Your search keyword '"DDCM"' showing total 22 results

1. Novel lifetime measurement techniques of excited nuclear states and their application to proton-rich nuclei

Author

Barber, Liam

Subjects

Methods, Excited states, UDCM, PTRM, Charge plunger, DDCM, Lifetimes, Nuclear physics, Plungers

Abstract

This thesis presents three novel methods of performing lifetime measurements that have each either been commissioned or are newly introduced in this work. All of these techniques relate to plunger lifetime measurements of excited nuclear states and extend the applicability of the differential decay curve method (DDCM). A new analysis technique, the unresolved Doppler components (UDCM) method, is introduced that allows for lifetimes to be extracted from recoil distance Doppler-shift (RDDS) experiments in which the fully-shifted and degraded Doppler peaks are unresolved in energy. This technique has been validated through the measurement of the known 2+ lifetime in 50Mn and also extended to allow for a UDCM analysis of data from triple-foil plungers. This approach can also result in smaller uncertainties on the measured lifetime than the standard DDCM approach, which is investigated. Additionally, a charge plunger device has been commissioned, with the charge plunger technique applied to a DDCM analysis for the first time. A commissioning measurement has been made to the 2+ state in 180Pt. This approach allows for lifetimes to be determined through measurement of the charge-state distribution of ions undergoing internal conversion, rather than the measurement of Doppler-shifted gamma-rays. Finally, a new technique that allows for the inclusion of any arbitrary fraction of the degraded component in the gamma-ray gate used in a coincidence DDCM analysis has been introduced. This technique was applied to measure 15/2- and 19/2- states in 163Ta. The latter measurement was not possible with existing analysis techniques. These lifetimes were interpreted with the particle triaxial rotor model, in order to determine the deformation of the yrast band in 163Ta.

Published

2022

2. Commissioning of a Triple-foil Plunger for Exotic Nuclei (TPEN)

Author

Giles, Michael

Subjects

500, Plunger, RDDS, Nuclear, DDCM, TPEN, Lifetimes

Abstract

A Triple-foil differential Plunger for Exotic Nuclei (TPEN) has been developed to measure the lifetimes of excited states in nuclei with small production cross sections. TPEN utilises one target foil and two degrader foils to make differential lifetime measurements by directly determining the decay function and its derivative at a single plunger distance setting. The direct measurement of the decay function and its derivative removes the requirement to measure gamma-ray intensities at several target-to-degrader distances, thereby reducing the beam-time required relative to a conventional plunger with a single-degrader foil. This thesis describes the construction and subsequent commissioning of TPEN with the lifetime measurement of the first excited 4+ state in 156Dy using this differential lifetime technique. The 46(2) ps measured lifetime of the 4+ was found to be in good agreement with the 45.6(5) ps deduced from a previous high-statistics experiment using a conventional two-foil plunger. A comparison between the present work with TPEN and using conventional two-foil plungers reveals that TPEN achieves the same statistical accuracy with a 4-fold reduction in beamtime with this particular 24Mg(136Xe,4n) reaction. TPEN therefore opens up new opportunities to study exotic nuclei with lower production cross sections that were previously inaccessible.

Published

2019

3. COUNTDOWN: A Run-Time Library for Performance-Neutral Energy Saving in MPI Applications.

Author

Cesarini, Daniele, Bartolini, Andrea, Bonfa, Pietro, Cavazzoni, Carlo, and Benini, Luca

Subjects

*ENERGY consumption, *SYNCHRONIZATION, *ELECTRIC power conservation, *ESPRESSO

Abstract

Power and energy consumption are becoming key challenges for the supercomputers’ exascale race. HPC systems’ processors waist active power during communication and synchronization among the MPI processes in large-scale HPC applications. However, due to the time scale at which communication happens, transitioning into low-power states while waiting for the completion of each communication may introduce unacceptable overhead. In this article, we present COUNTDOWN, a run-time library for identifying and automatically reducing the power consumption of the CPUs during communication and synchronization. COUNTDOWN saves energy without penalizing the time-to-completion by lowering CPUs power consumption only during idle times for which power state transition overhead is negligible. This is done transparently to the user, without requiring labor-intensive and error-prone application code modifications, nor requiring recompilation of the application. We test our methodology on a production Tier-1 system. For the NAS benchmarks, COUNTDOWN saves between 6 and 50 percent energy, with a time-to-solution penalty lower than 5 percent. In a complete production—Quantum ESPRESSO—for a 3.5K cores run, COUNTDOWN saves 22.36 percent energy, with a performance penalty below 3 percent. Energy saving increases to 37 percent with a performance penalty of 6.38 percent, if the application is executed without communication tuning. [ABSTRACT FROM AUTHOR]

