@phdthesis{19639, author = {{Vöcking, Berthold}}, isbn = {{3-931466-45-0}}, publisher = {{Verlagsschriftenreihe des Heinz Nixdorf Instituts, Paderborn}}, title = {{{Static and Dynamic Data Management in Networks}}}, volume = {{46}}, year = {{1998}}, } @inbook{19712, author = {{Büker, Petra}}, booktitle = {{Lernen und Lehren für Europa. Festschrift für Waltraut Schöler}}, editor = {{Tuyaerts, A. and Hagemann, W. and Tulodziecki, G.}}, pages = {{175--201}}, publisher = {{Lang}}, title = {{{Europaoffenes Lernen mit Grundschulkindern - Bedingungen und didaktische Perspektiven für einen neuen Aufgabenbereich der Primarstufe}}}, year = {{1998}}, } @techreport{19735, abstract = {{The Paderborn University BSP (PUB) library is a parallel C library based on the BSP model. The basic library supports buffered and unbuffered asynchronous communication between any pair of processors, and a mechanism for synchronizing the processors in a barrier style. In addition, it provides routines for collective communication on arbitrary subsets of processors, partition operations, and a zero-cost synchronization mechanism. Furthermore, some techniques used in the implementation of the PUB library deviate significantly from the techniques used in other BSP libraries.}}, author = {{Bonorden, Olaf and Rieping, Ingo and von Otte, Ingo and Juurlink, Bernhardus}}, title = {{{The Paderborn University BSP (PUB) Library - Design, Implementation and Performance}}}, year = {{1998}}, } @inproceedings{2009, abstract = {{RSD (Resource and Service Description) is a scheme for specifying resources and services in complex heterogeneous computing systems and metacomputing environments. At the system administrator level, RSD is used to specify the available system components, such as the number of nodes, their interconnection topology, CPU speeds, and available software packages. At the user level, a GUI provides a comfortable, high-level interface for specifying system requests. A textual editor can be used for defining repetitive and recursive structures. This gives service providers the necessary flexibility for fine-grained specification of system topologies, interconnection networks, system and software dependent properties. All these representations are mapped onto a single, coherent internal object-oriented resource representation. Dynamic aspects (like network performance, availability of compute nodes, and compute node loads) are traced at runtime and included in the resource description to allow for optimal process mapping and dynamic task load balancing at runtime at the metacomputer level. This is done in a self-organizing way, with human system operators becoming only involved when new hardware/software components are installed.}}, author = {{Brune, Matthias and Gehring, Jörn and Keller, Axel and Reinefeld, Alexander}}, booktitle = {{Proc. Int. Conf. on High-Performance Computing Systems (HPCS)}}, title = {{{RSD - Resource and Service Description}}}, doi = {{10.1007/978-1-4615-5611-4_18}}, year = {{1998}}, } @inproceedings{2011, abstract = {{CCS is a resource management system for parallel high-performance computers. At the user level, CCS provides vendor-independent access to parallel systems. At the system administrator level, CCS offers tools for controlling (i.e, specifying, configuring and scheduling) the system components that are operated in a computing center. Hence the name "Computing Center Software". CCS provides: hardware-independent scheduling of interactive and batch jobs; partitioning of exclusive and non-exclusive resources; open, extensible interfaces to other resource management systems; a high degree of reliability (e.g. automatic restart of crashed daemons); fault tolerance in the case of network breakdowns. The authors describe CCS as one important component for the access, job distribution, and administration of networked HPC systems in a metacomputing environment.}}, author = {{Keller, Axel and Reinefeld, Alexander}}, booktitle = {{Proc. Heterogenous Computing Workshop (HCW) at IPPS}}, pages = {{44--56}}, title = {{{CCS Resource Management in Networked HPC Systems}}}, doi = {{10.1109/HCW.1998.666544}}, year = {{1998}}, } @article{2012, abstract = {{With a steadily increasing number of services, metacomputing is now gaining importance in science and industry. Virtual organizations, autonomous agents, mobile computing services, and high-performance client–server applications are among the many examples of metacomputing services. For all of them, resource description plays a major role in organizing access, use, and administration of the computing components and software services. We present a generic Resource and Service Description (RSD) for specifying the hardware and software components of (meta-) computing environments. Its graphical interface allows metacomputer users to specify their resource requests. Its textual counterpart gives service providers the necessary flexibility to specify topology and properties of the available system and software resources. Finally, its internal object-oriented representation is used to link different resource management systems and service tools. With these three representations, our generic RSD approach is a key component for building metacomputer environments.