Alternating current conduction behavior of excimer laser ablated SrBi2Nb2O9 thin films

Bi-layered Aurivillius compounds prove to be efficient candidates of nonvolatile memories. SrBi2Nb2O9 thin films were deposited by excimer laser ablation at low substrate temperature (400 °C) followed by an ex situ annealing at 750 °C. The polarization hysteresis behavior was confirmed by variation of polarization with the external applied electric field and also verified with capacitance versus voltage characteristics. The measured values of spontaneous and remnant polarizations were, respectively, 9 and 6 μC/cm2 with a coercive field of 90 kV/cm. The measured dielectric constant and dissipation factors at 100 kHz were 220 and 0.02, respectively. The frequency analysis of dielectric and ac conduction properties showed a distribution of relaxation times due to the presence of multiple grain boundaries in the films. The values of activation energies from the dissipation factor and grain interior resistance were found to be 0.9 and 1.3 eV, respectively. The deviation in these values was attributed to the energetic conditions of the grain boundaries and bulk grains. The macroscopic relaxation phenomenon is controlled by the higher resistive component in a film, such as grain boundaries at lower temperatures, which was highlighted in the present article in close relation to interior grain relaxation and conduction properties.

Electrical Switching and Other Properties of Chalcogenide Glasses

Abstract | Electrical switching which has applications in areas such as information storage, power control, etc is a scientifically interesting and technologically important phenomenon exhibited by glassy chalcogenide semiconductors. The phase change memories based on electrical switching appear to be the most promising next generation non-volatile memories, due to many attributes which include high endurance in write/read operations, shorter write/read time, high scalability, multi-bit capability, lower cost and a compatibility with complementary metal oxide semiconductor technology.Studies on the electrical switching behavior of chalcogenide glasses help us in identifying newer glasses which could be used for phase change memory applications. In particular, studies on the composition dependence of electrical switching parameters and investigations on the correlation between switching behavior with other material properties are necessary for the selection of proper compositions which make good memory materials.In this review, an attempt has been made to summarize the dependence of the electrical switching behavior of chalcogenide glasses with other material properties such as network topological effects, glass transition & crystallization temperature, activation energy for crystallization, thermal diffusivity, electrical resistivity and others.

Virtually cool ternary content addressable memory

Fast content addressable data access mechanisms have compelling applications in today's systems. Many of these exploit the powerful wildcard matching capabilities provided by ternary content addressable memories. For example, TCAM based implementations of important algorithms in data mining been developed in recent years; these achieve an an order of magnitude speedup over prevalent techniques. However, large hardware TCAMs are still prohibitively expensive in terms of power consumption and cost per bit. This has been a barrier to extending their exploitation beyond niche and special purpose systems. We propose an approach to overcome this barrier by extending the traditional virtual memory hierarchy to scale up the user visible capacity of TCAMs while mitigating the power consumption overhead. By exploiting the notion of content locality (as opposed to spatial locality), we devise a novel combination of software and hardware techniques to provide an abstraction of a large virtual ternary content addressable space. In the long run, such abstractions enable applications to disassociate considerations of spatial locality and contiguity from the way data is referenced. If successful, ideas for making content addressability a first class abstraction in computing systems can open up a radical shift in the way applications are optimized for memory locality, just as storage class memories are soon expected to shift away from the way in which applications are typically optimized for disk access locality.

Generating Efficient Data Movement Code for Heterogeneous Architectures with Distributed-Memory

Programming for parallel architectures that do not have a shared address space is extremely difficult due to the need for explicit communication between memories of different compute devices. A heterogeneous system with CPUs and multiple GPUs, or a distributed-memory cluster are examples of such systems. Past works that try to automate data movement for distributed-memory architectures can lead to excessive redundant communication. In this paper, we propose an automatic data movement scheme that minimizes the volume of communication between compute devices in heterogeneous and distributed-memory systems. We show that by partitioning data dependences in a particular non-trivial way, one can generate data movement code that results in the minimum volume for a vast majority of cases. The techniques are applicable to any sequence of affine loop nests and works on top of any choice of loop transformations, parallelization, and computation placement. The data movement code generated minimizes the volume of communication for a particular configuration of these. We use a combination of powerful static analyses relying on the polyhedral compiler framework and lightweight runtime routines they generate, to build a source-to-source transformation tool that automatically generates communication code. We demonstrate that the tool is scalable and leads to substantial gains in efficiency. On a heterogeneous system, the communication volume is reduced by a factor of 11X to 83X over state-of-the-art, translating into a mean execution time speedup of 1.53X. On a distributed-memory cluster, our scheme reduces the communication volume by a factor of 1.4X to 63.5X over state-of-the-art, resulting in a mean speedup of 1.55X. In addition, our scheme yields a mean speedup of 2.19X over hand-optimized UPC codes.

