940 research outputs found
An approach to distributed execution of Ada programs
Intelligent control of the Space Station will require the coordinated execution of computer programs across a substantial number of computing elements. It will be important to develop large subsets of these programs in the form of a single program which executes in a distributed fashion across a number of processors. A translation strategy for distributed execution of Ada programs in which library packages and subprograms may be distributed is described. A preliminary version of the translator is operational. Simple data objects (no records or arrays as yet), subprograms, and static tasks may be referenced remotely
Alien Registration- Theriault, Arnie A. (Fort Kent, Aroostook County)
https://digitalmaine.com/alien_docs/36318/thumbnail.jp
Alien Registration- Theriault, Amos A. (Lubec, Washington County)
https://digitalmaine.com/alien_docs/1888/thumbnail.jp
Alien Registration- Theriault, Louis A. (Norridgewock, Somerset County)
https://digitalmaine.com/alien_docs/9061/thumbnail.jp
Alien Registration- Theriault, Octave A. (Fort Kent, Aroostook County)
https://digitalmaine.com/alien_docs/36326/thumbnail.jp
Distributed and parallel Ada and the Ada 9X recommendations
Recently, the DoD has sponsored work towards a new version of Ada, intended to support the construction of distributed systems. The revised version, often called Ada 9X, will become the new standard sometimes in the 1990s. It is intended that Ada 9X should provide language features giving limited support for distributed system construction. The requirements for such features are given. Many of the most advanced computer applications involve embedded systems that are comprised of parallel processors or networks of distributed computers. If Ada is to become the widely adopted language envisioned by many, it is essential that suitable compilers and tools be available to facilitate the creation of distributed and parallel Ada programs for these applications. The major languages issues impacting distributed and parallel programming are reviewed, and some principles upon which distributed/parallel language systems should be built are suggested. Based upon these, alternative language concepts for distributed/parallel programming are analyzed
Investigations into Asymmetric Post-Metallocene Group 4 Complexes for the Synthesis of Highly Regioirregular Polypropylene
A series of asymmetric post-metallocene group 4 complexes based on a modular anilide(pyridine)phenoxide framework have been synthesized and tested for propylene polymerization activity. These complexes, upon activation with methylaluminoxane (MAO), produce highly regioirregular and stereoirregular polypropylene with moderate to good activities. Surprisingly, modification of the anilide R-group substituent from 1-phenethyl to benzyl or adamantyl did not significantly change the polymer microstructure as determined by ^(13)C NMR spectroscopy. Although polymer molecular weights and polydispersities vary with propylene pressure, temperature, and activator, regio- and stereoirregularity were also found to be relatively insensitive to these variables. When the polymerization is conducted at 70 °C under dihydrogen, partial decomposition to a highly active catalyst that produces an isotactic microstructure occurs; the undecomposed catalyst continues to produce highly regioirregular and stereoirregular polypropylene under these conditions
Stellar Collisions and Ultracompact X-ray Binary Formation
(abridged) We report the results of SPH calculations of parabolic collisions
between a subgiant or slightly evolved red-giant star and a neutron star (NS).
Such collisions are likely to form ultracompact X-ray binaries (UCXBs) observed
today in old globular clusters. In particular, we compute collisions of a 1.4
Msun NS with realistically modelled parent stars of initial masses 0.8 and 0.9
Msun, each at three different evolutionary stages (corresponding to three
different radii R). The distance of closest approach for the initial orbit
varies from 0.04 R (nearly head-on) to 1.3 R (grazing). These collisions lead
to the formation of a tight binary, composed of the NS and the subgiant or
red-giant core, embedded in an extremely diffuse common envelope (CE) typically
of mass ~0.1 to 0.3 Msun. Our calculations follow the binary for many hundreds
of orbits, ensuring that the orbital parameters we determine at the end of the
calculations are close to final. Some of the fluid initially in the envelope of
the (sub)giant, from 0.003 to 0.023 Msun in the cases we considered, is left
bound to the NS. The eccentricities of the resulting binaries range from about
0.2 for our most grazing collision to about 0.9 for the nearly head-on cases.
In almost all the cases we consider, gravitational radiation alone will cause
sufficiently fast orbital decay to form a UCXB within a Hubble time, and often
on a much shorter timescale. Our hydrodynamics code implements the recent SPH
equations of motion derived with a variational approach by Springel & Hernquist
and by Monaghan. Numerical noise is reduced by enforcing an analytic constraint
equation that relates the smoothing lengths and densities of SPH particles. We
present tests of these new methods to help demonstrate their improved accuracy.Comment: 41 pages, 17 figures, accepted by Ap
Comparing methods suitable for monitoring marine mammals in low visibility conditions during seismic surveys
Funding: This work was supported by the Joint Industry Programme on E&P Sound and Marine Life - Phase III. TAM was partially supported by CEAUL (funded by FCT - Fundação para a Ciência e a Tecnologia, Portugal, through the project UID/MAT/00006/2013).Loud sound emitted during offshore industrial activities can impact marine mammals. Regulations typically prescribe marine mammal monitoring before and/or during these activities to implement mitigation measures that minimise potential acoustic impacts. Using seismic surveys under low visibility conditions as a case study, we review which monitoring methods are suitable and compare their relative strengths and weaknesses. Passive acoustic monitoring has been implemented as either a complementary or alternative method to visual monitoring in low visibility conditions. Other methods such as RADAR, active sonar and thermal infrared have also been tested, but are rarely recommended by regulatory bodies. The efficiency of the monitoring method(s) will depend on the animal behaviour and environmental conditions, however, using a combination of complementary systems generally improves the overall detection performance. We recommend that the performance of monitoring systems, over a range of conditions, is explored in a modelling framework for a variety of species.Publisher PDFPeer reviewe
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