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Low-power Multi-Gb/s Wireline CommunicationHossain, Masum 31 August 2011 (has links)
This thesis discusses low-power wireline receivers with particular focus on clocking
circuitry and architectures. These clocking solutions can be used for a 1-D partial
response channel as well as for a conventional DC coupled channel. The receiver front end for a 1-D channel requires more consideration to recover an NRZ signal from the received narrow pulses. Two possible solutions are presented. First, a full-rate detection technique is presented, where the speed is limited by the settling time of a latch circuit which has to be less than 1 UI. Second, a novel demuxing technique is introduced. It is
demonstrated through theory, simulation and measurement results that the half-rate
architecture can improve maximum achievable speed by a factor of 1.6.
The distribution and alignment of high-frequency clocks across a wide bus of links
is a signi¯cant challenge in modern computing systems. A low power clock source is demonstrated by incorporating a bu®er into a cross-coupled oscillator. Because the
load is isolated from the tank, the oscillator can directly drive 50-Ohm impedances or large capacitive loads with no additional bu®ering. Using this topology, a quadrature VCO (QVCO) is implemented in 0.13 um digital CMOS. The QVCO oscillates at 20
GHz, consumes 20 mW and provides 12% tuning range.
Injection locked oscillators (ILOs) are an attractive clocking tool for low-power area-
e±cient wireline receivers. In this work, we explored their use as a clock deskew element, a clock recovery unit and a programmable jitter lter. A study of both LC and ring ILOs indicates signi¯cant variation in their jitter tracking bandwidth when used to provide large phase shifts. By selectively injecting di®erent phases of a quadrature-LC or ring VCO, this problem is obviated resulting in reduced phase noise.
First, an ILO based half-rate clock recovery technique is presented, which can be used for AC coupled links where low frequency signal components are attenuated by
the channel. The nonlinear path comprises a hysteresis latch that recovers the missing
low frequency content and a linear path that boosts the high frequency component by
taking advantage of the high pass channel response. By optimally combining them, the
front-end recovers NRZ signals up to 13 Gb/s burning only 26 mW in 90 nm CMOS. A simple theory and simulation technique for ILO-based receivers is discussed. The clock
recovery technique is veried with experimental results at 5-10 Gb/s in 90 nm CMOS consuming 70 mW and acquiring lock within 1.5 ns.
Second, a clock forwarded 65nm CMOS receiver uses two ILOs to frequency- multiply,
deskew, and track correlated jitter on a pulsed clock forwarded from the transmitter.
Di®erent data rates and latency mismatch between the clock and data paths are ac-
commodated by a jitter tracking bandwidth that is controllable up to 300MHz. Each
receiver consumes 0.92 pJ/bit operating at 7.4 Gb/s and has a jitter tolerance of 1.5
UI at 200MHz.
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Low-power Multi-Gb/s Wireline CommunicationHossain, Masum 31 August 2011 (has links)
This thesis discusses low-power wireline receivers with particular focus on clocking
circuitry and architectures. These clocking solutions can be used for a 1-D partial
response channel as well as for a conventional DC coupled channel. The receiver front end for a 1-D channel requires more consideration to recover an NRZ signal from the received narrow pulses. Two possible solutions are presented. First, a full-rate detection technique is presented, where the speed is limited by the settling time of a latch circuit which has to be less than 1 UI. Second, a novel demuxing technique is introduced. It is
demonstrated through theory, simulation and measurement results that the half-rate
architecture can improve maximum achievable speed by a factor of 1.6.
The distribution and alignment of high-frequency clocks across a wide bus of links
is a signi¯cant challenge in modern computing systems. A low power clock source is demonstrated by incorporating a bu®er into a cross-coupled oscillator. Because the
load is isolated from the tank, the oscillator can directly drive 50-Ohm impedances or large capacitive loads with no additional bu®ering. Using this topology, a quadrature VCO (QVCO) is implemented in 0.13 um digital CMOS. The QVCO oscillates at 20
GHz, consumes 20 mW and provides 12% tuning range.