Published

2021

4. TPEN: A Triple-foil differential Plunger for lifetime measurements of excited states in Exotic Nuclei.

Author

Giles, M.M., Cullen, D.M., Barber, L., Singh, B.S. Nara, Taylor, M.J., Smith, A.J., McFarlane, A., Read, C., Grahn, T., Badran, H., Greenlees, P.T., Julin, R., Pakarinen, J., Partanen, J., Rahkila, P., Ruotsalainen, P., Sandzelius, M., Sarén, J., Sorri, J., and Szwec, S.V.

Subjects

*EXOTIC nuclei, *EXCITED states, *NUCLEAR cross sections, *X-rays, *NUCLEAR reactions

Abstract

Abstract A Triple-foil differential Plunger for Exotic Nuclei (TPEN) has been developed to measure the lifetimes of excited states in nuclei with small production cross-sections. TPEN utilises one target foil and two degrader foils to make differential lifetime measurements: directly determining the decay function and its derivative at a single plunger distance setting. The direct measurement of the decay function and its derivative removes the requirement to measure γ -ray intensities at several target-to-degrader distances, thereby reducing the beam-time required relative to a conventional plunger with a single-degrader foil. This paper describes the commissioning of TPEN in the lifetime measurement of the first excited 4 + state in 156Dy using this differential lifetime technique. The 46(2) ps measured lifetime was found to be in good agreement with the 45.6(5) ps deduced from a previous high-statistics experiment using a conventional two-foil plunger. A comparison between the differential mode with TPEN, and that using TPEN as a conventional two-foil plunger reveals that it achieves the same statistical accuracy with a ∼ 4 -fold reduction in beam-time in the differential mode, for the reaction and experimental setup used in this work. TPEN opens up new opportunities to study exotic nuclei with lower production cross-sections that were previously not accessible. [ABSTRACT FROM AUTHOR]

Published

2019

5. On the effect of the hyperfine interactions on Recoil distance Doppler-shift lifetime measurements.

Author

Petkov, P.

Subjects

*HYPERFINE interactions, *DOPPLER effect, *CHARGE carrier lifetime, *ANGULAR distribution (Nuclear physics), *ELASTIC recoil detection analysis

Abstract

The hyperfine interactions effect on the results from RDDS experiments is considered. Expressions for the influenced observables are derived within the context of application of the Differential decay curve method for data analysis. In particular, a formula for the lifetime is given where, on the one hand, measured quantities—peak areas of the shifted (fast) components and on the other hand, modeled perturbed angular distribution functions are taken into account. This formula allows for both study of the hyperfine interactions and correct derivation of the lifetime of the investigated level. [ABSTRACT FROM AUTHOR]

Published

2018

6. Application of the differential decay-curve method to γ–γ fast-timing lifetime measurements.

Author

Petkov, P., Régis, J.-M., Dewald, A., and Kisyov, S.

Subjects

*EXPONENTIAL decay law, *MEASUREMENT, *DIFFERENTIAL equations, *MEASUREMENT errors, *RELIABILITY in engineering

Abstract

A new procedure for the analysis of delayed-coincidence lifetime experiments focused on the Fast-timing case is proposed following the approach of the Differential decay-curve method. Examples of application of the procedure on experimental data reveal its reliability for lifetimes even in the sub-nanosecond range. The procedure is expected to improve both precision/reliability and treatment of systematic errors and scarce data as well as to provide an option for cross-check with the results obtained by means of other analyzing methods. [ABSTRACT FROM AUTHOR]

Published

2016

7. Revisiting the measurement of absolute foil-separation for RDDS measurements and introduction of an optical measurement method.

Author

Beckers, M., Dewald, A., Fransen, C., Kornwebel, L., Lakenbrink, C.-D., and von Spee, F.

