183 research outputs found
Reservoir characterisation using artificial bee colony optimisation
To obtain an accurate estimation of reservoir performance, the reservoir should be properly characterised. One of the main stages of reservoir characterisation is the calibration of rock property distributions with flow performance observation, which is known as history matching. The history matching procedure consists of three distinct steps: parameterisation, regularisation and optimisation. In this study, a Bayesian framework and a pilot-point approach for regularisation and parameterisation are used. The major focus of this paper is optimisation, which plays a crucial role in the reliability and quality of history matching. Several optimisation methods have been studied for his¬tory matching, including genetic algorithm (GA), ant colony, particle swarm (PS), Gauss-Newton, Levenberg-Marquardt and Limited-memory, Broyden-Fletcher-Goldfarb-Shanno. One of the most recent optimisation algorithms used in different fields is artificial bee colony (ABC). In this study, the application of ABC in history matching is investigated for the first time. ABC is derived from the intelligent foraging behaviour of honey bees. A colony of honey bees is comprised of employed bees, onlookers and scouts. Employed bees look for food sources based on their knowledge, onlookers make decisions for foraging using employed bees’ observations, and scouts search for food randomly. To investigate the application of ABC in history matching, its results for two different synthetic cases are compared with the outcomes of three different optimisation methods: real-valued GA, simulated annealing (SA), and pre-conditioned steepest descent. In the first case, history matching using ABC afforded a better result than GA and SA. ABC reached a lower fitness value in a reasonable number of evaluations, which indicates the performance and execution-time capability of the method. ABC did not appear as efficient as PSD in the first case. In the second case, SA and PDS did not perform acceptably. GA achieved a better result in comparison to SA and PSD, but its results were not as superior as ABC’s. ABC is not concerned with the shape of the landscape, that is, whether it is smooth or rugged. Since there is no precise information about the landscape shape of the history matching function, it can be concluded that by using ABC, there is a high chance of providing high-quality history matching and reservoir characterisation
Extracted and encapsulated Omega-3 fatty acids from Hypohthalmichthys molitrix
In Iran, Chinese carps (Common carp, Grass carp, Silver carp and Big head) are cultured by using poly culture methods. Carps have been interested for culture for some properties like easy to farming, fast growth, availability in all season and low lost. In this study, the amount of fatty acid composition in silver carp oil has been evaluated by urea complex method in 1, +5 and -5°C. The fatty acid was purified by crystallization method. The highest amount of fatty acid achieved in 1°C temperature. According to our results, n-3 fatty acid increased but saturated fatty acid and mono unsaturated decreased. Maximum purity of fatty acid in 1, 5 and -5°C temperature was found 67.8, 36.82 and 22.53 percent, respectively. In this project, proximate composition of silver carp meat was also evaluated. The n-3 fatty acid was microencapsulated by mass complex method and different parameters effects such as binding agent, different rate of mixing effect, ion power, different salt concentrations, usage of polyvinyl alcohol and glutaraldeid were studied. Average size of microcapsules in 100,300,500,750 and 1000rpm were found 537.2, 84.4, 12.98, 8.24 and 4 mµ, respectively. Results showed that the best salt concentration for encapsulation was 0.1 molar. In this concentration, the average of microcapsule size was received to 3.3. Using glutaraldeid, mixing glutaraldeid and polyvinyl alcohol and 0.1 molar salt and 1000rpm was prepared the best condition for formation the microcapsule
Exploiting Inter- and Intra-Memory Asymmetries for Data Mapping in Hybrid Tiered-Memories
Modern computing systems are embracing hybrid memory comprising of DRAM and
non-volatile memory (NVM) to combine the best properties of both memory
technologies, achieving low latency, high reliability, and high density. A
prominent characteristic of DRAM-NVM hybrid memory is that it has NVM access
latency much higher than DRAM access latency. We call this inter-memory
asymmetry. We observe that parasitic components on a long bitline are a major
source of high latency in both DRAM and NVM, and a significant factor
contributing to high-voltage operations in NVM, which impact their reliability.