Injection locked oscillators (ILOs) are an attractive clocking tool for low-power area-
e±cient wireline receivers. In this work, we explored their use as a clock deskew element, a clock recovery unit and a programmable jitter lter. A study of both LC and ring ILOs indicates signi¯cant variation in their jitter tracking bandwidth when used to provide large phase shifts. By selectively injecting di®erent phases of a quadrature-LC or ring VCO, this problem is obviated resulting in reduced phase noise.
First, an ILO based half-rate clock recovery technique is presented, which can be used for AC coupled links where low frequency signal components are attenuated by
the channel. The nonlinear path comprises a hysteresis latch that recovers the missing
low frequency content and a linear path that boosts the high frequency component by
taking advantage of the high pass channel response. By optimally combining them, the
front-end recovers NRZ signals up to 13 Gb/s burning only 26 mW in 90 nm CMOS. A simple theory and simulation technique for ILO-based receivers is discussed. The clock
recovery technique is veried with experimental results at 5-10 Gb/s in 90 nm CMOS consuming 70 mW and acquiring lock within 1.5 ns.
Second, a clock forwarded 65nm CMOS receiver uses two ILOs to frequency- multiply,
deskew, and track correlated jitter on a pulsed clock forwarded from the transmitter.
Di®erent data rates and latency mismatch between the clock and data paths are ac-
commodated by a jitter tracking bandwidth that is controllable up to 300MHz. Each
receiver consumes 0.92 pJ/bit operating at 7.4 Gb/s and has a jitter tolerance of 1.5
UI at 200MHz.
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Laboratory Studies of Deposition Mode Heterogeneous Ice Nucleation: Effect of Ice Nuclei Composition, Size and Surface AreaKanji, Zaminhussein Abdulali 18 February 2010 (has links)
The indirect aerosol effect contributes to major uncertainties in determining the radiation budget of the earth. A large uncertainty is due to the formation of ice clouds onto natural or anthropogenic aerosols. Field studies have shown that mineral type particles are often associated with ice crystals in the mid-upper troposphere and given the long residence time in the atmosphere of dust particles (~2 weeks in the absence of precipitation), their contribution to ice formation processes is not fully defined.
In order to probe ice formation onto natural mineral dust in a setting where it could be suspended as aerosol, a new continuous flow diffusion chamber (CFDC) was built. This allowed investigations of the effects of total aerosol surface area and particle size. The CFDC was also used in an international inter-comparison of ice nucleation instrumentation to compare efficiencies of soot, biological aerosol (bacteria) and samples of natural desert dusts from different regions of the world. The laboratory observations were parameterized using nucleation rates (Jhet) and contact angles () as described by classical nucleation theory.
For both this experimental technique and a static one developed during the candidate’s Masters degree, mineral dust particulate proved to be the most efficient ice nuclei (IN) activating at RH with respect to ice (RHi) as low as 105% at T = 233 K. The efficiency varied with particle size and aerosol surface area (SA). Large particles or higher SA activated at lower RHi than small particles or lower SA. The static chamber was sensitive to the first ice event out of a large SA and therefore gave true onset RHi, which was lower than the onset defined by the CFDC studies, which was not sensitive to a single ice event. In addition the static chamber used a broader size range of particulate matter, including super micron particles while the CFDC particles sizes were restricted to below 0.5 µm. Soot and organic coated dust particles were inefficient IN compared to pure dust. Soot aerosols showed some efficiency at T < 233K where deposition ice formation was apparent. The hygroscopic organics had intermediate ice activity between dusts and alkyl-organics and soot. Bacteria aerosols were active in the deposition mode for T as high as 247 K. Contact angles () computed for ice germs forming onto natural mineral dust were small, 7< < 29, at 223 K for RH ranging from ice to water saturation.
It was concluded that there is no single value for the onset of ice formation in the atmosphere via deposition freezing. The associated contact angles show that there is a distribution of active sites on IN and that not all active sites have the same affinity for initiation of ice formation even within the same aerosol type. This work provides evidence that deposition mode nucleation can be an alternate pathway to homogeneous nucleation when mineral aerosols are present in the troposphere since the high T - low RH conditions required for deposition mode nucleation are more easily encountered in the atmosphere than the low T - high RH required for homogeneous nucleation.
