AGATA phase 2 advancements in front-end electronics

J. Collado; S. Capra; A. Pullia; N. Karkour; Ch Houarner; V. Gonzalez; G. Wittwer; A. Boujrad; M. Kogimtzis; J. Lawson; A. Goasduff; O. Stezowski; Ch. Bonnin; L. Charles; V. Alaphilippe; N. Dosme; C. Esnault; L. Gibelin; X. Lafay; E. Legay; D. Linget; M. Cahoreau; D. Sidler; G. Vinther-Jørgensen; J. V. Civera; G. Duchêne; E. Clément; I. Lazarus; A. Gadea

doi:10.1140/epja/s10050-023-01045-0

AGATA phase 2 advancements in front-end electronics

J. Collado, S. Capra, A. Pullia, N. Karkour, Ch Houarner, V. Gonzalez, G. Wittwer, A. Boujrad, M. Kogimtzis, J. Lawson, A. Goasduff, O. Stezowski, Ch. Bonnin, L. Charles, V. Alaphilippe, N. Dosme, C. Esnault, L. Gibelin, X. Lafay, E. LegayD. Linget, M. Cahoreau, D. Sidler, G. Vinther-Jørgensen, J. V. Civera, G. Duchêne, E. Clément, I. Lazarus, A. Gadea^*

^*Corresponding author for this work

Department of Electrical and Photonics Engineering

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Abstract

The AGATA collaboration has a long-standing leadership in the development of front-end electronics for high resolution γ -ray spectroscopy using large volume high purity germanium detectors. For two decades, the AGATA collaboration has been developing state-of-the-art digital electronics processing with high resolution sampling ADC, high-speed signal transfer and fast readout to a high throughput computing (HTC) farm for on-line pulse shape analysis. The collaboration is presently addressing the next challenge of equipping a 4 π array with more than 6000 channels in high resolution mode, generating approximately 10 MHz of total trigger requests, coupled to a large variety of complementary instruments. A next generation of front-end electronics, presently under design, is based on industrial products (System on Module FPGA’s), has higher integration and lower power consumption. In this contribution, the conceptual design of the new electronics is presented. The results of the very first tests of the pre-production electronics are presented as well as future perspectives.

Original language	English
Article number	133
Journal	The European Physical Journal A: Hadrons and Nuclei
Volume	59
Issue number	6
Number of pages	20
ISSN	0939-7922
DOIs	https://doi.org/10.1140/epja/s10050-023-01045-0
Publication status	Published - 2023

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Collado, J., Capra, S., Pullia, A., Karkour, N., Houarner, C., Gonzalez, V., Wittwer, G., Boujrad, A., Kogimtzis, M., Lawson, J., Goasduff, A., Stezowski, O., Bonnin, C., Charles, L., Alaphilippe, V., Dosme, N., Esnault, C., Gibelin, L., Lafay, X., ... Gadea, A. (2023). AGATA phase 2 advancements in front-end electronics. The European Physical Journal A: Hadrons and Nuclei, 59(6), Article 133. https://doi.org/10.1140/epja/s10050-023-01045-0

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abstract = "The AGATA collaboration has a long-standing leadership in the development of front-end electronics for high resolution γ -ray spectroscopy using large volume high purity germanium detectors. For two decades, the AGATA collaboration has been developing state-of-the-art digital electronics processing with high resolution sampling ADC, high-speed signal transfer and fast readout to a high throughput computing (HTC) farm for on-line pulse shape analysis. The collaboration is presently addressing the next challenge of equipping a 4 π array with more than 6000 channels in high resolution mode, generating approximately 10 MHz of total trigger requests, coupled to a large variety of complementary instruments. A next generation of front-end electronics, presently under design, is based on industrial products (System on Module FPGA{\textquoteright}s), has higher integration and lower power consumption. In this contribution, the conceptual design of the new electronics is presented. The results of the very first tests of the pre-production electronics are presented as well as future perspectives.",

author = "J. Collado and S. Capra and A. Pullia and N. Karkour and Ch Houarner and V. Gonzalez and G. Wittwer and A. Boujrad and M. Kogimtzis and J. Lawson and A. Goasduff and O. Stezowski and Ch. Bonnin and L. Charles and V. Alaphilippe and N. Dosme and C. Esnault and L. Gibelin and X. Lafay and E. Legay and D. Linget and M. Cahoreau and D. Sidler and G. Vinther-J{\o}rgensen and Civera, {J. V.} and G. Duch{\^e}ne and E. Cl{\'e}ment and I. Lazarus and A. Gadea",

