Live Partition Mobility is the next step in the IBMs Power SystemsTM virtualization continuum. It can be combined with other virtualization technologies, such as logical partitions, Live Workload Partitions, and the SAN Volume Controller, to provide a fully virtualized computing platform that offers the degree of system and infrastructure flexibility required by today's production data centers. Please note: The contents of this publication has been updated and migrated to the following publications. The material in this PDF should no longer be considered accurate. An introduction to PowerVM that includes basic installation and set up: IBM PowerVM Virtualization Introduction and Configuration A deep dive into how to manage PowerVM virtualization 24x7: IBM PowerVM Virtualization Managing and Monitoring The enhancements that were added in 2013, including a chapter on mobility: IBM PowerVM Enhancements What is new in 2013
This IBM® Redbooks® publication positions the IBM Systems Director Management Console (SDMC) against the IBM Hardware Management Console (HMC). The IBM Systems Director Management Console provides system administrators the ability to manage IBM Power System® servers as well as IBM Power Blade servers. It is based on IBM Systems Director. This publication is designed for system administrators to use as a deskside reference when managing Virtual Servers (formerly partitions) using the SDMC. The major functions that the SDMC provides are server hardware management and virtualization management.
The IBM® Hardware Management Console (HMC) provides to systems administrators a tool for planning, deploying, and managing IBM Power SystemsTM servers. This IBM Redbooks® publication is an extension of IBM Power Systems HMC Implementation and Usage Guide, SG24-7491 and also merges updated information from IBM Power Systems Hardware Management Console: Version 8 Release 8.1.0 Enhancements, SG24-8232. It explains the new features of IBM Power Systems Hardware Management Console Version V8.8.1.0 through V8.8.4.0. The major functions that the HMC provides are Power Systems server hardware management and virtualization (partition) management. Further information about virtualization management is in the following publications: IBM PowerVM Virtualization Managing and Monitoring, SG24-7590 IBM PowerVM Virtualization Introduction and Configuration, SG24-7940 IBM PowerVM Enhancements What is New in 2013, SG24-8198 IBM Power Systems SR-IOV: Technical Overview and Introduction, REDP-5065 The following features of HMC V8.8.1.0 through HMC V8.8.4.0 are described in this book: HMC V8.8.1.0 enhancements HMC V8.8.4.0 enhancements System and Partition Templates HMC and IBM PowerVM® Simplification Enhancement Manage Partition Enhancement Performance and Capacity Monitoring HMC V8.8.4.0 upgrade changes
Economic and environmental considerations have promoted the use of supplementary cementing materials (SCMs) such as slag cement and fly ash. This research program focused on use of maturity meters to measure strength gain of concrete containing fly ash and slag cement cured at low temperatures. For this study, slag cement contents ranged from 0 to 40 percent, and the fly ash contents ranged from 0 to 60 percent. Six different mixtures containing Class C fly ash and Gr. 100 slag cement were hatched and tested. The curing temperatures for the study ranged from 33 to 70°F. The maturity as a function of the temperature and time history was measured for each mixture and at each temperature. Nomographs and predictive equations were developed to allow for compressive strength estimation for similar concrete mixtures in the field.
Increasing requirements to conform to international standards for quality assurance, such as ISO 17025, are driving a need for appropriate methods for the estimation of measurement uncertainty throughout the chemical industry. This volume provides specific insights on measurement uncertainty causal factors and how they are addressed for chemical measurement systems. It includes practical examples that illustrate uncertainty estimation in a manner compliant with the Guide to the Expression of Uncertainty in Measurement (GUM). Chapters on the uncertainty of sampling and interpreting uncertainties in a compliance situation are included.