}}, author = {{Brune, Matthias and Gehring, Jörn and Keller, Axel and Monien, Burkhard}}, journal = {{Parallel Computing}}, pages = {{1751--1776}}, publisher = {{Elsevier}}, title = {{{Specifying Resources and Services in Metacomputing Environments}}}, doi = {{10.1016/S0167-8191(98)00076-3}}, volume = {{24}}, year = {{1998}}, } @article{27991, author = {{Buyken, Anette and Toeller, M and Heitkamp, G and Vitelli, F and Stehle, P and Scherbaum, WA and Fuller, JH}}, issn = {{0012-186x}}, journal = {{Diabetologia}}, number = {{8}}, pages = {{882--890}}, title = {{{Relation of fibre intake to HbA1c and the prevalence of severe ketoacidosis and severe hypoglycaemia. EURODIAB IDDM Complications Study Group.}}}, doi = {{10.1007/s001250051003}}, volume = {{41}}, year = {{1998}}, } @article{2437, author = {{Simon, Jens and Wierum, Jens-Michael}}, issn = {{0020-0190}}, journal = {{Information Processing Letters - Special Issue on Models of Computation}}, number = {{5}}, pages = {{255--261}}, publisher = {{Elsevier}}, title = {{{The Latency-of-Data-Access model for Analyzing Parallel Computation}}}, doi = {{10.1016/S0020-0190(98)00062-3}}, volume = {{66}}, year = {{1998}}, } @article{2581, author = {{Betz, Stefan}}, journal = {{Betriebswirtschaftliche Forschung und Praxis}}, pages = {{pp. 344--362}}, title = {{{Konsequenzen der Arbeitszeitflexibilisierung für Produktion und Logistik}}}, volume = {{50}}, year = {{1998}}, } @article{2582, author = {{Betz, Stefan}}, journal = {{Zeitschrift für Planung}}, pages = {{pp. 249--268}}, title = {{{Zielkostenplanung und -kontrolle auf Basis der Erfahrungskurve}}}, volume = {{9}}, year = {{1998}}, } @inproceedings{3255, author = {{Gehrke, Thomas and Huhn, Michaela and Niebert, Peter and Rensink, Arend and Wehrheim, Heike}}, booktitle = {{Formale Beschreibungstechniken f{\"{u}}r verteilte Systeme, 8. GI/ITG-Fachgespr{\"{a}}ch, Cottbus, 4. und 5. Juni 1998}}, editor = {{K{\"{o}}nig, Hartmut and Langend{\"{o}}rfer, Peter}}, pages = {{185----196}}, title = {{{A Process Algebra Semantics for {MSC} Including Conditions}}}, year = {{1998}}, } @inproceedings{3256, author = {{Gehrke, Thomas and Huhn, Michaela and Rensink, Arend and Wehrheim, Heike}}, booktitle = {{Formal Description Techniques and Protocol Specification, Testing and Verification, {FORTE} {XI} / {PSTV} XVIII'98, {IFIP} {TC6} {WG6.1} Joint International Conference on Formal Description Techniques for Distributed Systems and Communication Protocols {(FORTE} {XI)} and Protocol Specification, Testing and Verification {(PSTV} XVIII), 3-6 November, 1998, Paris, France}}, editor = {{Budkowski, Stanislaw and R. Cavalli, Ana and Najm, Elie}}, pages = {{3----18}}, title = {{{An Algebraic Semantics for Message Sequence Chart Documents}}}, year = {{1998}}, } @inproceedings{3257, author = {{Huhn, Michaela and Niebert, Peter and Wehrheim, Heike}}, booktitle = {{Foundations of Software Technology and Theoretical Computer Science, 18th Conference, Chennai, India, December 17-19, 1998, Proceedings}}, editor = {{Arvind, Vikraman and Ramanujam, Ramaswamy}}, pages = {{271----282}}, title = {{{Partial Order Reductions for Bisimulation Checking}}}, doi = {{10.1007/978-3-540-49382-2_26}}, year = {{1998}}, } @inbook{3359, author = {{Gries, Thomas and Meyer, H.}}, booktitle = {{Economic Aspects of Digital Information Technology, DUV}}, editor = {{Gries, Thomas and Suhl, Leena}}, title = {{{Information Technologies, Endogenous Human Capital Depreciation and Unemployment}}}, year = {{1998}}, } @inbook{3360, author = {{Gries, Thomas and Jungblut, Stefan}}, booktitle = {{Economic Aspects of Digital Information Technology, DUV}}, editor = {{Gries, Thomas and Suhl, Leena}}, title = {{{The Impacts of Information Technologies on Innovation Dynamics and Labor Demand}}}, year = {{1998}}, } @inbook{3361, author = {{Gries, Thomas and Jungblut, Stefan}}, booktitle = {{Operations Research Proceedings 1997}}, pages = {{241--246}}, publisher = {{Springer}}, title = {{{The Dynamics of Growth and Employment in a Two-Sector Model of Job Matching}}}, year = {{1998}}, } @book{3382, author = {{Gries, Thomas and Suhl, Leena}}, isbn = {{ 978-3-8244-6848-5 }}, publisher = {{DUV}}, title = {{{Economic Aspects of Digital Information Technology}}}, year = {{1998}}, } @book{3383, author = {{Gries, Thomas}}, isbn = {{978-3-409-12310-5}}, publisher = {{Gabler}}, title = {{{Internationale Wettbewerbsfähigkeit - eine Fallstudie für Deutschland}}}, year = {{1998}}, } @inbook{3396, author = {{Gries, Thomas and Jungblut, Stefan and Meyer, H.}}, booktitle = {{Vestnik Sankt Peterskogo Universiteta – Seraja Ekonomiceskaja, St. Petersburg}}, title = {{{Russland vor der Schuldenfalle?}}}, year = {{1998}}, } @article{3601, author = {{Harteis, Christian and Prenzel, Manfred}}, journal = {{Zeitschrift für Pädagogik, H}}, pages = {{583----601}}, title = {{{Welche Kompetenzen brauchen betriebliche Weiterbildner in Zukunft}}}, year = {{1998}}, }