Add to ORKGWe discuss some computational problems associated to matched filtering of experimental signals from gravitational wave interferometric detectors in a parallel-processing environment. We then specialize our discussion to the use of the APEmille and apeNEXT processors for this task. Finally, we accurately estimate the performance of an APEmille system on a computational load appropriate for the LIGO and VIRGO experiments, and extrapolate our results to apeNEXT
Inspiraling compact binaries are promising sources of gravitational waves for ground and space-based...
We revisit the problem of searching for gravitational waves from inspiralling compact binaries in Ga...
We describe an efficient method of matched filtering over long (greater than 1 day) time baselines s...
In this paper we discuss some computational problems associated to matched filtering of experimental...
Coalescing binaries are one of the most promising candidates for the detection of gravitational wave...
In the gravitational wave detector Virgo, the in-time detection of a gravitational wave signal from ...
The detection, in a modern interferometric detector like Virgo, of a gravitational wave signal from ...
Searching for gravitational waves from compact binary coalescences (CBC) is performed by matched fil...
We estimate the number of templates, computational power, and storage required for a one-step matche...
We report on the construction of a deep convolutional neural network that can reproduce the sensitiv...
The detection of gravitational waves from coalescing binary systems requires high-performance data a...
We estimate the number of templates, computational power, and storage required for a one-step matche...
The existence of gravitational waves was predicted by Albert Einstein. Black hole and neutron star b...
Inspiraling compact binaries are promising sources of gravitational waves for ground and space-based...
We revisit the problem of searching for gravitational waves from inspiralling compact binaries in Ga...
We describe an efficient method of matched filtering over long (greater than 1 day) time baselines s...
In this paper we discuss some computational problems associated to matched filtering of experimental...
Coalescing binaries are one of the most promising candidates for the detection of gravitational wave...
In the gravitational wave detector Virgo, the in-time detection of a gravitational wave signal from ...
The detection, in a modern interferometric detector like Virgo, of a gravitational wave signal from ...
Searching for gravitational waves from compact binary coalescences (CBC) is performed by matched fil...
We estimate the number of templates, computational power, and storage required for a one-step matche...
We report on the construction of a deep convolutional neural network that can reproduce the sensitiv...
The detection of gravitational waves from coalescing binary systems requires high-performance data a...
We estimate the number of templates, computational power, and storage required for a one-step matche...
The existence of gravitational waves was predicted by Albert Einstein. Black hole and neutron star b...
Inspiraling compact binaries are promising sources of gravitational waves for ground and space-based...
We revisit the problem of searching for gravitational waves from inspiralling compact binaries in Ga...
We describe an efficient method of matched filtering over long (greater than 1 day) time baselines s...