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Collado, J, Capra, S, Pullia, A, Karkour, N, Houarner, C, Gonzalez, V, Wittwer, G, Boujrad, A, Kogimtzis, M, Lawson, J, Goasduff, A, Stezowski, O, Bonnin, C, Charles, L, Alaphilippe, V, Dosme, N, Esnault, C, Gibelin, L, Lafay, X, Legay, E, Linget, D, Cahoreau, M, Sidler, D, Vinther-Jørgensen, G, Civera, JV, Duchêne, G, Clément, E, Lazarus, I & Gadea, A 2023, 'AGATA phase 2 advancements in front-end electronics', The European Physical Journal A: Hadrons and Nuclei, vol. 59, no. 6, 133. https://doi.org/10.1140/epja/s10050-023-01045-0

TY - JOUR

T1 - AGATA phase 2 advancements in front-end electronics

AU - Collado, J.

AU - Capra, S.

AU - Pullia, A.

AU - Karkour, N.

AU - Houarner, Ch

AU - Gonzalez, V.

AU - Wittwer, G.

AU - Boujrad, A.

AU - Kogimtzis, M.

AU - Lawson, J.

AU - Goasduff, A.

AU - Stezowski, O.

AU - Bonnin, Ch.

AU - Charles, L.

AU - Alaphilippe, V.

AU - Dosme, N.

AU - Esnault, C.

AU - Gibelin, L.

AU - Lafay, X.

AU - Legay, E.

AU - Linget, D.

AU - Cahoreau, M.

AU - Sidler, D.

AU - Vinther-Jørgensen, G.

AU - Civera, J. V.

AU - Duchêne, G.

AU - Clément, E.

AU - Lazarus, I.

AU - Gadea, A.

PY - 2023

Y1 - 2023

N2 - The AGATA collaboration has a long-standing leadership in the development of front-end electronics for high resolution γ -ray spectroscopy using large volume high purity germanium detectors. For two decades, the AGATA collaboration has been developing state-of-the-art digital electronics processing with high resolution sampling ADC, high-speed signal transfer and fast readout to a high throughput computing (HTC) farm for on-line pulse shape analysis. The collaboration is presently addressing the next challenge of equipping a 4 π array with more than 6000 channels in high resolution mode, generating approximately 10 MHz of total trigger requests, coupled to a large variety of complementary instruments. A next generation of front-end electronics, presently under design, is based on industrial products (System on Module FPGA’s), has higher integration and lower power consumption. In this contribution, the conceptual design of the new electronics is presented. The results of the very first tests of the pre-production electronics are presented as well as future perspectives.

AB - The AGATA collaboration has a long-standing leadership in the development of front-end electronics for high resolution γ -ray spectroscopy using large volume high purity germanium detectors. For two decades, the AGATA collaboration has been developing state-of-the-art digital electronics processing with high resolution sampling ADC, high-speed signal transfer and fast readout to a high throughput computing (HTC) farm for on-line pulse shape analysis. The collaboration is presently addressing the next challenge of equipping a 4 π array with more than 6000 channels in high resolution mode, generating approximately 10 MHz of total trigger requests, coupled to a large variety of complementary instruments. A next generation of front-end electronics, presently under design, is based on industrial products (System on Module FPGA’s), has higher integration and lower power consumption. In this contribution, the conceptual design of the new electronics is presented. The results of the very first tests of the pre-production electronics are presented as well as future perspectives.

U2 - 10.1140/epja/s10050-023-01045-0

DO - 10.1140/epja/s10050-023-01045-0

M3 - Journal article

SN - 0939-7922

VL - 59

JO - The European Physical Journal A: Hadrons and Nuclei

JF - The European Physical Journal A: Hadrons and Nuclei

IS - 6

M1 - 133

ER -

AGATA phase 2 advancements in front-end electronics

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