1 |
Seismological studies of upper-crustal structure in the vicinity of the Girvan-Ballantrae area, SW ScotlandAl-Mansouri, D. January 1986 (has links)
No description available.
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Structure and sedimentology of the Mercia Mudstone Group (Upper Triassic), Severn Estuary region, SW BritainNorth, C. P. January 1988 (has links)
No description available.
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Tectonic controls and fluid evolution of auriferous quartz veins in the La Codosera area, SW SpainDee, Stephen James January 1991 (has links)
No description available.
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Geology, structure and geochemistry of the Ordovician volcanic succession in SW CumbriaMathieson, N. A. January 1986 (has links)
No description available.
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Reduction of co-simulation runtime through parallel processingCoutu, Jason Dean 10 September 2009
During the design phase of modern digital and mixed signal devices, simulations are run to determine the fitness of the proposed design. Some of these simulations can take large amounts of time, thus slowing down the time to manufacture of the system prototype. One of the typical simulations that is done is an integration simulation that simulates the hardware and software at the same time. Most simulators used in this task are monolithic simulators. Some simulators do have the ability to have external libraries and simulators interface with it, but the setup can be a tedious task. This thesis proposes, implements and evaluates a distributed simulator called PDQScS, that allows for speed up of the simulation to reduce this bottleneck in the design cycle without the tedious separation and linking by the user. Using multiple processes and SMP machines a simulation run time reduction was found.
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Reduction of co-simulation runtime through parallel processingCoutu, Jason Dean 10 September 2009 (has links)
During the design phase of modern digital and mixed signal devices, simulations are run to determine the fitness of the proposed design. Some of these simulations can take large amounts of time, thus slowing down the time to manufacture of the system prototype. One of the typical simulations that is done is an integration simulation that simulates the hardware and software at the same time. Most simulators used in this task are monolithic simulators. Some simulators do have the ability to have external libraries and simulators interface with it, but the setup can be a tedious task. This thesis proposes, implements and evaluates a distributed simulator called PDQScS, that allows for speed up of the simulation to reduce this bottleneck in the design cycle without the tedious separation and linking by the user. Using multiple processes and SMP machines a simulation run time reduction was found.
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Verificação da performance de modelos APARCH assimétricos aplicados a dados financeirosGasparini, Daniela Caetano de Souza 01 April 2013 (has links)
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Previous issue date: 2013-04-01 / Financiadora de Estudos e Projetos / The volatility of financial assets changes over time, indicating the specification of regime change in volatility models. Furthermore, the presence of asymmetry in the returns of the financial market has been recognized in the financial literature of recent decades. In this paper, we present some heteroscedastic models with regime change, considering that the error component of these models follows Skew Laplace distribution, as well as the process of estimating its parameters via maximum likelihood and Bayesian methods. / A volatilidade dos ativos financeiros se altera ao longo do tempo, sinalizando a especificação de mudança de regime para modelos de volatilidade. Além disso, a presença de assimetria nos retornos do mercado financeiro tem sido reconhecida na literatura financeira das últimas décadas. Neste trabalho, apresentamos alguns modelos heterocedásticos com mudança de regime, considerando que a componente do erro desses modelos segue distribuição Laplace assimétrica, bem como o processo de estimação de seus parâmetros via máxima verossimilhança e métodos bayesianos.
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Dynamic HW/SW Partitioning: Configuration Scheduling and Design Space ExplorationKandasamy, Santheeban January 2007 (has links)
Hardware/software partitioning is a process that occurs frequently in embedded system design. It is the
procedure of determining whether a part of a system should be implemented in software or hardware.
This dissertation is a study of hardware/software partitioning and the use of scheduling algorithms to
improve the performance of dynamically reconfigurable computing devices. Reconfigurable computing
devices are devices that are adaptable at the logic level to solve specific problems [Tes05]. One example
of a reconfigurable computing device is the field programmable gate array (FPGA). The emergence of
dynamically reconfigurable FPGAs made it possible to configure FPGAs at runtime. Most current
approaches use a simple on demand configuration scheduling algorithm for the FPGA configurations. The
on demand configuration scheduling algorithm reconfigures the FPGA at runtime, whenever a
configuration is needed and is found not to be configured. The problem with this approach of dynamic
reconfiguration is the reconfiguration time overhead, which is the time it takes to reconfigure the FPGA
with a new configuration at runtime. Configuration caches and partial configuration have been proposed
as possible solutions to this problem, but these techniques suffer from various limitations.