We propose an architectural change, where each long bitline in DRAM and NVM is
split into two segments by an isolation transistor. One segment can be accessed
with lower latency and operating voltage than the other. By introducing tiers,
we enable non-uniform accesses within each memory type (which we call
intra-memory asymmetry), leading to performance and reliability trade-offs in
DRAM-NVM hybrid memory. We extend existing NVM-DRAM OS in three ways. First, we
exploit both inter- and intra-memory asymmetries to allocate and migrate memory
pages between the tiers in DRAM and NVM. Second, we improve the OS's page
allocation decisions by predicting the access intensity of a newly-referenced
memory page in a program and placing it to a matching tier during its initial
allocation. This minimizes page migrations during program execution, lowering
the performance overhead. Third, we propose a solution to migrate pages between
the tiers of the same memory without transferring data over the memory channel,
minimizing channel occupancy and improving performance. Our overall approach,
which we call MNEME, to enable and exploit asymmetries in DRAM-NVM hybrid
tiered memory improves both performance and reliability for both single-core
and multi-programmed workloads.Comment: 15 pages, 29 figures, accepted at ACM SIGPLAN International Symposium
on Memory Managemen
Road to 2023: our common agenda and the pact for the future
Fears of rising conflict, new COVID-19 variants, irreversible climate change, and eroding collaboration in the global economy threaten to undermine the 2030 Agenda for Sustainable Development and other efforts to advance human progress. Yet, a once-in-a-generation opportunity to review and dramatically improve global tools for managing such enormous challenges, a Summit of the Future, is under serious consideration for September 2023 by the United Nations’ 193 Member States. Informed by research and policy dialogues—initially undertaken for the Albright-Gambari Commission and its follow-through, and most recently to help flesh out key proposals in the Secretary-General’s seminal report, Our Common Agenda—this report’s twenty main recommendations are intended to encourage more ambitious, forward-looking thinking and deliberation on global governance renewal and innovation in the run-up to next year’s Summit.FdR – Publicaties niet-programma gebonde
Comparative historical sociology and the State : problems of method
Historical sociology can be understood both as a specific sub-field of sociology and as providing general conceptual underpinnings of the discipline, to the extent that it provides an understanding of the specificity of the modern state and the perceived emergence of modernity within Europe. The association of modernity with Europe (and with a European history limited to the self-identified boundaries of the continent) is commonplace and pervasive within the social sciences and humanities. What such an understanding fails to take into consideration, however, are the connections between Europe and the rest of the world that constitute the broader context for the emergence of what is understood to be the modern world and its institutions, such as the state and market. In this article, I suggest that integral to this misunderstanding, and its reproduction over time, is the methodology of comparative historical sociology as represented by ideal types. In contrast, I argue for ‘connected sociologies’ as a more appropriate way to understand our shared past and its continuing impact upon the present. I examine these issues in the context of historical sociological understandings of nation-state formation
Different paths to the modern state in Europe: the interaction between domestic political economy and interstate competition
Theoretical work on state formation and capacity has focused mostly on early modern Europe and on the experience of western European states during this period. While a number of European states monopolized domestic tax collection and achieved gains in state capacity during the early modern era, for others revenues stagnated or even declined, and these variations motivated alternative hypotheses for determinants of fiscal and state capacity. In this study we test the basic hypotheses in the existing literature making use of the large date set we have compiled for all of the leading states across the continent. We find strong empirical support for two prevailing threads in the literature, arguing respectively that interstate wars and changes in economic structure towards an urbanized economy had positive fiscal impact. Regarding the main point of contention in the theoretical literature, whether it was representative or authoritarian political regimes that facilitated the gains in fiscal capacity, we do not find conclusive evidence that one performed better than the other. Instead, the empirical evidence we have gathered lends supports to the hypothesis that when under pressure of war, the fiscal performance of representative regimes was better in the more urbanized-commercial economies and the fiscal performance of authoritarian regimes was better in rural-agrarian economie
Grounds for engagement: Dissonances and overlaps at the intersection of contemporary civilizations analysis and postcolonial sociology
This article elucidates grounds for engagement between two fields of the social sciences engaged in critique of Eurocentrism: contemporary civilizations analysis and postcolonial sociology. Between the two fields there are both evident dissonances and points of potential dialogue and engagement. The article identifies three areas of high contention: divergent perceptions of essentialism, commitments to transformative politics and evaluations of the paradigm of multiple modernities. Despite extensive theoretical and normative differences, a notional intersection of the two fields is outlined in the form of three conceptual and methodological shifts. The first is a displacement of ideal typology. The second move is the most original. ‘Intercivilizational encounters’ and ‘intracivilizational encounters’ are re-cast as ‘intercivilizational engagement’. The goal is the demarcation of a discrete position based on a strong version of interaction that goes further than the notion of intercivilizational encounters recently re-developed in civilizational analysis. To illustrate potential grounds for engagement on this point, the article reviews the historiography of ‘connected histories’ and the insights of relational historians. Finally, the article urges for a nuanced definition of ‘region’ and deeper appreciation of the multiplicity of regionalisms as a meeting point for both fields of critique of Eurocentrism
Aging-Aware Request Scheduling for Non-Volatile Main Memory
Modern computing systems are embracing non-volatile memory (NVM) to implement
high-capacity and low-cost main memory. Elevated operating voltages of NVM
accelerate the aging of CMOS transistors in the peripheral circuitry of each
memory bank. Aggressive device scaling increases power density and temperature,
which further accelerates aging, challenging the reliable operation of
NVM-based main memory. We propose HEBE, an architectural technique to mitigate
the circuit aging-related problems of NVM-based main memory. HEBE is built on
three contributions. First, we propose a new analytical model that can
dynamically track the aging in the peripheral circuitry of each memory bank
based on the bank's utilization. Second, we develop an intelligent memory
request scheduler that exploits this aging model at run time to de-stress the
peripheral circuitry of a memory bank only when its aging exceeds a critical
threshold. Third, we introduce an isolation transistor to decouple parts of a
peripheral circuit operating at different voltages, allowing the decoupled
logic blocks to undergo long-latency de-stress operations independently and off
the critical path of memory read and write accesses, improving performance. We
evaluate HEBE with workloads from the SPEC CPU2017 Benchmark suite. Our results
show that HEBE significantly improves both performance and lifetime of
NVM-based main memory.Comment: To appear in ASP-DAC 202
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