Analysis of Process Variation Within Clock Regions of AMD-Xilinx UltraScale+ Devices

Bardia Babaei; Dirk Koch

doi:10.1007/978-3-031-55673-9_14

Analysis of Process Variation Within Clock Regions of AMD-Xilinx UltraScale+ Devices

Research output: Chapter in Book/Conference proceeding › Chapter › peer-review

Abstract

As semiconductor technology advances and transistor feature sizes shrink, the increasing significance of process variation poses critical challenges to the reliability of semiconductor devices. This paper thoroughly explores the impact of process variation within the Clock Regions (CRs) of AMD-Xilinx UltraScale+ devices. We employ a novel method to characterize process variation with significantly higher precision than conventional ring oscillator (RO)-based sensors. Our experimental findings on ZYNQ XCZU9EG reveal that the latency of resources during rising and falling transitions may differ. Additionally, the proximity of Interconnect (INT) tiles to various tile types can influence the latency of resources within a column in a given CR. Moreover, we demonstrate that specific segments within CRs consistently exhibit faster performance compared to other areas within the same CR.

Original language	English
Title of host publication	Applied Reconfigurable Computing. Architectures, Tools, and Applications
Subtitle of host publication	20th International Symposium, ARC 2024, Aveiro, Portugal, March 20–22, 2024, Proceedings
Editors	Iouliia Skliarova, Piedad Brox Jiménez, Mário Véstias, Pedro C. Diniz
Place of Publication	Cham
Publisher	Springer Cham
Pages	193-209
Number of pages	17
ISBN (Electronic)	9783031556739
ISBN (Print)	9783031556722
DOIs	https://doi.org/10.1007/978-3-031-55673-9_14
Publication status	Published - 12 Mar 2024

Publication series

Name	Lecture Notes in Computer Science
Publisher	Springer
Volume	14553
ISSN (Print)	0302-9743
ISSN (Electronic)	1611-3349

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10.1007/978-3-031-55673-9_14

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Babaei, B., & Koch, D. (2024). Analysis of Process Variation Within Clock Regions of AMD-Xilinx UltraScale+ Devices. In I. Skliarova, P. B. Jiménez, M. Véstias, & P. C. Diniz (Eds.), Applied Reconfigurable Computing. Architectures, Tools, and Applications: 20th International Symposium, ARC 2024, Aveiro, Portugal, March 20–22, 2024, Proceedings (pp. 193-209). (Lecture Notes in Computer Science; Vol. 14553). Springer Cham. https://doi.org/10.1007/978-3-031-55673-9_14

Babaei, Bardia ; Koch, Dirk. / Analysis of Process Variation Within Clock Regions of AMD-Xilinx UltraScale+ Devices. Applied Reconfigurable Computing. Architectures, Tools, and Applications: 20th International Symposium, ARC 2024, Aveiro, Portugal, March 20–22, 2024, Proceedings. editor / Iouliia Skliarova ; Piedad Brox Jiménez ; Mário Véstias ; Pedro C. Diniz. Cham : Springer Cham, 2024. pp. 193-209 (Lecture Notes in Computer Science).

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abstract = "As semiconductor technology advances and transistor feature sizes shrink, the increasing significance of process variation poses critical challenges to the reliability of semiconductor devices. This paper thoroughly explores the impact of process variation within the Clock Regions (CRs) of AMD-Xilinx UltraScale+ devices. We employ a novel method to characterize process variation with significantly higher precision than conventional ring oscillator (RO)-based sensors. Our experimental findings on ZYNQ XCZU9EG reveal that the latency of resources during rising and falling transitions may differ. Additionally, the proximity of Interconnect (INT) tiles to various tile types can influence the latency of resources within a column in a given CR. Moreover, we demonstrate that specific segments within CRs consistently exhibit faster performance compared to other areas within the same CR.",

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Babaei, B & Koch, D 2024, Analysis of Process Variation Within Clock Regions of AMD-Xilinx UltraScale+ Devices. in I Skliarova, PB Jiménez, M Véstias & PC Diniz (eds), Applied Reconfigurable Computing. Architectures, Tools, and Applications: 20th International Symposium, ARC 2024, Aveiro, Portugal, March 20–22, 2024, Proceedings. Lecture Notes in Computer Science, vol. 14553, Springer Cham, Cham, pp. 193-209. https://doi.org/10.1007/978-3-031-55673-9_14

Analysis of Process Variation Within Clock Regions of AMD-Xilinx UltraScale+ Devices. / Babaei, Bardia ; Koch, Dirk.
Applied Reconfigurable Computing. Architectures, Tools, and Applications: 20th International Symposium, ARC 2024, Aveiro, Portugal, March 20–22, 2024, Proceedings. ed. / Iouliia Skliarova; Piedad Brox Jiménez; Mário Véstias; Pedro C. Diniz. Cham: Springer Cham, 2024. p. 193-209 (Lecture Notes in Computer Science; Vol. 14553).

Research output: Chapter in Book/Conference proceeding › Chapter › peer-review

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AB - As semiconductor technology advances and transistor feature sizes shrink, the increasing significance of process variation poses critical challenges to the reliability of semiconductor devices. This paper thoroughly explores the impact of process variation within the Clock Regions (CRs) of AMD-Xilinx UltraScale+ devices. We employ a novel method to characterize process variation with significantly higher precision than conventional ring oscillator (RO)-based sensors. Our experimental findings on ZYNQ XCZU9EG reveal that the latency of resources during rising and falling transitions may differ. Additionally, the proximity of Interconnect (INT) tiles to various tile types can influence the latency of resources within a column in a given CR. Moreover, we demonstrate that specific segments within CRs consistently exhibit faster performance compared to other areas within the same CR.

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Babaei B , Koch D. Analysis of Process Variation Within Clock Regions of AMD-Xilinx UltraScale+ Devices. In Skliarova I, Jiménez PB, Véstias M, Diniz PC, editors, Applied Reconfigurable Computing. Architectures, Tools, and Applications: 20th International Symposium, ARC 2024, Aveiro, Portugal, March 20–22, 2024, Proceedings. Cham: Springer Cham. 2024. p. 193-209. (Lecture Notes in Computer Science). Epub 2024 Mar 11. doi: 10.1007/978-3-031-55673-9_14

Analysis of Process Variation Within Clock Regions of AMD-Xilinx UltraScale+ Devices

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