Energy Efficient Memory Decoder Design for Ultra-Low Voltage Systems

This paper presents a low energy memory decoder architecture for ultra-low-voltage systems containing multiple voltage domains. Due to limitations in scalability of memory supply voltages, these systems typically contain a core operating at subthreshold voltages and memories operating at a higher voltage. This difference in voltage provides a timing slack on the memory path as the core supply is scaled. The paper analyzes the feasibility and trade-offs in utilizing this timing slack to operate a greater section of memory decoder circuitry at the lower supply. A 256x16-bit SRAM interface has been designed in UMC 65nm low-leakage process to evaluate the above technique with the core and memory operating at 280 mV and 500 mV respectively. The technique provides a reduction of up to 20% in energy/cycle of the row decoder without any penalty in area and system-delay.

An efficient design of serial and parallel memory using Quantum dot cellular automata

Quantum cellular automata (QCA) is a new technology in the nanometer scale and has been considered as one of the alternative to CMOS technology. In this paper, we describe the design and layout of a serial memory and parallel memory, showing the layout of individual memory cells. Assuming that we can fabricate cells which are separated by 10nm, memory capacities of over 1.6 Gbit/cm2 can be achieved. Simulations on the proposed memories were carried out using QCADesigner, a layout and simulation tool for QCA. During the design, we have tried to reduce the number of cells as well as to reduce the area which is found to be 86.16sq mm and 0.12 nm2 area with the QCA based memory cell. We have also achieved an increase in efficiency by 40%.These circuits are the building block of nano processors and provide us to understand the nano devices of the future.

Dos escritos juveniles de Estanislao S. Zeballos

Resumen: A poco de obtener el grado de doctor en jurisprudencia en la Universidad de Buenos Aires, Estanislao S. Zeballos, que no obstante su juventud había concretado ya diversas iniciativas culturales y ejercido el periodismo de batalla, adhirió a la revolución encabezada por el general Bartolomé Mitre en 1874 para oponerse a la asunción del presidente Nicolás Avellaneda. Fue nombrado capitán y secretario del comandante en jefe. Durante la campaña escribió un relato de sus días infantiles en la ciudad de Rosario y acerca de su ingreso al Colegio Nacional, y un boceto sobre el clima político previo a la elección de Avellaneda como presidente de la República.

Antonio Somellera : un testimonio de violencia política en tiempos de Rosas (1838-1840)

La obra publicada hacia fines del siglo XIX por el Comodoro Antonio Somellera (1812-1889) bajo el nombre Recuerdos de una víctima de la Mazorca, es un valiosísimo documento histórico para analizar los hechos e ideas que determinaron muchos de los aspectos de la vida política del momento al que se refiere, el gobierno de Juan Manuel de Rosas en Buenos Aires durante 1838-1840. Allí se expresa cabalmente uno de los elementos más controvertidos de la historia del país: la violencia política, tanto física como discursiva, a que estaban acostumbrados todos los hombres que dirigían, ya sea como gobierno o como oposición, los destinos de la Argentina. A través de un análisis contextualizado y profundo de estas Memorias, el presente trabajo buscará dilucidar algunos de los aspectos estructurales que caracterizaron la realidad política de esos años.

El Vaticano II : intención, recepción, futuro

Resumen: En esta presentación, escrita para el Congreso del centenario de la Facultad de Teología, el autor, a partir de recuerdos personales, se refiere al contexto histórico de grandes transformaciones en que tiene lugar el Concilio Vaticano II, y el triunfo de la renovación inspirada en las fuentes y reflejada en los documentos conciliares. La recepción de estos resultados en el posconcilio fue difícil: en Latinoamérica, por las discusiones en torno a la teología de la liberación, y en Europa por el enfrentamiento con diferentes expresiones de la modernidad, el marxismo y el individualismo liberal. Desde los años ’80 se acentúan los debates sobre la interpretación del Concilio, con fuertes tendencias dirigidas a neutralizar su implementación. El Papa Francisco afronta hoy este desafío proponiendo un camino de radicalidad evangélica, centrada en la misericordia y la opción preferencial por los pobres

Poesía, subjetividad y memoria en la escritura de Alicia Genovese

Resumen: El presente trabajo busca proponer una reflexión acerca de los vínculos entre memoria, poesía y subjetividad en la escritura de la poeta argentina Alicia Genovese (Lomas de Zamora, Provincia de Buenos Aires, Argentina, 1953), lo que se lleva a cabo desde un diálogo intertextual entre su producción ensayística y su escritura poética. A los fines de exponer este argumento, me detendré tanto en sus ensayos como en esa zona de su poesía que Genovese desarrolla desde finales de la década de 1990 en adelante, donde el tema de la memoria emerge con mucha claridad e insistencia. Se trata de un rasgo, por otra parte, que no podemos comprender cabalmente sin referir al contexto de producción de la escritura, el que aparece marcado no solo por la manifestación de la profunda crisis socio-política que eclosionaría en 2001, sino por el desarrollo de intensos debates en torno a las memorias sobre el pasado reciente de nuestro país.