Subjects

*OPTICAL measurements, *MEASUREMENT, *ELECTRIC capacity

Abstract

Uncertainties in absolute plunger distances are an often overlooked component in measurements with the Recoil Distance Doppler-shift (RDDS) method when the Differential Decay Curve (DDC) method cannot be used for the analysis. It is shown how these uncertainties arise when the capacitance method is used to determine absolute distances and how they influence the obtained lifetime values of a plunger experiment. Furthermore, a new approach to obtain absolute foil separations for plunger measurements using a high precision optical distance probe is introduced, which can reduce these uncertainties by a large margin. The performance of this method is demonstrated by comparisons to the capacitance method as well as to a precise measurement of absolute distances using known lifetimes in 181Ta. [ABSTRACT FROM AUTHOR]

Published

2022

8. A Novel Digital Duty-Cycle Modulation Scheme for FPGA-Based Digital-to-Analog Conversion.

Author

Lonla Moffo, Bertrand and Mbihi, Jean

Abstract

In this brief, a novel digital duty-cycle modulation (DDCM) scheme is outlined. The digital part, embedded in a field-programmable gate array (FPGA) chip, consists of a lookup DDCM map, a dual DDCM counting logic with interrupt service routines, and a holder. It is used as a building core of a well-tested 10–12 bits FPGA-based digital-to-analog converter (DAC). Experimental tests show that for a digital input bandwidth of 3 kHZ, the new DDDM technique for DAC achieves 40 dBc of surpious free dynamic range and 60 dB of NOISE FLOOR range. This performance is a challenge compared with most low cost oversampling DACs schemes with single decimation stage. [ABSTRACT FROM PUBLISHER]

Published

2015

9. New procedures for analyzing Doppler-shift attenuation lifetime measurements.

Author

Petkov, P., Dewald, A., Tonev, D., Goutev, N., Asova, G., Dimitrov, B., Gavrilov, G., Mineva, M.N., and Yavahchova, M.S.

Subjects

*DOPPLER effect, *SCATTERING (Physics), *ATTENUATION (Physics), *COMPUTER simulation, *RELIABILITY in engineering

Abstract

A generalization of an earlier proposed version of the Differential decay curve method is presented for the analysis of Doppler-shift attenuation lifetime measurements. The lifetime is derived directly from the line shapes of the depopulating and feeding transitions without any assumptions about or fitting of the time dependence of the population of the corresponding levels except for unobserved feeding when relevant. Fitting of the line shapes is also not necessary. The only approximation involved is related to the continuous treatment of the nuclear scattering events in the Monte Carlo simulation needed. Tests with simulated and real data reveal good reliability of this method. We propose also a new precise procedure where the lifetime is derived by fitting the time dependence of the population of the level of interest using the line shape of the depopulating transition and the difference of the spectra of the depopulating and feeding transitions. Practical application to simulated and real data proves the applicability of the new procedure. [ABSTRACT FROM AUTHOR]

Published

2015

10. A charge plunger device to measure the lifetimes of excited nuclear states where transitions are dominated by internal conversion

Author

Barber, L. (L.), Heery, J. (J.), Cullen, D. M. (D. M.), Singh, B. S. (B. S. Nara), Herzberg, R.-D. (R.-D.), Müller-Gatermann, C. (C.), Beeton, G. (G.), Bowry, M. (M.), Dewald, A. (A.), Grahn, T. (T.), Greenlees, P. T. (P. T.), Illana, A. (A.), Julin, R. (R.), Juutinen, S. (S.), Keatings, J. M. (J. M.), Luoma, M. (M.), O’Donnell, D. (D.), Ojala, J. (J.), Pakarinen, J. (J.), Rahkila, P. (P.), Ruotsalainen, P. (P.), Sandzelius, M. (M.), Sarén, J. (J.), Sinclair, J. (J.), Smith, J. F. (J. F.), Sorri, J. (J.), Spagnoletti, P. (P.), Tann, H. (H.), Uusitalo, J. (J.), Vilhena, J. (J.), Zimba, G. (G.), Barber, L. (L.), Heery, J. (J.), Cullen, D. M. (D. M.), Singh, B. S. (B. S. Nara), Herzberg, R.-D. (R.-D.), Müller-Gatermann, C. (C.), Beeton, G. (G.), Bowry, M. (M.), Dewald, A. (A.), Grahn, T. (T.), Greenlees, P. T. (P. T.), Illana, A. (A.), Julin, R. (R.), Juutinen, S. (S.), Keatings, J. M. (J. M.), Luoma, M. (M.), O’Donnell, D. (D.), Ojala, J. (J.), Pakarinen, J. (J.), Rahkila, P. (P.), Ruotsalainen, P. (P.), Sandzelius, M. (M.), Sarén, J. (J.), Sinclair, J. (J.), Smith, J. F. (J. F.), Sorri, J. (J.), Spagnoletti, P. (P.), Tann, H. (H.), Uusitalo, J. (J.), Vilhena, J. (J.), and Zimba, G. (G.)

