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Slow mergers of massive starsIvanova, Natalʹi͡a January 2002 (has links)
No description available.
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Proof of the finiteness of the modular covariants of a system of binary forms and cogredient pointsWiley, Forbes Bagley, January 1900 (has links)
Thesis (Ph. D.)--University of Chicago, 1914. / Vita. Reprinted from Transactions of the American Mathematical Society, vol. 15 (1914).
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Proof of the finiteness of the modular covariants of a system of binary forms and cogredient pointsWiley, Forbes Bagley, January 1900 (has links)
Thesis (Ph. D.)--University of Chicago, 1914. / Vita. Reprinted from Transactions of the American Mathematical Society, vol. 15 (1914).
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Fundamental systems of formal modular seminvariants of the binary cubic /Williams, W. L. G. January 1900 (has links)
Thesis (Ph. D.)--University of Chicago, 1920. / "Private edition distributed by the University of Chicago Libraries." "Reprinted from Transactions of the American mathematical society, volume 22, number 1 (January, 1921)."
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Scaling in Directional Solidification of Binary AlloysGreenwood, Michael 08 1900 (has links)
This thesis summarizes work done in the simulation of cellular and dendritic growth in directional solidification of dilute binary alloys using a phase-field model. This model is solved on a dynamic adaptive grid using a linear isoparametric formulation of the finite element method. The spacing of the primary dendritic branches are examined for a wide range of thermal gradients and alloy compositions using a power spectral analysis technique. This spacing is found to undergo a maximum as a function of increasing velocity, in agreement with experimental observations. Our simulations are compared to directional solidification experiments of PVA-ETH, SCN-ACE and SCN-SAL alloys and we demonstrate that the spacing selection is described by a crossover scaling function from the emergence of cellular growth into the dendritic growth regime. This scaling function is dependent upon only dimensionless groupings of the material dependent length scales and the process parameters at which the system is cooled. We validate our results by showing that both the simulated
materials and published experimental data collapse onto this single universal curve. / Thesis / Master of Applied Science (MASc)
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Optimising Dynamic Binary Modification across ARM microarchitecturesGorgovan, Cosmin January 2017 (has links)
Dynamic Binary Modification (DBM) is a technique for modifying applications at runtime, working at the level of native code. It has numerous applications, including instrumentation, translation and optimisation. However, DBM introduces a performance overhead, which in some cases can dominate execution time, making many uses impractical. While avenues for reducing this overhead have been widely explored on x86, ARM, an architecture gaining widespread adoption, has received little attention. Consequently, the overhead of DBM on ARM, as reported in the literature and measured using the available DBM systems, has fallen behind the state-of-the-art by one or two orders of magnitude. The research questions addressed in this thesis are: 1) how to develop low overhead DBM systems for the ARM architecture, and 2) whether new optimisations are plausible and needed. Towards that end, a number of novel optimisations were developed and evaluated specifically to address the sources of overhead for DBM on various ARM microarchitectures. Furthermore, many of the optimisations in the literature were ported to ARM and evaluated. This work was enabled by a new DBM system, named MAMBO, created specifically for this purpose. MAMBO, using the optimisations presented in this thesis, is able to achieve an overhead an order of magnitude smaller than that of the most efficient DBM system for ARM available at the start of this PhD.
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Guided automatic binary parallelisationZhou, Ruoyu January 2018 (has links)
For decades, the software industry has amassed a vast repository of pre-compiled libraries and executables which are still valuable and actively in use. However, for a significant fraction of these binaries, most of the source code is absent or is written in old languages, making it practically impossible to recompile them for new generations of hardware. As the number of cores in chip multi-processors (CMPs) continue to scale, the performance of this legacy software becomes increasingly sub-optimal. Rewriting new optimised and parallel software would be a time-consuming and expensive task. Without source code, existing automatic performance enhancing and parallelisation techniques are not applicable for legacy software or parts of new applications linked with legacy libraries. In this dissertation, three tools are presented to address the challenge of optimising legacy binaries. The first, GBR (Guided Binary Recompilation), is a tool that recompiles stripped application binaries without the need for the source code or relocation information. GBR performs static binary analysis to determine how recompilation should be undertaken, and produces a domain-specific hint program. This hint program is loaded and interpreted by the GBR dynamic runtime, which is built on top of the open-source dynamic binary translator, DynamoRIO. In this manner, complicated recompilation of the target binary is carried out to achieve optimised execution on a real system. The problem of limited dataflow and type information is addressed through cooperation between the hint program and JIT optimisation. The utility of GBR is demonstrated by software prefetch and vectorisation optimisations to achieve performance improvements compared to their original native execution. The second tool is called BEEP (Binary Emulator for Estimating Parallelism), an extension to GBR for binary instrumentation. BEEP is used to identify potential thread-level parallelism through static binary analysis and binary instrumentation. BEEP performs preliminary static analysis on binaries and encodes all statically-undecided questions into a hint program. The hint program is interpreted by GBR so that on-demand binary instrumentation codes are inserted to answer the questions from runtime information. BEEP incorporates a few parallel cost models to evaluate identified parallelism under different parallelisation paradigms. The third tool is named GABP (Guided Automatic Binary Parallelisation), an extension to GBR for parallelisation. GABP focuses on loops from sequential application binaries and automatically extracts thread-level parallelism from them on-the-fly, under the direction of the hint program, for efficient parallel execution. It employs a range of runtime schemes, such as thread-level speculation and synchronisation, to handle runtime data dependences. GABP achieves a geometric mean of speedup of 1.91x on binaries from SPEC CPU2006 on a real x86-64 eight-core system compared to native sequential execution. Performance is obtained for SPEC CPU2006 executables compiled from a variety of source languages and by different compilers.
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Reprocessing characteristics of polyethylene and its binary blends陳仁英, Sy, Din-eng. January 1996 (has links)
published_or_final_version / Industrial and Manufacturing Systems Engineering / Master / Master of Philosophy
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Memory and optimisation in neural network modelsForrest, B. M. January 1988 (has links)
A numerical study of two classes of neural network models is presented. The performance of Ising spin neural networks as content-addressable memories for the storage of bit patterns is analysed. By studying systems of increasing sizes, behaviour consistent with fintite-size scaling, characteristic of a first-order phase transition, is shown to be exhibited by the basins of attraction of the stored patterns in the Hopfield model. A local iterative learning algorithm is then developed for these models which is shown to achieve perfect storage of nominated patterns with near-optimal content-addressability. Similar scaling behaviour of the associated basins of attraction is observed. For both this learning algorithm and the Hopfield model, by extrapolating to the thermodynamic limit, estimates are obtained for the critical minimum overlap which an input pattern must have with a stored pattern in order to successfully retrieve it. The role of a neural network as a tool for optimising cost functions of binary valued variables is also studied. The particular application considered is that of restoring binary images which have become corrupted by noise. Image restorations are achieved by representing the array of pixel intensities as a network of analogue neurons. The performance of the network is shown to compare favourably with two other deterministic methods-a gradient descent on the same cost function and a majority-rule scheme-both in terms of restoring images and in terms of minimising the cost function. All of the computationally intensive simulations exploit the inherent parallelism in the models: both SIMD (the ICL DAP) and MIMD (the Meiko Computing Surface) machines are used.
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The structure of eclipsing dwarf novaeWood, J. H. January 1986 (has links)
No description available.
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