Fiona Reid scite author profile

SUMMARY Although much progress has been made in determining the 3‐D distribution of seismic wave velocities in the Earth, substantially less is known about the 3‐D distribution of intrinsic attenuation. In this study variations in attenuation and shear velocity of the Earth's mantle are constrained using measurements of differential traveltime and attenuation. The data are broad‐band displacement SH seismograms filtered to have energy in the period range 8–20 s. The seismograms are obtained from over 600 globally distributed earthquakes of magnitude, Mw, 5.5 or greater. Differential traveltimes and differential t* values from multiple S phases are estimated by a waveform‐fitting method, resulting in approximately 4300 measurements for SS–S in the distance range 50°–105° and 1000 measurements for SSS–SS in the distance range 90°–179°. Each measurement consists of a differential traveltime and a corresponding differential t*. The differential traveltimes and t* values are inverted to obtain models of the lateral variation of shear velocity and lateral variation of qμ, where qμ=1/Qμ. The models explain the data well but have limited depth resolution. The velocity models show good correlation with previous studies; in particular, low velocities are observed underlying mid‐oceanic ridges and convergent margins and high velocities are found for continental regions. The qμ models show shield regions to be less attenuating than PREM, with ridges appearing as highly attenuating features. The models have limited depth resolution and to address this problem we also present a shear velocity model obtained from the combination of body wave and surface wave data sets.

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On the performance of molecular dynamics applications on current high-end systems

Hein

Reid

Smith

et al. 2005

Phil. Trans. R. Soc. A.

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The effective exploitation of current high performance computing (HPC) platforms in molecular simulation relies on the ability of the present generation of parallel molecular dynamics code to make effective utilisation of these platforms and their components, including CPUs and memory. In this paper, we investigate the efficiency and scaling of a series of popular molecular dynamics codes on the UK's national HPC resources, an IBM p690+ cluster and an SGI Altix 3700. Focusing primarily on the AMBER, DL_POLY and NAMD simulation codes, we demonstrate the major performance and scalability advantages that arise through a distributed, rather than a replicated data approach.

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A Microbenchmark Suite for OpenMP Tasks

Bull

Reid

McDonnell

2012

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Performance Evaluation of Mixed-Mode OpenMP/MPI Implementations

Bull

Enright

Guo

et al. 2010

Int J Parallel Prog

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With the current prevalence of multi-core processors in HPC architectures, mixed-mode programming, using both MPI and OpenMP in the same application, is seen as an important technique for achieving high levels of scalability. As there are few standard benchmarks written in this paradigm, it is difficult to assess the likely performance of such programs. To help address this, we examine the performance of mixed-mode OpenMP/MPI on a number of popular HPC architectures, using a synthetic benchmark suite and two large-scale applications. We find performance characteristics which differ significantly between implementations, and which highlight possible areas for improvement, especially when multiple OpenMP threads communicate simultaneously via MPI.

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Fiona Reid

Genome-wide association scan identifies a colorectal cancer susceptibility locus on 11q23 and replicates risk loci at 8q24 and 18q21

Upper mantle attenuation and velocity structure from measurements of differentialSphases

On the performance of molecular dynamics applications on current high-end systems

A Microbenchmark Suite for OpenMP Tasks

Performance Evaluation of Mixed-Mode OpenMP/MPI Implementations

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