Abstract

A charge plunger device has been commissioned based on the DPUNS plunger (Taylor et al., 2013) using the in-flight mass separator MARA at the University of Jyväskylä. The ¹⁵²Sm(³²S,4n)¹⁸⁰ reaction was used to populate excited states in ¹⁸⁰. A lifetime measurement of the state \(2_1^+\) was performed by applying the charge plunger technique, which relies on the detection of the charge state-distribution of recoils rather than the detection of the emitted γ rays. This state was a good candidate to test the charge plunger technique as it has a known lifetime and depopulates through a converted transition that competes strongly with γ-ray emission. The lifetime of the \(2_1^+\) state was measured to be 480(10)ps, which is consistent with previously reported lifetimes that relied on the standard γ-ray techniques. The charge plunger technique is a complementary approach to lifetime measurements of excited states that depopulate through both γ-ray emission and internal conversion. In cases where it is not possible to detect Doppler-shifted γ rays, for example, in heavy nuclei where internal conversion dominates, it may well be the only feasible lifetime analysis approach.

Published

2020

11. Velocity distribution in Recoil-Distance Doppler-Shift experiments.

Author

Hackstein, M. and Dewald, A.

Subjects

*VELOCITY distribution (Statistical mechanics), *DOPPLER effect, *PICOSECOND pulses, *NUCLEAR reactions, *FOILS (Fencing), *SIMULATION methods & models

Abstract

Abstract: The Recoil-Distance Doppler-Shift (RDDS) or Plunger technique is a well established method to measure lifetimes of excited nuclear states in the pico-second range. In standard RDDS experiments, the velocities of the nuclei of interest emerging from a usually thin target foil are distributed around a mean velocity with a relatively narrow width and it is sufficient to assume that all nuclei move with the average velocity. In this paper we investigate the influence of a broader velocity distribution especially for lifetimes τ determined using the DDCM and its basic relation and simulated experimental data (R(x) decay curve of the level of interest, feeding decay curves). It turned out that it is favorable to use instead of . Further, deviations from the correct lifetimes practically vanish at target to stopper separations close to the maximum amplitude of the function . As a consequence in a plunger experiment target-to-stopper separations should be selected symmetrically around the maximum amplitude of the function in order to minimize the effect of a broad velocity distribution. [Copyright &y& Elsevier]

Published

2014

12. Performing the differential decay curve method on y-ray transitions with unresolved Doppler-shifted components

Author

Barber, Liam, Cullen, David M., Giles, M.M., Nara Singh, B.S., Mallaburn, M.J., Beckers, Marcel, Blazhev, Andrey, Braunroth, Thomas, Dewald, Alfred, Fransen, Christoph, Goldkuhle, Alina, Jolie, Jan, Mammes, Franziska, Müller-Gatermann, Claus, Wölk, Dorothea, Zell, Karl Oskar, and Publica

Subjects

unresolved Doppler-shifted component, RDDS, DDCM, UDCM, plunger, nuclear-state lifetime

Abstract

A new method of extracting the g-ray intensities necessary to perform lifetime measurements using the differential decay curve method (DDCM) is presented in this work, the unresolved Doppler-shifted components method (UDCM). The UDCM allows for a DDCM analysis to be performed using a g-ray transition for which the fully Doppler-shifted and degraded components are unresolvable in energy and so are detected as a single peak. This technique was used to measure the known lifetime of the yrast 2+1 state in 50Mn with a depopulating transition that does not have resolvable fully Doppler-shifted and degraded components. The lifetime measured through applying the UDCM was consistent with the standard DDCM measurement of the 2+1 state. Use of the UDCM allows for DDCM lifetime measurements to be made using transitions of smaller g-ray energies, smaller recoil velocities and, in some cases, with a smaller uncertainty. In contrast to a standard DDCM analysis, a UDCM analysis is also independent of the widths of the fully Doppler-shifted and degraded components and as a result they do not need to be determined.