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Characterization of Fiber Tapers for Fiber Devices and SensorsWang, Xiaozhen 26 September 2012 (has links)
Fiber tapers have attracted much attention and have been successfully employed in various applications, ranging from resonators, filters, interferometers to sensors. This thesis studies the properties of fiber tapers for the purpose of making tapered-based devices and sensors in aerospace related application where small size and light weight are critical. This thesis includes theoretical derivation and experimental verifications of distributed mode coupling in tapered single-mode fibers (SMFs) with high-resolution optical frequency-domain reflectometry (OFDR) technique. The studies are realized with OFDR through phase detection of a Mach-Zehnder interferometer (MZI), which measures local refractive index change relative to the reference arm. The wavelength shifts converted by the phase change give the group index differences between the fundamental mode and higher-order modes of fiber tapers. The energy re-distribution is observed in Rayleigh backscatter amplitude as a function of fiber length with a ~13µm resolution over the entire fiber taper, and group index difference between core and cladding modes is measured with a spatial resolution of ~2cm by using autocorrelation data processing. The thermal and mechanical properties of fiber tapers have also been characterized with OFDR. The cross-correlation wavelength shift is related to the refractive index change of the modes. It is shown that residual stress induced by the tapering process results in the inhomogeneous thermal property, which can be significantly reduced by an annealing treatment. A fiber taper with a waist diameter of ~6µm has a force sensitivity of ~620.83nm/N, ~500 times higher than that of SMF. Furthermore, polarization-preserving character of tapered polarization-maintaining fibers (PMFs) is evaluated by OFDR-based distributed birefringence along tapered PMFs. Three tapered-based micro-fiber devices have been used as effective mode selecting components to build narrow-linewidth tunable Erbium-doped fiber ring lasers. The fabrication is easy and at a low cost. 1) a tapered fiber tip forms multimode interference mechanism; 2) a two-taper MZI has been demonstrated by splitting/combining the fundamental mode and higher-order modes through fiber tapers and is tuned by bending one taper waist; 3) a novel tunable fiber Fabry-Perot filter, consisting of a hollow-core photonic bandgap fiber and a micro-fiber, is employed in the reflection mode.
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Exploring the relationship between schema modes, cognitive fusion and eating disordersMasley, Samantha January 2012 (has links)
Aim: Schema therapy is becoming an increasingly popular psychological model for working with individuals who have a variety of mental health and personality difficulties. The aim of this review is to look at the current evidence base for schema therapy and highlight directions for further research. Method: A systematic search of the literature was conducted up until January 2011. All studies that had clinically tested the efficacy of schema therapy as described by Jeffrey Young (Young, 1994; Young et al., 2003) were considered. These studies underwent detailed quality assessments based on Scottish Intercollegiate Guidelines Network (SIGN-50) culminating in twelve studies being included in the review. Results: The culminative message (both from the popularity of this model and the medium to large effect sizes) is of a theory which has already demonstrated clinically effective outcomes in a small number of studies and which would benefit from ongoing research and development with complex client groups. Recommendations: It is imperative that psychological practice be guided by high quality research that demonstrates efficacious, evidence based interventions. It is therefore recommended that researchers and clinicians working with schema therapy seek to build on these positive outcomes and further demonstrate the clinical effectiveness of this model through ongoing research.
