WIRTSCHAFTSINFORMATIK

, Volume 53, Issue 6, pp 383–390 | Cite as

In-Memory-Datenmanagement in betrieblichen Anwendungssystemen

  • Peter Loos
  • Jens Lechtenbörger
  • Gottfried Vossen
  • Alexander Zeier
  • Jens Krüger
  • Jürgen Müller
  • Wolfgang Lehner
  • Donald Kossmann
  • Benjamin Fabian
  • Oliver Günther
  • Robert Winter
Meinung/Dialog

Literatur

zu: Abschnitt 1

  1. Bube L (2010) In: Memory Datenbanken. Interview-Schlammschlacht: Plattner vs Ellison. http://www.crn.de/panorama/artikel-83521.html. Abruf am 2011-09–01
  2. Loos P, Nebel W, Marx Gómez J, Hasan H, Watson RT, von Brocke J, Seidel S, Recker J (2011) Green IT: Ein Thema für die Wirtschaftsinformatik? WIRTSCHAFTSINFORMATIK 53(4):239–247 CrossRefGoogle Scholar
  3. Plattner H, Zeier A (2011) In-memory data management – an inflection point for enterprise applications. Springer, Heidelberg Google Scholar
  4. Stonebraker M (2011) My top 10 assertions about data warehouses. Communications of the ACM 54(5):10–11 CrossRefGoogle Scholar

zu: Abschnitt 2

  1. Bernstein PA et al. (1998) The Asilomar report on database research. ACM SIGMOD Record 27(4):74–80 CrossRefGoogle Scholar
  2. Boncz PA, Manegold S, Kersten ML (2009) Database architecture evolution: mammals flourished long before dinosaurs became extinct. PVLDB 2(2):1648–1653 Google Scholar
  3. Eich MH (1987a) A classification and comparison of main memory database recovery techniques. In: Proc 3rd IEEE international conference on data engineering, S 332–339 Google Scholar
  4. Eich MH (1987b) MARS: the design of a main memory database machine. In: Proc 5th international workshop on database machines, S 325–338 Google Scholar
  5. Hur I, Lin C (2008) A comprehensive approach to DRAM power management. In: Proc 14th international conference on high-performance computer architecture (HPCA), S 305–316 Google Scholar
  6. Kemper A, Neumann T (2011) HyPer: a hybrid OLTP&OLAP main memory database system based on virtual memory snapshots. In: Abiteboul S, Böhm K, Koch C, Tan K-L (Hrsg) Proc 27th international conference on data engineering, Hannover, S 195–206 CrossRefGoogle Scholar
  7. Ousterhout J et al. (2009) The case for RAMClouds: scalable high-performance storage entirely in DRAM. ACM SIGOPS Operating Systems Review 43(4):92–105 CrossRefGoogle Scholar
  8. Plattner H, Zeier A (2011) In-memory data management: an inflection point for enterprise applications. Springer, Berlin Google Scholar

zu: Abschnitt 3

  1. Plattner H, Zeier A (2011) In-memory data management: an inflection point for enterprise applications. Springer, Berlin Google Scholar

zu: Abschnitt 5

  1. Plattner H (2009) A common database approach for OLTP and OLAP using an in-memory column database. In: Cetintemel U, Zdonik SB, Kossmann D, Tatbul N (Hrsg) Proc ACM SIGMOD international conference on management of data (SIGMOD 2009), Providence, S 1–2 Google Scholar
  2. Vijayshankar R, Swart G, Qiao L, Reiss F, Dialani V, Kossmann D, Narang I, Sidle R (2008) Constant-time query processing. In: Proc 24th international conference on data engineering (ICDE 2008), Cancun, S 60–69 Google Scholar
  3. Unterbrunner P, Giannikis G, Alonso G, Fauser D, Kossmann D (2009) Predictable performance for unpredictable workloads. PVLDB 2(1):706–717 Google Scholar
  4. Kemper A, Neumann T (2011) HyPer: a hybrid OLTP & OLAP main memory database system based on virtual memory snapshots. In: Abiteboul S, Böhm K, Koch C, Tan K-L (Hrsg) Proc 27th international conference on data engineering (ICDE 2011), Hannover, S 195–206 Google Scholar
  5. Stonebraker M, Madden S, Abadi DJ, Harizopoulos S, Hachem N, Helland P (2007) The end of an architectural era (it’s time for a complete rewrite). In: Koch C, Gehrke J, Garofalakis MN, Srivastava D, Aberer K, Deshpande A, Florescu D, Chan CY, Ganti V, Kanne C-C, Klas W, Neuhold EJ (Hrsg) Proc 33rd international conference on very large data bases (VLDB 2007), Vienna, S 1150–1160 Google Scholar

zu: Abschnitt 7

  1. Eckerson W (2009) TDWI BI benchmark report. TDWI, Chatsworth Google Scholar
  2. Finucane B, Bange C, Mack M, Keller P, Vierkorn S (2010) The BI-survey 9. Business application research center, BARC GmbH Google Scholar
  3. Lahrmann G, Marx F, Mettler T, Winter R, Wortmann F (2011a) Inductive design of maturity models – applying the Rasch algorithm for design science research. In: Jain H, Sinha A, Vitharana P (Hrsg) Service-oriented perspectives in design science research. Springer, Heidelberg, S 176–191 CrossRefGoogle Scholar
  4. Lahrmann G, Winter R, Uhl A (2011b) Transformationsmanagement – Aktueller Stand der Praxis und Potenziale. Wirtschaftsinformatik & Management 3(3):62–67 Google Scholar
  5. Plattner H (2009) A common database approach for OLTP and OLAP using an in-memory column database. In: Proc ACM SIGMOD international conference on management of data (SIGMOD 2009), Providence, S 1–7 Google Scholar
  6. Scheer AW (1976) Produktionsplanung auf der Grundlage einer Datenbank des Fertigungsbereichs. Oldenbourg, München Google Scholar
  7. Scheer AW (1995) Wirtschaftsinformatik. Springer, Heidelberg Google Scholar
  8. Winter R, Klesse M (2009) Organizing data warehouse service providers. Business Intelligence Journal 14(3):31–39 Google Scholar
  9. Winter R, Schmaltz M, Dinter B, Bucher T (2008) Das St. Galler Konzept der Informationslogistik. In: Dinter B, Winter R (Hrsg) Integrierte Informationslogistik. Springer, Heidelberg, S 1–16 CrossRefGoogle Scholar

Copyright information

© Gabler Verlag 2011

Authors and Affiliations

  • Peter Loos
    • 1
  • Jens Lechtenbörger
  • Gottfried Vossen
  • Alexander Zeier
  • Jens Krüger
  • Jürgen Müller
  • Wolfgang Lehner
  • Donald Kossmann
  • Benjamin Fabian
  • Oliver Günther
  • Robert Winter
  1. 1.Institut für Wirtschaftsinformatik im DFKIUniversität des SaarlandesSaarbrückenDeutschland

Personalised recommendations