Published

2020

13. A new version of the differential decay curve method for Doppler-shift attenuation lifetime measurements

Author

Petkov, P., Yavahchova, M., Tonev, D., Goutev, N., and Dewald, A.

Subjects

*DOPPLER effect, *ATTENUATION (Physics), *APPROXIMATION theory, *PRESUPPOSITION (Logic), *NUCLEAR counters, *ARBITRARY constants

Abstract

Abstract: A new version of the differential decay curve method is proposed for the analysis of Doppler-shift attenuation lifetime measurements. The lifetime is derived directly from the line shapes of the depopulating and feeding transitions on the basis of the Blaugrund approximation without including any assumptions or fitting of the time dependence of the population of the corresponding levels. For specific simulated cases, the method shows promise for its applicability. In the future, we intend to generalize the method for the case of an arbitrary multi-detector setup. [Copyright &y& Elsevier]

Published

2013

14. A new differentially pumped plunger device to measure excited-state lifetimes in proton emitting nuclei

Author

Taylor, M.J., Cullen, D.M., Smith, A.J., McFarlane, A., Twist, V., Alharshan, G.A., Procter, M.G., Braunroth, T., Dewald, A., Ellinger, E., Fransen, C., Butler, P.A., Scheck, M., Joss, D.T., Saygi, B., McPeake, C.G., Grahn, T., Greenlees, P.T., Jakobsson, U., and Jones, P.

Subjects

*EXOTIC nuclei, *PROTONS, *VACUUM, *STEPPING motors, *ELECTRIC potential, UNIVERSITY of Jyvasklya (Jyvaskyla, Finland)

Abstract

Abstract: A new plunger device has been designed and built to measure the lifetimes of unbound states in exotic nuclei beyond the proton drip-line. The device has been designed to work in both vacuum and dilute-gas environments made possible through the introduction of a low-voltage stepping motor. DPUNS will be used in conjunction with the gas-filled separator RITU and the vacuum separator MARA at the accelerator laboratory of the University of Jyväskylä, Finland, to measure the lifetimes of excited states with low population cross-sections. This is achieved by eliminating the need for a carbon foil to isolate the helium gas of RITU from the beam line thus reducing the background from beam-foil reactions. The inclusion of a high-sampling rate data acquisition card increases further the sensitivity of the device. The plunger will be used to address many key facets of nuclear structure physics with particular emphasis on the effect of deformation on proton emission rates. [Copyright &y& Elsevier]

Published

2013

15. TPEN: A Triple-foil differential Plunger for lifetime measurements of excited states in Exotic Nuclei

Author

Michael Taylor, J. Heery, Mikael Sandzelius, D. M. Cullen, Philippos Papadakis, Rauno Julin, B. S. Nara Singh, A.J. Smith, E. Parr, Panu Ruotsalainen, S.V. Szwec, Juha Sorri, Tuomas Grahn, A. McFarlane, Panu Rahkila, Jan Sarén, Juha Uusitalo, L. Barber, H. Badran, Paul Greenlees, Jari Partanen, Janne Pakarinen, M. M. Giles, R-D Herzberg, and C. Read

Subjects

Plunger, Physics, Nuclear and High Energy Physics, DDCM, Manchester Cancer Research Centre, ta114, ResearchInstitutes_Networks_Beacons/mcrc, tutkimuslaitteet, 156Dy, plunger, excited-state lifetimes, triple-foil plunger, RDDS, Decay function, Excited state, Atomic physics, ydinfysiikka, Instrumentation, FOIL method