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Persistence of difference : a history of Cornish wrestlingTripp, Michael January 2010 (has links)
The aim of this study was to provide an historical analysis of Cornish wrestling and in particular to address the following key questions: How has Cornish wrestling developed as a sport? Why is Cornish wrestling ‘different’? Why has Cornish wrestling survived? It was argued that in order to provide an adequate historical analysis it was necessary to locate the sport within an appropriate and relevant conceptual framework. Two fields of enquiry were identified as having the potential to provide this; mainstream British sport history and the ‘new Cornish Studies’. The main ideas and debates that form the basis for these two areas were reviewed and it was argued that British sport history offered only a partial interpretation for the history of Cornish wrestling as the evidence suggests it is different from other sports. It was further argued that with its emphasis upon ‘difference’ the ‘new Cornish Studies’ in general and Payton’s ‘centre-periphery model’ in particular offers a more appropriate conceptual framework, which is also rooted in a relevant local context. Payton developed his model to answer a number of questions relating to Cornwall’s distinctiveness: Why is Cornwall ‘different’? Why has this persisted? Why is there a strong sense of ‘Cornishness’ and separate identity which has survived until today? He concluded that Cornwall’s ‘difference’ has persisted because of its historical experience, which in each period has been distinct from other areas of Britain and has led directly to a unique identity. In Payton’s model, the privileged ‘centre’, which is the location of power and influence, is based largely in London and the south-east of England; whereas the ‘periphery’ is geographically remote from the ‘centre’, but dependent upon it. Payton proposed three phases of peripherality: ‘First’ or ‘Older Peripheralism’, characterised by geographical and cultural isolation from the centre; ‘Second Peripheralism’, which recognises the central importance of industrial change, producing economic and social marginality and ‘Third Peripheralism’ characterised by a ‘branch-factory’ economy promoting a process of ‘counter-urbanisation’. The structure of the thesis follows the phases of peripherality and argues the evidence is consistent with Payton’s ‘centre-periphery model’. The evidence also demonstrates that Cornish wrestling is ‘different’ and that ‘difference’ has persisted over time because of Cornwall’s historical experience, which in each period of peripherality has been distinct. Furthermore, throughout the entire period of the study, Cornish wrestling has been, and still remains, an important icon of Cornishness, which has ensured its survival.
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Coupling the planetary boundary layer to the large scale dynamics of the atmosphere : the impact of vertical discretisationHoldaway, Daniel January 2010 (has links)
Accurate coupling between the resolved scale dynamics and sub-grid scale physics is essential for accurate modelling of the atmosphere. Previous emphasis has been towards the temporal aspects of this so called physics-dynamics coupling problem, with little attention towards the spatial aspects. When designing a model for numerical weather prediction there is a choice for how to vertically arrange the required variables, namely the Lorenz and Charney-Phillips grids, and there is ongoing debate as to which is the optimal. The Charney-Phillips grid is considered good for capturing the large scale dynamics and wave propagation whereas the Lorenz grid is more suitable for conservation. However the Lorenz grid supports a computational mode. In the first half of this thesis it is argued that the Lorenz grid is preferred for modelling the stably stratified boundary layer. This presents the question: which grid will produce most accurate results when coupling the large scale dynamics to the stably stratified planetary boundary layer? The second half of this thesis addresses this question. The normal mode analysis approach, as used in previous work of a similar nature, is employed. This is an attractive methodology since it allows one to pin down exactly why a particular configuration performs well. In order to apply this method a one dimensional column model is set up, where horizontally wavelike solutions with a given wavenumber are assumed. Applying this method encounters issues when the problem is non normal, as it will be when including boundary layer terms. It is shown that when addressing the coupled problem the lack of orthogonality between eigenvectors can cause mode analysis to break down. Dynamical modes could still be interpreted and compared using the eigenvectors but boundary layer modes could not. It is argued that one can recover some of the usefulness of the methodology by examining singular vectors and singular values; these retain the appropriate physical interpretation and allow for valid comparison due to orthogonality between singular vectors. Despite the problems in using the desirable methodology some interesting results have been gained. It is shown that the Lorenz grid is favoured when the boundary layer is considered on its own; it captures the structures of the steady states and transient singular vectors more accurately than the Charney-Phillips grid. For the coupled boundary layer and dynamics the Charney-Phillips grid is found to be most accurate in terms of capturing the steady state. Dispersion properties of dynamical modes in the coupled problem depend on the choice of horizontal wavenumber. For smaller horizontal wavenumber there is little to distinguish between Lorenz and Charney-Phillips grids, both the frequency and structure of dynamical modes is captured accurately. Dynamical mode structures are found to be harder to interpret when using larger horizontal wavenumbers; for those that are examined the Charney-Phillips grid produces the most sensible and accurate results. It is found that boundary layer modes in the coupled problem cannot be concisely compared between the Lorenz and Charney-Phillips grids due to the issues that arise with the methodology. The Lorenz grid computational mode is found to be suppressed by the boundary layer, but only in the boundary layer region.
