSP methods.
Journal ArticleDOI
Optimized digital feature extraction in the FERMI microsystem
H. Alexanian,G. Appelquist,P. Bailly,R. Benetta,S. Berglund,J. Bezamat,F. Blouzon,Christian Bohm,Luca Breveglieri,S. Brigati,P.W. Cattaneo,L. Dadda,J. David,M. Engstrom,J.F. Genat,M. Givoletti,V. G. Goggi,S. Gong,G. M. Grieco,Magnus Hansen,H. Hentzell,T. T. Holmberg,I. Hoglund,S. Inkinen,Andras Kerek,C. Landi,O. LeDortz,M. Lippi,B. Lofstedt,Bengt Lund-Jensen,Franco Maloberti,S. Mutz,P. Nayman,Vincenzo Piuri,G. Polesello,Mariagiovanna Sami,Aurore Savoy-Navarro,P. Schwemling,Renato Stefanelli,R. Sundblad,Christer Svensson,Guido Torelli,J.P. Vanuxem,N. Yamdagni,Jiren Yuan,A. Odmark +45 more
TL;DR: In this article, the authors describe the digital filter section of the FERMI readout microsystem, consisting of two separate filter blocks, extracts the pulse amplitude and time information for the first-level trigger process and performs a highly accurate energy measurement for higher-level triggering and data readout purposes.
Journal ArticleDOI
FERMI/spl minus/a new generation of electronic modules for large data acquisition arrays required by high energy physics
A. Dell'Acqua,H. Alexanian,C. Alippi,G. Appelquist,P. Bailly,R. Benetta,S. Berglund,J. Bezamat,F. Blouzon,C. Bohm,Luca Breveglieri,S. Brigati,P.J. Carlson,P.W. Cattaneo,L. Dadda,J. David,M. Engstrom,G. Fumagalli,Umberto Gatti,J.F. Genat,V. G. Goggi,S. Gong,Magnus Hansen,H. Hentzell,I. Hoglund,S. Inkinen,Andras Kerek,O. LeDortz,B. Lofstedt,F. Maloberti,P. Nayman,A. Odmark,V. Piuri,G. Polesello,Fabio Salice,N. Sami,Aurore Savoy-Navarro,R. Stefanelli,R. Sundblad,C. Svensson,Guido Torelli,J.P. Vanuxem,N. Yamdagni,Jiren Yuan +43 more
TL;DR: The Front End Readout MIcrosystem (FERMI) as mentioned in this paper is a representative of a new generation of data acquisition modules which utilizes modern design techniques to achieve a high acquisition rate together with intelligent on-line data processing.
FERMI ― a new generation of electronic modules for large data acquisition arrays required by high energy physics : Wafer-scale technology
A. Dell'acqua,H. Alexanian,C. Alippi,G. Appelquist,P. Bailly,R. Benetta,S. Berglund,J. Bezamat,F. Blouzon,Christian Bohm,Luca Breveglieri,S. Brigati,P.J. Carlson,P.W. Cattaneo,L. Dadda,J. David,M. Engstrom,G. Fumagalli,Umberto Gatti,J.F. Genat,V. G. Goggi,S. Gong,Magnus Hansen,H. Hentzell,I. Hoglund,S. Inkinen,Andras Kerek,O. LeDortz,B. Lofstedt,F. Maloberti,P. Nayman,A. Odmark,V. Piuri,G. Polesello,Fabio Salice,M. Sami,Aurore Savoy-Navarro,R. Stefanelli,R. Sundblad,C. Svensson,G. Torelli,J. P. Vanuxem,N. Yamdagni,Jiren Yuan +43 more
TL;DR: The Front End Readout MIcrosystem (FERMI) as mentioned in this paper is representative of a new generation of data acquisition modules which utilizes modern design techniques to achieve high acquisition rates together with intelligent on-line data processing.