Abstract

A Triple-foil differential Plunger for Exotic Nuclei (TPEN) has been developed to measure the lifetimes of excited states in nuclei with small production cross-sections. TPEN utilises one target foil and two degrader foils to make differential lifetime measurements: directly determining the decay function and its derivative at a single plunger distance setting. The direct measurement of the decay function and its derivative removes the requirement to measure γ -ray intensities at several target-to-degrader distances, thereby reducing the beam-time required relative to a conventional plunger with a single-degrader foil. This paper describes the commissioning of TPEN in the lifetime measurement of the first excited 4 + state in 156Dy using this differential lifetime technique. The 46(2) ps measured lifetime was found to be in good agreement with the 45.6(5) ps deduced from a previous high-statistics experiment using a conventional two-foil plunger. A comparison between the differential mode with TPEN, and that using TPEN as a conventional two-foil plunger reveals that it achieves the same statistical accuracy with a ∼ 4 -fold reduction in beam-time in the differential mode, for the reaction and experimental setup used in this work. TPEN opens up new opportunities to study exotic nuclei with lower production cross-sections that were previously not accessible.

Published

2019

16. Performing the differential decay curve method on γ-ray transitions with unresolved Doppler-shifted components

Author

M. Beckers, Michael Giles, J. Jolie, Alfred Dewald, C. Müller-Gatermann, C. Fransen, F. Mammes, Michael Mallaburn, Liam Barber, Nara Singh, A. Blazhev, K. O. Zell, Thomas Braunroth, D. M. Cullen, A. Goldkuhle, and D. Wölk

Subjects

Physics, Unresolved Doppler-shifted components, Nuclear and High Energy Physics, Work (thermodynamics), DDCM, Plunger, 010308 nuclear & particles physics, Yrast, 01 natural sciences, Measure (mathematics), Decay curve, symbols.namesake, Recoil, RDDS, 0103 physical sciences, symbols, Atomic physics, Differential (infinitesimal), UDCM, 010306 general physics, Instrumentation, Doppler effect, Nuclear-state lifetimes, Energy (signal processing)

Abstract

A new method of extracting the γ -ray intensities necessary to perform lifetime measurements using the differential decay curve method (DDCM) is presented in this work, the unresolved Doppler-shifted components method (UDCM). The UDCM allows for a DDCM analysis to be performed using a γ -ray transition for which the fully Doppler-shifted and degraded components are unresolvable in energy and so are detected as a single peak. This technique was used to measure the known lifetime of the yrast 2 1 + state in 50 Mn with a depopulating transition that does not have resolvable fully Doppler-shifted and degraded components. The lifetime measured through applying the UDCM was consistent with the standard DDCM measurement of the 2 1 + state. Use of the UDCM allows for DDCM lifetime measurements to be made using transitions of smaller γ -ray energies, smaller recoil velocities and, in some cases, with a smaller uncertainty. In contrast to a standard DDCM analysis, a UDCM analysis is also independent of the widths of the fully Doppler-shifted and degraded components and as a result they do not need to be determined.

Published

2019

17. Recoil Distance Method Lifetime Measurements in 107Cd and 103Pd.

Author

Andgren, K., Ashley, S. F., Regan, P. H., McCutchan, E. A., Zamfir, N. V., Amon, L., Cakirli, R. B., Casten, R. F., Clark, R. M., Erduran, M. N., Gürdal, G., Keyes, K. L., Meyer, D. A., Papenberg, A., Pietralla, N., Plettner, C., Rainovski, G., Ribas, R. V., Thomas, N. J., and Vinson, J.

Subjects

*CADMIUM, *PALLADIUM, *PHYSICS, *NUCLEAR physics, *EXCITON theory

Abstract

Preliminary lifetime values have been measured for a number of near-yrast states in the odd-A transitional nuclei 107Cd and 103Pd. The reaction used to populate the nuclei of interest was 98Mo(12C,3nxα)107Cd, 103Pd, with the beam delivered by the tandem accelerator of the Wright Nuclear Structure Laboratory at an incident beam energy of 60 MeV. Our experiment was aimed at the investigation of collective excitations built on the unnatural parity, ν h11/2 orbital, specifically by measuring the B(E2) values of decays from the excited levels built on this intrinsic structure, using the Doppler Recoil Distance Method. We report lifetimes and associated transition probabilities for decays from the 15/2- and the 19/2- states in 107Cd and the first measurement of the 15/2- state in 103Pd. These results suggest that neither a simple rotational or vibrational interpretation is sufficient to explain the observed structures. © 2006 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2006

