127,154 research outputs found
Program audit, A management tool
Program gives in-depth view of organizational performance at all levels of the management structure, and provides means by which managers can effectively and efficiently evaluate adequacy of management direction, policies, and procedures
Evolving more efficient digital circuits by allowing circuit layout evolution and multi-objective fitness
We use evolutionary search to design combinational logic circuits. The technique is based on evolving the functionality and connectivity of a rectangular array of logic cells whose dimension is defined by the circuit layout.
The main idea of this approach is to improve quality of the circuits evolved by the GA by reducing the number of active gates used. We accomplish this by combining two ideas: 1) using multi-objective fitness function; 2) evolving circuit layout. It will be shown that using these two approaches allows us to increase the quality of evolved circuits.
The circuits are evolved in two phases. Initially the genome fitness in given by the percentage of output bits that are correct. Once 100% functional circuits have been evolved, the number of gates actually used in the circuit is taken into account in the fitness function. This allows us to evolve circuits with 100% functionality and minimise the number of active gates in circuit structure. The population is initialised with heterogeneous circuit layouts and the circuit layout is allowed to vary during the evolutionary process. Evolving the circuit layout together with the function is one of the distinctive features of proposed approach. The experimental results show that allowing the circuit layout to be flexible is useful when we want to evolve circuits with the smallest number of gates used. We find that it is better to use a fixed circuit layout when the objective is to achieve the highest number of 100% functional circuits. The two-fitness strategy is most effective when we allow a large number of generations
A Bundle Theory of Words
It has been a common assumption that words are substances that instantiate or have properties. In this paper, I question the assumption that our ontology of words requires posting substances by outlining a bundle theory of words, wherein words are bundles of various sorts of properties (such as semantic, phonetic, orthographic, and grammatical properties). I argue that this view can better account for certain phenomena than substance theories, is ontologically more parsimonious, and coheres with claims in linguistics
X-ray reverberation in NLS1
Reverberation from scattering material around the black hole in active
galactic nuclei is expected to produce a characteristic signature in a Fourier
analysis of the time delays between directly-viewed continuum emission and the
scattered light. Narrow-line Seyfert 1 galaxies (NLS1) are highly variable at
X-ray energies, and are ideal candidates for the detection of X-ray
reverberation. We show new analysis of a small sample of NLS1 that clearly
shows the expected time-delay signature, providing strong evidence for the
existence of a high covering fraction of scattering and absorbing material a
few tens to hundreds of gravitational radii from the black hole. We also show
that an alternative interpretation of time delays in the NLS1 1H0707-495, as
arising about one gravitational radius from the black hole, is strongly
disfavoured in an analysis of the energy-dependence of the time delays.Comment: Published online in Proceedings of Science, "Narrow-line Seyfert 1
Galaxies and their place in the Universe", held in Milan, Italy April 4-6,
201
The hard X-ray spectrum of NGC 1365: scattered light, not black hole spin
Active Galactic Nuclei (AGN) show excess X-ray emission above 10 keV compared
with extrapolation of spectra from lower energies. Risaliti et al. have
recently attempted to model the hard X-ray excess in the type 1.8 AGN NGC 1365,
concluding that the hard excess most likely arises from Compton-scattered
reflection of X-rays from an inner accretion disk close to the black hole.
Their analysis disfavored a model in which the hard excess arises from a high
column density of circumnuclear gas partially covering a primary X-ray source,
despite such components being required in the NGC 1365 data below 10 keV. Using
a Monte Carlo radiative transfer approach, we demonstrate that this conclusion
is invalidated by (i) use of slab absorption models, which have unrealistic
transmission spectra for partial covering gas, (ii) neglect of the effect of
Compton scattering on transmitted spectra and (iii) inadequate modeling of the
spectrum of scattered X-rays. The scattered spectrum is geometry dependent and,
for high global covering factors, may dominate above 10 keV. We further show
that, in models of circumnuclear gas, the suppression of the observed hard
X-ray flux by reprocessing may be no larger than required by the `light
bending' model invoked for inner disk reflection, and the expected emission
line strengths lie within the observed range. We conclude that the
time-invariant `red wing' in AGN X-ray spectra is probably caused by continuum
transmitted through and scattered from circumnuclear gas, not by highly
redshifted line emission, and that measurement of black hole spin is not
possible.Comment: Revised version, accepted for publication by Ap.J. Letter
Recommended from our members
Circuit layout evolution: An evolvable hardware approach
The evolvable hardware technique is based on evolving the functionality and connectivity of a rectangular array of logic cells in addition to the layout of this may. The evolutionary process contains two main steps. Initially the genome fitness in given by the percentage of output bits, which are correct. Once 100% functional circuits have been evolved, the number of gates actually used in the circuit is taken into account in the fitness function. This allows us to evolve circuit with 100% functionality and minimise the number of active gates in circuit structure. We perform a number of experiments to investigate the behaviour of the second fitness function and the circuit layout during evolution. We find that the gate usage is linearly related to the total number of gates in the chromosome
Some aspects of an evolvable hardware approach for multiple-valued combinational circuit design
In this paper a gate-level evolvable hardware technique for designing multiple-valued (MV) combinational circuits is proposed for the first time. In comparison with the decomposition techniques used for synthesis of combinational circuits previously employed, this new approach is easily adapted for the different types of MV gates associated with operations corresponding to different algebra types and can include other more complex logical expressions (e.g. singlecontrol MV multiplexer called T-gate). The technique is based on evolving the functionality and connectivity of a rectangular array of logic cells. The experimental results show how the success of genetic algorithm depends on the number of columns, the number of rows in circuit structure and levels-back parameter (the number of columns to the left of current cell to which cell input may be connected). We show that the choice of the set of MV gates used radically affects the chances of successful evolution (in terms of number of 100% functional solutions found)
X-ray Signatures of Circumnuclear Gas in AGN
X-ray spectra of AGN are complex. X-ray absorption and emission features
trace gas covering a wide range of column densities and ionization states. High
resolution spectra show the absorbing gas to be outflowing, perhaps in the form
of an accretion disk wind. The absorbing complex shapes the form of the X-ray
spectrum while X-ray reverberation and absorption changes explain the spectral
and timing behaviour of AGN. We discuss recent progress, highlighting some new
results and reviewing the implications that can be drawn from the data.Comment: Proceedings of the conference "Suzaku 2011, Exploring the X-ray
Universe: Suzaku and Beyond
Recall termination in free recall
Although much is known about the dynamics of\ud
memory search in the free recall task, relatively little is\ud
known about the factors related to recall termination. Rean-\ud
alyzing individual trial data from 14 prior studies (1,079\ud
participants in 28,015 trials) and defining termination as\ud
occurring when a final response is followed by a long\ud
nonresponse interval, we observed that termination proba-\ud
bility increased throughout the recall period and that retriev-\ud
al was more likely to terminate following an error than\ud
following a correct response. Among errors, termination\ud
probability was higher following prior-list intrusions and\ud
repetitions than following extralist intrusions. To verify that\ud
this pattern of results can be seen in a single study, we report\ud
a new experiment in which 80 participants contributed recall\ud
data from a total of 9,122 trials. This experiment replicated\ud
the pattern observed in the aggregate analysis of the prior\ud
studies.\u
An overview of aerospace gas turbine technology of relevance to the development of the automotive gas turbine engine
Technology areas related to gas turbine propulsion systems with potential for application to the automotive gas turbine engine are discussed. Areas included are: system steady-state and transient performance prediction techniques, compressor and turbine design and performance prediction programs and effects of geometry, combustor technology and advanced concepts, and ceramic coatings and materials technology
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