The emergence of dynamically reconfigurable FPGAs also made it possible to perform dynamic
hardware/software partitioning (DHSP), which is the procedure of determining at runtime whether a
computation should be performed using its software or hardware implementation. The drawback of
performing DHSP using configurations that are generated at runtime is that the profiling and the dynamic
generation of configurations require profiling tool and synthesis tool access at runtime. This study
proposes that configuration scheduling algorithms, which perform DHSP using statically generated
configurations, can be developed to combine the advantages and reduce the major disadvantages of
current approaches. A case study is used to compare and evaluate the tradeoffs between the currently
existing approach for dynamic reconfiguration and the DHSP configuration scheduling algorithm based
approach proposed in the study. A simulation model is developed to examine the performance of the
various configuration scheduling algorithms. First, the difference in the execution time between the
different approaches is analyzed. Afterwards, other important design criteria such as power consumption,
energy consumption, area requirements and unit cost are analyzed and estimated. Also, business and
marketing considerations such as time to market and development cost are considered.
The study illustrates how different types of DHSP configuration scheduling algorithms can be
implemented and how their performance can be evaluated using a variety of software applications. It is
also shown how to evaluate when which of the approaches would be more advantageous by determining
the tradeoffs that exist between them. Also the underlying factors that affect when which design
alternative is more advantageous are determined and analyzed. The study shows that configuration
scheduling algorithms, which perform DHSP using statically generated configurations, can be developed
to combine the advantages and reduce some major disadvantages of current approaches. It is shown that
there are situations where DHSP configuration scheduling algorithms can be more advantageous than the
other approaches.
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Dynamic HW/SW Partitioning: Configuration Scheduling and Design Space ExplorationKandasamy, Santheeban January 2007 (has links)
Hardware/software partitioning is a process that occurs frequently in embedded system design. It is the
procedure of determining whether a part of a system should be implemented in software or hardware.
This dissertation is a study of hardware/software partitioning and the use of scheduling algorithms to
improve the performance of dynamically reconfigurable computing devices. Reconfigurable computing
devices are devices that are adaptable at the logic level to solve specific problems [Tes05]. One example
of a reconfigurable computing device is the field programmable gate array (FPGA). The emergence of
dynamically reconfigurable FPGAs made it possible to configure FPGAs at runtime. Most current
approaches use a simple on demand configuration scheduling algorithm for the FPGA configurations. The
on demand configuration scheduling algorithm reconfigures the FPGA at runtime, whenever a
configuration is needed and is found not to be configured. The problem with this approach of dynamic
reconfiguration is the reconfiguration time overhead, which is the time it takes to reconfigure the FPGA
with a new configuration at runtime. Configuration caches and partial configuration have been proposed
as possible solutions to this problem, but these techniques suffer from various limitations.
The emergence of dynamically reconfigurable FPGAs also made it possible to perform dynamic
hardware/software partitioning (DHSP), which is the procedure of determining at runtime whether a
computation should be performed using its software or hardware implementation. The drawback of
performing DHSP using configurations that are generated at runtime is that the profiling and the dynamic
generation of configurations require profiling tool and synthesis tool access at runtime. This study
proposes that configuration scheduling algorithms, which perform DHSP using statically generated
configurations, can be developed to combine the advantages and reduce the major disadvantages of
current approaches. A case study is used to compare and evaluate the tradeoffs between the currently
existing approach for dynamic reconfiguration and the DHSP configuration scheduling algorithm based
approach proposed in the study. A simulation model is developed to examine the performance of the
various configuration scheduling algorithms. First, the difference in the execution time between the
different approaches is analyzed. Afterwards, other important design criteria such as power consumption,
energy consumption, area requirements and unit cost are analyzed and estimated. Also, business and
marketing considerations such as time to market and development cost are considered.
The study illustrates how different types of DHSP configuration scheduling algorithms can be
implemented and how their performance can be evaluated using a variety of software applications. It is
also shown how to evaluate when which of the approaches would be more advantageous by determining
the tradeoffs that exist between them. Also the underlying factors that affect when which design
alternative is more advantageous are determined and analyzed. The study shows that configuration
scheduling algorithms, which perform DHSP using statically generated configurations, can be developed
to combine the advantages and reduce some major disadvantages of current approaches. It is shown that
there are situations where DHSP configuration scheduling algorithms can be more advantageous than the
other approaches.
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Průzkum výskytu ohrožených druhů rostlin v k.ú. MuzlovKlein, Radek January 2011 (has links)
No description available.
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