18. COUNTDOWN - A Run-time Library for Application-agnostic Energy Saving in MPI Communication Primitives

Author

Carlo Cavazzoni, Andrea Bartolini, Piero Bonfà, Daniele Cesarini, Luca Benini, Carlo Cavazzoni, Andrea Bartolini, Daniele Cesarini, Luca Benini, Piero Bonfà, Bartolini, Andrea, Cardoso, João M.P., and Silvano, Cristina

Subjects

Power management, DDCM, HPC, MPI, profiling, power management, idleness, DVFS, C-states, P-states, T-states, hardware performance counters, timer, energy saving, power saving, Computer science, 02 engineering and technology, Synchronization (computer science), 0202 electrical engineering, electronic engineering, information engineering, Countdown, Code (cryptography), Profiling (computer programming), business.industry, 020208 electrical & electronic engineering, HPC, MPI, profiling, power management, idleness, DVFS, DDCM, C-states, P-states, T-states, hardware performance counters, timer, energy saving, power saving, Energy consumption, 020202 computer hardware & architecture, Filter (video), Embedded system, Timer, business

Abstract

Energy and power consumption are prominent issues in today’s supercomputers and are foreseen as a limiting factor of future installations. In scientific computing, a significant amount of power is spent in the communication and synchronization-related idle times among distributed processes participating to the same application. However, due to the time scale at which communication happens, taking advantage of low-power states to reduce power in idle times in the computing resources, may introduce significant overheads. In this paper we present COUNTDOWN, a methodology and a tool for identifying and automatically reducing the frequency of the computing elements in order to save energy during communication and synchronization primitives. COUNTDOWN is able to filter out phases which would detriment the time to solution of the application transparently to the user, without touching the application code nor requiring recompilation of the application. We tested our methodology in a production Tier-0 system, a production application - Quantum ESPRESSO (QE) - with production datasets which can scale up to 3.5K cores. Experimental results show that our methodology saves 22.36% of energy consumption with a performance penalty of 2.88% in real production MPI-based application., ANDARE '18 Proceedings of the 2nd Workshop on AutotuniNg and aDaptivity AppRoaches for Energy efficient HPC Systems, ISBN:978-1-4503-6591-8

Published

2018

19. A charge plunger device to measure the lifetimes of excited nuclear states where transitions are dominated by internal conversion.

Author

Barber, L., Heery, J., Cullen, D.M., Singh, B.S. Nara, Herzberg, R.-D., Müller-Gatermann, C., Beeton, G., Bowry, M., Dewald, A., Grahn, T., Greenlees, P.T., Illana, A., Julin, R., Juutinen, S., Keatings, J.M., Luoma, M., O'Donnell, D., Ojala, J., Pakarinen, J., and Rahkila, P.

Subjects

*EXCITED states, *HEAVY nuclei, *MACHINE separators

Abstract

A charge plunger device has been commissioned based on the DPUNS plunger (Taylor et al., 2013) using the in-flight mass separator MARA at the University of Jyväskylä. The 152 Sm (32 S ,4 n)180 Pt reaction was used to populate excited states in 180 Pt. A lifetime measurement of the 2 1 + state was performed by applying the charge plunger technique, which relies on the detection of the charge state-distribution of recoils rather than the detection of the emitted γ rays. This state was a good candidate to test the charge plunger technique as it has a known lifetime and depopulates through a converted transition that competes strongly with γ -ray emission. The lifetime of the 2 1 + state was measured to be 480 (10) ps , which is consistent with previously reported lifetimes that relied on the standard γ -ray techniques. The charge plunger technique is a complementary approach to lifetime measurements of excited states that depopulate through both γ -ray emission and internal conversion. In cases where it is not possible to detect Doppler-shifted γ rays, for example, in heavy nuclei where internal conversion dominates, it may well be the only feasible lifetime analysis approach. [ABSTRACT FROM AUTHOR]

Published

2020

20. Performing the differential decay curve method on [formula omitted]-ray transitions with unresolved Doppler-shifted components.

Author

Barber, L., Cullen, D.M., Giles, M.M., Nara Singh, B.S., Mallaburn, M.J., Beckers, M., Blazhev, A., Braunroth, T., Dewald, A., Fransen, C., Goldkuhle, A., Jolie, J., Mammes, F., Müller-Gatermann, C., Wölk, D., and Zell, K.O.