Contributions to the analysis and segmentation of remote sensing hyperspectral images

142 p.

Hacia el encuentro de mi anthropos: la muerte, dinamo estructural de la vida

559 p. - Sobresaliente cum laudem por unanimidad. La presidenta del tribunal hace la petición al departamento, en el acto de calificación de la defensa, de publicación de esta tesis por considerarla de interés científico.

Raumfigurationen und Macht in Atemschaukel

[EN] Atemschaukel approaches the falling apart and survival in a historically loaded space, such as a labour camp. This novel offers a relevant research field for the space analysis, focused from the perspective of the Spatial Turn, as not only this theoretical frame but also Herta Müller herself conceive of space as a process, unterstood as a reciprocal interaction with the social practice, thus as a spatial and social construct. The representation of space in Atemschaukel is described in this article as a “swinging movement between boxes and abyss”, where the discourse of Leopold Auberg’s memories oscillates between closed and square spaces, on one hand, and open and giddy spaces, on the other hand. In this oscillating movement it is the open spaces that will most clearly show the process of inner destruction of the subject in such oppressive situations as on labour camps, as well as the permanent damages of deportation.

Coding for information storage

Storage systems are widely used and have played a crucial rule in both consumer and industrial products, for example, personal computers, data centers, and embedded systems. However, such system suffers from issues of cost, restricted-lifetime, and reliability with the emergence of new systems and devices, such as distributed storage and flash memory, respectively. Information theory, on the other hand, provides fundamental bounds and solutions to fully utilize resources such as data density, information I/O and network bandwidth. This thesis bridges these two topics, and proposes to solve challenges in data storage using a variety of coding techniques, so that storage becomes faster, more affordable, and more reliable.

We consider the system level and study the integration of RAID schemes and distributed storage. Erasure-correcting codes are the basis of the ubiquitous RAID schemes for storage systems, where disks correspond to symbols in the code and are located in a (distributed) network. Specifically, RAID schemes are based on MDS (maximum distance separable) array codes that enable optimal storage and efficient encoding and decoding algorithms. With r redundancy symbols an MDS code can sustain r erasures. For example, consider an MDS code that can correct two erasures. It is clear that when two symbols are erased, one needs to access and transmit all the remaining information to rebuild the erasures. However, an interesting and practical question is: What is the smallest fraction of information that one needs to access and transmit in order to correct a single erasure? In Part I we will show that the lower bound of 1/2 is achievable and that the result can be generalized to codes with arbitrary number of parities and optimal rebuilding.

We consider the device level and study coding and modulation techniques for emerging non-volatile memories such as flash memory. In particular, rank modulation is a novel data representation scheme proposed by Jiang et al. for multi-level flash memory cells, in which a set of n cells stores information in the permutation induced by the different charge levels of the individual cells. It eliminates the need for discrete cell levels, as well as overshoot errors, when programming cells. In order to decrease the decoding complexity, we propose two variations of this scheme in Part II: bounded rank modulation where only small sliding windows of cells are sorted to generated permutations, and partial rank modulation where only part of the n cells are used to represent data. We study limits on the capacity of bounded rank modulation and propose encoding and decoding algorithms. We show that overlaps between windows will increase capacity. We present Gray codes spanning all possible partial-rank states and using only ``push-to-the-top'' operations. These Gray codes turn out to solve an open combinatorial problem called universal cycle, which is a sequence of integers generating all possible partial permutations.

Um certo olhar sobre a velhice : a narrativa memorialista de Pedro Nava

Este trabalho tem como objetivo investigar as transformações do envelhecimento que se dão pelas narrativas produzidas pelas lembranças. Busca destacar a especificidade do papel da memória no processo de envelhecimento e a sua força de transformação e resistência. A pertinência do tema está ligada a marcada expressão que o contingente de pessoas idosas adquiriu nos anos recentes ao ganhar visibilidade cada vez maior, impondo-se como um grupo com demandas e características próprias. No estudo, articulam-se os conceitos de sujeito, de memória e de narratividade. Na primeira parte, desenvolve-se a noção de sujeito, desde um eu central, fundamento de uma unidade de expressão, até a fragmentação desse eu, que se torna múltitiplo e expressão crítica do homem moderno. Na segunda parte, o estudo da memória, acompanhamos a passagem de uma memória definida como permanente e reprodutora para uma descrição de memória como uma habilidade criativa, capaz de retrospectivamente produzir novas narrativas. Na terceira parte, estudamos o conceito de narratividade, explorando diversos aspectos para além do campo literário. Finalmente, com a rede conceitual sujeito - memória - narrativa estabelecida, reconhecemos na obra de Pedro Nava o surgimento de múltiplos narradores, que, frente a velhice, em vez de se defender e negar a vida, aceitam o desafio de um confronto e se afirmam, forjados em suas diferenças.