This volume, occasioned by the centenary of the Fritz Haber Institute, formerly the Institute for Physical Chemistry and Electrochemistry, covers the institute's scientific and institutional history from its founding until the present. The institute was among the earliest established by the Kaiser Wilhelm Society, and its inauguration was one of the first steps in the development of Berlin-Dahlem into a center for scientific research. Its establishment was made possible by an endowment from Leopold Koppel, granted on the condition that Fritz Haber, well-known for his discovery of a method to synthesize ammonia from its elements, be made its director. The history of the institute has largely paralleled that of 20th-century Germany. It undertook controversial weapons research during World War I, followed by a "Golden Era" during the 1920s, in spite of financial hardships. Under the National Socialists it experienced a purge of its scientific staff and a diversion of its research into the service of the new regime, accompanied by a breakdown in its international relations. In the immediate aftermath of World War II it suffered crippling material losses, from which it recovered slowly in the post-war era. In 1953, shortly after taking the name of its founding director, the institute joined the fledgling Max Planck Society. During the 1950s and 60s, the institute supported diverse researches into the structure of matter and electron microscopy in a territorially insular and politically precarious West-Berlin. In subsequent decades, as both Berlin and the Max Planck Society underwent significant changes, the institute reorganized around a board of coequal scientific directors and a renewed focus on the investigation of elementary processes on surfaces and interfaces, topics of research that had been central to the work of Fritz Haber and the first "Golden Era" of the institute.
3D Face Processing: Modeling, Analysis and Synthesis introduces the frontiers of 3D face processing techniques. It reviews existing 3D face processing techniques, including techniques for 3D face geometry modeling; 3D face motion modeling; and 3D face motion tracking and animation. Then it discusses a unified framework for face modeling, analysis and synthesis. In this framework, the authors present new methods for modeling complex natural facial motion, as well as face appearance variations due to illumination and subtle motion. Then the authors apply the framework to face tracking, expression recognition and face avatar for HCI interface. They conclude this book with comments on future work in the 3D face processing framework. 3D Face Processing: Modeling, Analysis and Synthesis will interest those working in face processing for intelligent human computer interaction and video surveillance. It contains a comprehensive survey on existing face processing techniques, which can serve as a reference for students and researchers. It also covers in-depth discussion on face motion analysis and synthesis algorithms, which will benefit more advanced graduate students and researchers.
Ancient Greek music and music theory has fascinated scholars for centuries not only because of its intrinsic interest as a part of ancient Greek culture but also because the Greeks? grand concept of music has continued to stimulate musical imaginations to the present day. Unlike earlier treatments of the subject, Apollo?s Lyre is aimedøprincipally at the reader interested in the musical typologies, the musical instruments, and especially the historical development of music theory and its transmission through the Middle Ages. The basic method and scope of the study are set out in a preliminary chapter, followed by two chapters concentrating on the role of music in Greek society, musical typology, organology, and performance practice. The next chapters are devoted to the music theory itself, as it developed in three stages: in the treatises of Aristoxenus and the Sectio canonis; during the period of revival in the second century C.E.; and in late antiquity. Each theorist and treatise is considered separately but always within the context of the emerging traditions. The theory provides a remarkably complete and coherent system for explaining and analyzing musical phenomena, and a great deal of its conceptual framework, as well as much of its terminology, was borrowed and adapted by medieval Latin, Byzantine, and Arabic music theorists, a legacy reviewed in the final chapter. Transcriptions and analyses of some of the more complete pieces of Greek music preserved on papyrus or stone, or in manuscript, are integrated with a consideration of the musicopoetic types themselves. The book concludes with a comprehensive bibliography for the field, updating and expanding the author?s earlier Bibliography of Sources for the Study of Ancient Greek Music.
The new edition of the cornerstone text on electrochemistry Spans all the areas of electrochemistry, from the basics of thermodynamics and electrode kinetics to transport phenomena in electrolytes, metals, and semiconductors. Newly updated and expanded, the Third Edition covers important new treatments, ideas, and technologies while also increasing the book's accessibility for readers in related fields. Rigorous and complete presentation of the fundamental concepts In-depth examples applying the concepts to real-life design problems Homework problems ranging from the reinforcing to the highly thought-provoking Extensive bibliography giving both the historical development of the field and references for the practicing electrochemist.
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