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Time-Resolved Particle Image Velocimetry Measurements of the 3D Single-Mode Richtmyer-Meshkov InstabilityXu, Qian, Xu, Qian January 2016 (has links)
The Richtmyer-Meshkov Instability (RMI) (Commun. Pure Appl. Math 23, 297-319, 1960; Izv. Akad. Nauk. SSSR Maekh. Zhidk. Gaza. 4, 151-157, 1969) occurs due to an impulsive acceleration acting on a perturbed interface between two fluids of different densities. In the experiments presented in this thesis, single mode 3D RMI experiments are performed. An oscillating speaker generates a single mode sinusoidal initial perturbation at an interface of two gases, air and SF6. A Mach 1.19 shock wave accelerates the interface and generates the Richtmyer-Meshkov Instability. Both gases are seeded with propylene glycol particles which are illuminated by an Nd: YLF pulsed laser. Three high-speed video cameras record image sequences of the experiment. Particle Image Velocimetry (PIV) is applied to measure the velocity field. Measurements of the amplitude for both spike and bubble are obtained, from which the growth rate is measured. For both spike and bubble experiments, amplitude and growth rate match the linear stability theory at early time, but fall into a non-linear region with amplitude measurements lying between the modified 3D Sadot et al. model (Phys. Rev. Lett. 80, 1654-1657, 1998) and the Zhang & Sohn model (Phys. Fluids 9. 1106-1124, 1997; Z. Angew. Math Phys 50. 1-46, 1990) at late time. Amplitude and growth rate curves are found to lie above the modified 3D Sadot et al. model and below Zhang & Sohn model for the spike experiments. Conversely, for the bubble experiments, both amplitude and growth rate curves lie above the Zhang & Sohn model, and below the modified 3D Sadot et al. model. Circulation is also calculated using the vorticity and velocity fields from the PIV measurements. The calculated circulation are approximately equal and found to grow with time, a result that differs from the modified Jacobs and Sheeley's circulation model (Phys. Fluids 8, 405-415, 1996).
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Photonic analog-to-digital coonversion using a robust symmetrical number systemFisher, Adam S. 06 1900 (has links)
A photonic analog-to-digital converter (ADC) based on a robust symmetrical number system (RSNS) was constructed and tested. The analog signal to be converted is used to amplitude modulate an optical pulse from a laser using three Mach-Zehnder interferometers (MZI). The Mach-Zehnder interferometers fold the input analog signal for a three-channel RSNS encoding. The folding waveforms are then detected and amplitude-analyzed by three separate comparator banks, the outputs of which are used to determine a digital representation of the analog signal. This design uses the RSNS preprocessing to encode the signal with the fewest number of comparators for any selected bit resolution. In addition to the efficiency of its use of comparators, the RSNS encoding has inherent Gray-code properties making it particularly attractive for eliminating any possible encoding errors. The RSNS encoding is combined with an optical infrastructure that offers high bandwidth and low insertion loss characteristics. A full implementation was constructed and tested. The lack of a high-speed data acquisition device limited the results to examining the preprocessing and digital processing separately. With the system integration of a data acquisition device, a wideband direct digital antenna architecture can be demonstrated.
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General description and understanding of the nonlinear dynamics of mode-locked fiber lasersWei, Huai, Li, Bin, Shi, Wei, Zhu, Xiushan, Norwood, Robert A., Peyghambarian, Nasser, Jian, Shuisheng 02 May 2017 (has links)
As a type of nonlinear system with complexity, mode-locked fiber lasers are known for their complex behaviour. It is a challenging task to understand the fundamental physics behind such complex behaviour, and a unified description for the nonlinear behaviour and the systematic and quantitative analysis of the underlying mechanisms of these lasers have not been developed. Here, we present a complexity science-based theoretical framework for understanding the behaviour of mode-locked fiber lasers by going beyond reductionism. This hierarchically structured framework provides a model with variable dimensionality, resulting in a simple view that can be used to systematically describe complex states. Moreover, research into the attractors' basins reveals the origin of stochasticity, hysteresis and multistability in these systems and presents a new method for quantitative analysis of these nonlinear phenomena. These findings pave the way for dynamics analysis and system designs of mode-locked fiber lasers. We expect that this paradigm will also enable potential applications in diverse research fields related to complex nonlinear phenomena.
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