34 research outputs found
Interconnects architectures for many-core era using surface-wave communication
PhD ThesisNetworks-on-chip (NoCs) is a communication paradigm that has
emerged aiming to address on-chip communication challenges and
to satisfy interconnection demands for chip-multiprocessors (CMPs).
Nonetheless, there is continuous demand for even higher computational
power, which is leading to a relentless downscaling of CMOS
technology to enable the integration of many-cores. However, technology
downscaling is in favour of the gate nodes over wires in terms
of latency and power consumption. Consequently, this has led to the
era of many-core processors where power consumption and performance
are governed by inter-core communications rather than core
computation. Therefore, NoCs need to evolve from being merely metalbased
implementations which threaten to be a performance and power
bottleneck for many-core efficiency and scalability.
To overcome such intensified inter-core communication challenges,
this thesis proposes a novel interconnect technology: the surface-wave
interconnect (SWI). This new RF-based on-chip interconnect has notable
characteristics compared to cutting-edge on-chip interconnects
in terms of CMOS compatibility, high speed signal propagation, low
power dissipation, and massive signal fan-out. Nonetheless, the realization
of the SWI requires investigations at different levels of abstraction,
such as the device integration and RF engineering levels. The aim
of this thesis is to address the networking and system level challenges
and highlight the potential of this interconnect. This should
encourage further research at other levels of abstraction. Two specific
system-level challenges crucial in future many-core systems are tackled
in this study, which are cross-the-chip global communication and
one-to-many communication.
This thesis makes four major contributions towards this aim. The
first is reducing the NoC average-hop count, which would otherwise
increase packet-latency exponentially, by proposing a novel hybrid
interconnect architecture. This hybrid architecture can not only utilize
both regular metal-wire and SWI, but also exploits merits of
both bus and NoC architectures in terms of connectivity compared to
other general-purpose on-chip interconnect architectures. The second
contribution addresses global communication issues by developing
a distance-based weighted-round-robin arbitration (DWA) algorithm.
This technique prioritizes global communication to be send via SWI
short-cuts, which offer more efficient power dissipation and faster
across-the-chip signal propagation. Results obtained using a cycleaccurate
simulator demonstrate the effectiveness of the proposed
system architecture in terms of significant power reduction, considervii
able average delay reduction and higher throughput compared to a
regular NoC. The third contribution is in handling multicast communications,
which are normally associated with traffic overload, hotspots
and deadlocks and therefore increase, by an order of magnitude the
power consumption and latency. This has been achieved by proposing
a novel routing and centralized arbitration schemes that exploits
the SWI0s remarkable fan-out features. The evaluation demonstrates
drastic improvements in the effectiveness of the proposed architecture
in terms of power consumption ( 2-10x) and performance ( 22x) but
with negligible hardware overheads ( 2%). The fourth contribution is
to further explore multicast contention handling in a flexible decentralized
manner, where original techniques such as stretch-multicast
and ID-tagging flow control have been developed. A comparison of
these techniques shows that the decentralized approach is superior
to the centralized approach with low traffic loads, while the latter
outperforms the former near and after NoC saturation
Fluorescence Methods for Investigation of Living Cells and Microorganisms
Fluorescence methods play a leading role in the investigation of biological objects. They are the only non-destructive methods for investigating living cells and microorganisms in vivo. Using intrinsic and artificial fluorescence methods provides deep insight into mechanisms underlying physiological and biochemical processes. This book covers a wide range of modern methods involved in experimental biology. It illustrates the use of fluorescence microscopy and spectroscopy, confocal laser scanning microscopy, flow cytometry, delayed fluorescence, pulse-amplitude-modulation fluorometry, and fluorescent dye staining protocols. This book provides an overview of practical and theoretical aspects of fluorescence methods and their successful application in the investigation of static and dynamic processes in living cells and microorganisms
Proceedings of the Scientific-Practical Conference "Research and Development - 2016"
talent management; sensor arrays; automatic speech recognition; dry separation technology; oil production; oil waste; laser technolog
ESSE 2017. Proceedings of the International Conference on Environmental Science and Sustainable Energy
Environmental science is an interdisciplinary academic field that integrates physical-, biological-, and information sciences to study and solve environmental problems. ESSE - The International Conference on Environmental Science and Sustainable Energy provides a platform for experts, professionals, and researchers to share updated information and stimulate the communication with each other. In 2017 it was held in Suzhou, China June 23-25, 2017
Proceedings of the Scientific-Practical Conference "Research and Development - 2016"
talent management; sensor arrays; automatic speech recognition; dry separation technology; oil production; oil waste; laser technolog
Mathematical model of interactions immune system with Micobacterium tuberculosis
Tuberculosis (TB) remains a public health problem in the world, because of the increasing prevalence and treatment outcomes are less satisfactory. About 3 million people die each year and an estimated one third of the world's population infected with Mycobacterium Tuberculosis (M.tb) is latent. This is apparently related to incomplete understanding of the immune system in infection M.tb. When this has been known that immune responses that play a role in controlling the development of M.tb is Macrophages, T Lymphocytes and Cytokines as mediators. However, how the interaction between the two populations and a variety of cytokines in suppressing the growth of Mycobacterium tuberculosis germ is still unclear. To be able to better understand the dynamics of infection with M tuberculosis host immune response is required of a model.One interesting study on the interaction of the immune system with M.tb mulalui mathematical model approach. Mathematical model is a good tool in understanding the dynamic behavior of a system. With the mediation of mathematical models are expected to know what variables are most responsible for suppressing the growth of Mycobacterium tuberculosis germ that can be a more appropriate approach to treatment and prevention target is to develop a vaccine. This research aims to create dynamic models of interaction between macrophages (Macrophages resting, macrophages activated and macrophages infected), T lymphocytes (CD4 + T cells and T cells CD8 +) and cytokine (IL-2, IL-4, IL-10,IL-12,IFN-dan TNF-) on TB infection in the lung. To see the changes in each variable used parameter values derived from experimental literature. With the understanding that the variable most responsible for defense against Mycobacterium tuberculosis germs, it can be used as the basis for the development of a vaccine or drug delivery targeted so hopefully will improve the management of patients with tuberculosis. Mathematical models used in building Ordinary Differential Equations (ODE) in the form of differential equation systems Non-linear first order, the equation contains the functions used in biological systems such as the Hill function, Monod function, Menten- Kinetic Function. To validate the system used 4th order Runge Kutta method with the help of software in making the program Matlab or Maple to view the behavior and the quantity of cells of each population
Abstracts of manuscripts submitted in 1991 for publication
This volume contains the abstracts of manuscripts submitted for publication during calendar year 1991 by the staff and students
of the Woods Hole Oceanographic Institution. We identify the journal of those manuscripts which are in press or have been
published. The volume is intended to be informative, but not a bibliography.
The abstracts are listed by title in the Table of Contents and are grouped into one of our five departents, Marine Policy
Center, Coastal Research Center, or the student category. An author index is presented in the back to facilitate locating specific
papers