Subjects

*UNITS of measurement, *CURVES

Abstract

A new method of extracting the γ -ray intensities necessary to perform lifetime measurements using the differential decay curve method (DDCM) is presented in this work, the unresolved Doppler-shifted components method (UDCM). The UDCM allows for a DDCM analysis to be performed using a γ -ray transition for which the fully Doppler-shifted and degraded components are unresolvable in energy and so are detected as a single peak. This technique was used to measure the known lifetime of the yrast 2 1 + state in 50 Mn with a depopulating transition that does not have resolvable fully Doppler-shifted and degraded components. The lifetime measured through applying the UDCM was consistent with the standard DDCM measurement of the 2 1 + state. Use of the UDCM allows for DDCM lifetime measurements to be made using transitions of smaller γ -ray energies, smaller recoil velocities and, in some cases, with a smaller uncertainty. In contrast to a standard DDCM analysis, a UDCM analysis is also independent of the widths of the fully Doppler-shifted and degraded components and as a result they do not need to be determined. [ABSTRACT FROM AUTHOR]

Published

2020

21. Characterization and modeling of NBTI permanent and recoverable components variability

Author

D. Nouguier, Xavier Federspiel, Gerard Ghibaudo, David Roy, Mustapha Rafik, Institut de Microélectronique, Electromagnétisme et Photonique - Laboratoire d'Hyperfréquences et Caractérisation (IMEP-LAHC ), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), and STMicroelectronics [Crolles] (ST-CROLLES)

Subjects

Engineering, DDCM, NBTI, fast Measurement, 02 engineering and technology, 01 natural sciences, Stress (mechanics), statistical analysis, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Microelectronics, Statistical analysis, [SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics, 010302 applied physics, DCM, Negative-bias temperature instability, reliability, business.industry, 020208 electrical & electronic engineering, Modeling, Stress measurement, FDSOI, Reliability engineering, Characterization (materials science), business

Abstract

session poster; International audience; In this paper we use a statistical analysis of NBTI stress and recoverable components measured on Pfet devices issued from ST Microelectronics 28nm FDSOI technology. NBTI degradation and recovery resulting from AC and DC stress are measured at μs time scale. Statistical analysis of the permanent and recoverable components are performed separately. A Dual Defect Centric Model (DDCM) accounting for these two components is also proposed.

Published

2016

22. Lifetime measurement in the proton-unbound nucleus 109I

Author

Procter, M. G., Cullen, D. M., Ruotsalainen, P., Scholey, C., Angus, L., Bäck, Torbjörn, Cederwall, Bo, Dewald, A., Fransen, C., Grahn, T., Greenlees, P. T., Hackstein, M., Jakobsson, U., Jones, P. M., Julin, R., Juutinen, S., Ketelhut, S., Leino, M., Lumley, N. M., Mason, P. J. R., Nieminen, P., Nyman, M., Pakarinen, J., Pissulla, T., Peura, P., Rahkila, P., Revill, J., Rigby, S. V., Rother, W., Sandzelius, M., Sarén, J., Sorri, J., Taylor, M. J., Uusitalo, J., Wady, P., Qi, C., Xu, F. R., Procter, M. G., Cullen, D. M., Ruotsalainen, P., Scholey, C., Angus, L., Bäck, Torbjörn, Cederwall, Bo, Dewald, A., Fransen, C., Grahn, T., Greenlees, P. T., Hackstein, M., Jakobsson, U., Jones, P. M., Julin, R., Juutinen, S., Ketelhut, S., Leino, M., Lumley, N. M., Mason, P. J. R., Nieminen, P., Nyman, M., Pakarinen, J., Pissulla, T., Peura, P., Rahkila, P., Revill, J., Rigby, S. V., Rother, W., Sandzelius, M., Sarén, J., Sorri, J., Taylor, M. J., Uusitalo, J., Wady, P., Qi, C., and Xu, F. R.

Abstract

The Recoil-Distance Doppler-shift method has been combined with Recoil-Decay Tagging for the first time to measure a lifetime in the proton-unbound nucleus 109I. The lifetime value was determined using the Differential Decay-Curve method in singles mode. The result has been compared to theoretical shell-model calculations in order to better understand the nature of unbound valence nucleons at the proton drip line., QC 20140908

Published

2011