On-line maintenance of optimal machine schedules

Effective and efficient scheduling in a dynamically changing environment is important for real-time control of manufacturing, computer, and telecommunication systems. This paper illustrates the algorithmic and analytical issues associated with developing efficient and effective methods to update schedules on-line. We consider the problem of dynamically scheduling precedence-constrained jobs on a single processor to minimize the maximum completion time penalty. We first develop an efficient technique to reoptimize a rolling schedule when new jobs arrive. The effectiveness of reoptimizing the current schedule as a long-term on-line strategy is measured by bounding its performance relative to oracles that have perfect information about future job arrivals

Immediate Provitionalization of Full Arch Implant Placement: A Case Report

ABSTRACT An immediate implant placement and provisionalization approach has been increasingly adopted by clinicians because the technique seems to predictably improve esthetic outcomes. This approach offers the advantages of decreased treatment time and morbidity, while exhibiting success rates similar to those of the traditional approach. In this case report immediate implants were placed with immediate provisionalization

Fracture Body of Implant -Case Report

ABSTRACT This case report describes the management of a loose cement-retained implant supported sectional bridge prothesis where the thread of the abutment screw had fractured away from the body of the screw

System-Level Characterization of Datacenter Applications

In recent years, a number of benchmark suites have been created for the “Big Data ” domain, and a number of such applications fit the client-server paradigm. A large volume of recent literature in characterizing “Big Data ” applications have largely focused on two extremes of the characterization spectrum. On one hand, multiple studies have focused on client-side performance. These involve fine-tuning server-side parameters for an application to get the best client-side performance. On the other extreme, characterization fo-cuses on picking one set of client-side parameters and then reporting the server microarchitectural statistics under those assumptions. While the two ends of the spectrum present in-teresting results, this paper argues that they are not enough, and in some cases, undesirable, to drive system-wide archi-tectural decisions in datacenter design. This paper shows that for the purposes of designing an efficient datacenter, detailed microarchitectural characteri-zation of “Big Data ” applications is an overkill. It identi-fies four main system-level macro-architectural features and shows that these features are more representative of an ap-plication’s system level behavior. To this end, a number of datacenter applications from a variety of benchmark suites are evaluated and classified into these previously identified macro-architectural features. Based on this analysis, the paper further shows that each application class will benefit from a very different server configuration leading to a highly efficient, cost-effective datacenter

Graphene: Chemistry and Applications for Lithium-Ion Batteries

In the present era, different allotropes of carbon have been discovered, and graphene is the one among them that has contributed to many breakthroughs in research. It has been considered a promising candidate in the research and academic fields, as well as in industries, over the last decade. It has many properties to be explored, such as an enhanced specific surface area and beneficial thermal and electrical conductivities. Graphene is arranged as a 2D structure by organizing sp2 hybridized C with alternative single and double bonds, providing an extended conjugation combining hexagonal ring structures to form a honeycomb structure. The precious structure and outstanding characteristics are the major reason that modern industry relies heavily on graphene, and it is predominantly applied in electronic devices. Nowadays, lithium-ion batteries (LIBs) foremostly utilize graphene as an anode or a cathode, and are combined with polymers to use them as polymer electrolytes. After three decades of commercialization of the lithium-ion battery, it still leads in consumer electronic society due to its higher energy density, wider operating voltages, low self-discharge, noble high-temperature performance, and fewer maintenance requirements. In this review, we aim to give a brief review of the domination of graphene and its applications in LIBs

A summary of the 2012 JHU CLSP Workshop on Zero Resource Speech Technologies and Models of Early Language Acquisition

We summarize the accomplishments of a multi-disciplinary workshop exploring the computational and scientific issues surrounding zero resource (unsupervised) speech technologies and related models of early language acquisition. Centered around the tasks of phonetic and lexical discovery, we consider unified evaluation metrics, present two new approaches for improving speaker independence in the absence of supervision, and evaluate the application of Bayesian word segmentation algorithms to automatic subword unit tokenizations. Finally, we present two strategies for integrating zero resource techniques into supervised settings, demonstrating the potential of unsupervised methods to improve mainstream technologies.5 page(s

Performance analysis of NVMe SSDs and their implication on real world databases

The storage subsystem has undergone tremendous innova-tion in order to keep up with the ever-increasing demand for throughput. Non Volatile Memory Express (NVMe) based solid state devices are the latest development in this do-main, delivering unprecedented performance in terms of la-tency and peak bandwidth. NVMe drives are expected to be particularly beneficial for I/O intensive applications, with databases being one of the prominent use-cases. This paper provides the first, in-depth performance analy-sis of NVMe drives. Combining driver instrumentation with system monitoring tools, we present a breakdown of access times for I/O requests throughout the entire system. Fur-thermore, we present a detailed, quantitative analysis of all the factors contributing to the low-latency, high-throughput characteristics of NVMe drives, including the system soft-ware stack. Lastly, we characterize the performance of mul-tiple cloud databases (both relational and NoSQL) on state-of-the-art NVMe drives, and compare that to their perfor-mance on enterprise-class SATA-based SSDs. We show that NVMe-backed database applications deliver up to 8 × su-perior client-side performance over enterprise-class, SATA-based SSDs