Spelling suggestions: "subject:"kernel < informatik> "" "subject:"kernel < bioinformatik> ""
1 |
Kernel methods for high-dimensional biological dataMahammad Beigi, Majid. January 2008 (has links)
Tübingen, Univ., Diss., 2008.
|
2 |
Kernel methods in chemo- and bioinformaticsFröhlich, Holger January 2006 (has links)
Zugl.: Tübingen, Universität, Diss., 2006
|
3 |
Booting Linux Really FastParthey, Daniel 11 April 2006 (has links) (PDF)
Diese Arbeit untersucht die Dauer von Bootvorgängen auf Linux-Systemen vom Einschalten des Rechners bis zur Benutzeranmeldung. Zeitintensive Abschnitte des Bootvorganges werden untersucht und Methoden zur Beschleunigung diskutiert. Dies beinhaltet eine Analyse verschiedener BIOS Versionen, der Kernel-Initialisierung und unterschiedliche Ansätze, Dienste zu starten. Es werden Startvorgänge eines gewöhnlichen Desktop-Systems mit einem eingebetteten VIA EPIA-ML-6000EA Mini-ITX System verglichen. / This research project evaluates startup times of the linux boot process from power-on until user login. Time consuming parts of the boot process are investigated and methods how to speed up the whole process are discussed. It includes an analysis and comparison of different BIOSes, the kernel startup sequence and different approaches to start user space services. This project also compares the startup times of everyday desktop systems with the EPIA-ML6000EA Mini-ITX board, an embedded x86-compatible system.
|
4 |
Booting Linux Really FastParthey, Daniel 11 April 2006 (has links)
Diese Arbeit untersucht die Dauer von Bootvorgängen auf Linux-Systemen vom Einschalten des Rechners bis zur Benutzeranmeldung. Zeitintensive Abschnitte des Bootvorganges werden untersucht und Methoden zur Beschleunigung diskutiert. Dies beinhaltet eine Analyse verschiedener BIOS Versionen, der Kernel-Initialisierung und unterschiedliche Ansätze, Dienste zu starten. Es werden Startvorgänge eines gewöhnlichen Desktop-Systems mit einem eingebetteten VIA EPIA-ML-6000EA Mini-ITX System verglichen. / This research project evaluates startup times of the linux boot process from power-on until user login. Time consuming parts of the boot process are investigated and methods how to speed up the whole process are discussed. It includes an analysis and comparison of different BIOSes, the kernel startup sequence and different approaches to start user space services. This project also compares the startup times of everyday desktop systems with the EPIA-ML6000EA Mini-ITX board, an embedded x86-compatible system.
|
5 |
ESPGOALSchneider, Timo, Eckelmann, Sven 18 May 2011 (has links) (PDF)
Optimized implementations of blocking and nonblocking collective operations are most important for scalable high-performance applications. Offloading such collective operations into the communication layer can improve performance and asynchronous progression of the operations. However, it is most important that such offloading schemes remain flexible in order to support user-defined (sparse neighbor) collective communications. In this work, we describe an operating system kernel-based architecture for implementing an interpreter for the flexible Group Operation Assembly Language (GOAL) framework to offload collective communications. We describe an optimized scheme to store the schedules that define the collective operations and show an extension to profile the performance of the kernel layer. Our microbenchmarks demonstrate the effectiveness of the approach and we show performance improvements over traditional progression in user-space. We also discuss complications with the design and offloading strategies in general.
|
6 |
ESPGOAL: A Dependency Driven Communication FrameworkSchneider, Timo, Eckelmann, Sven 01 June 2011 (has links)
Optimized implementations of blocking and nonblocking collective operations are most important for scalable high-performance applications. Offloading such collective operations into the communication layer can improve performance and asynchronous progression of the operations. However, it is most important that such offloading schemes remain flexible in order to support user-defined (sparse neighbor) collective communications. In this work, we describe an operating system kernel-based architecture for implementing an interpreter for the flexible Group Operation Assembly Language (GOAL) framework to offload collective communications. We describe an optimized scheme to store the schedules that define the collective operations and show an extension to profile the performance of the kernel layer. Our microbenchmarks demonstrate the effectiveness of the approach and we show performance improvements over traditional progression in user-space. We also discuss complications with the design and offloading strategies in general.:1 Introduction
1.1 Related Work
2 The GOAL API
2.1 API Conventions
2.2 Basic GOAL Functionality
2.2.1 Initialization
2.2.2 Graph Creation
2.2.3 Adding Operations
2.2.4 Adding Dependencies
2.2.5 Scratchpad Buffer
2.2.6 Schedule Compilation
2.2.7 Schedule Execution
2.3 GOAL-Extensions
3 ESP Transport Layer
3.1 Receive Handling
3.2 Transfer Management
3.2.1 Known Problems
4 The Architecture of ESPGOAL
4.1 Control Flow
4.1.1 Loading the Kernel Module
4.1.2 Adding a Communicator
4.1.3 Starting a Schedule
4.1.4 Schedule Progression
4.1.5 Progression by ESP
4.1.6 Unloading the Kernel Module
4.2 Data Structures
4.2.1 Starting a Schedule
4.2.2 Transfer Management
4.2.3 Stack Overflow Avoidance
4.3 Interpreting a GOAL Schedule
5 Implementing Collectives in GOAL
5.1 Recursive Doubling
5.2 Bruck's Algorithm
5.3 Binomial Trees
5.4 MPI_Barrier
5.5 MPI_Gather
6 Benchmarks
6.1 Testbed
6.2 Interrupt coalescing parameters
6.3 Benchmarking Point to Point Latency
6.4 Benchmarking Local Operations
6.5 Benchmarking Collective Communication Latency
6.6 Benchmarking Collective Communication Host Overhead
6.7 Comparing Different Ways to use Ethernet NICs
7 Conclusions and Future Work
8 Acknowledgments
|
7 |
Chemnitzer Linux-Tage 2010Demierre, Andéol, Eggers, Monika, Garbe, Anselm R., Groß, Thomas, Jaenisch, Volker, Jung, Marco, Knopper, Klaus, Lang, Jens, Luithardt, Wolfram, Noble, Howard, Obst, Marcus, Pucklitzsch, Thomas, Schlittermann, Heiko, Schumacher, Stefan, Seidel, Philipp, Spillner, Josef, Tang, Kang, Walle, Bernhard, Wetzel, Ulrich 16 April 2010 (has links) (PDF)
Die Chemnitzer Linux-Tage fanden am 13. und 14. März 2010 auf dem
Campus der Technischen Universität Chemnitz statt. Neben den Präsentationen
im Foyer zogen vor allem die Vorträge über 2500 Besucher zur 12. Auflage
der Veranstaltung.
Der Band vereint den Inhalt von 15 Hauptvorträgen und die Abstrakts von
76 weiteren Beiträgen und stellt damit einen Überblick über das weit
gefächerte Programm der Veranstaltung dar. / The Chemnitz Linux Days took place at the campus of the Chemnitz University
of Technology. Besides the presentations at the foyer the lectures were
first of all attractive for more than 2.500 visitors.
This volume contains the content of 15 main lectures and abstracts of 76
further talks and hence gives a survey of the broadly based program
of this event.
|
8 |
Chemnitzer Linux-Tage 2010: Tagungsband – 13. und 14. März 2010Demierre, Andéol, Eggers, Monika, Garbe, Anselm R., Groß, Thomas, Jaenisch, Volker, Jung, Marco, Knopper, Klaus, Lang, Jens, Luithardt, Wolfram, Noble, Howard, Obst, Marcus, Pucklitzsch, Thomas, Schlittermann, Heiko, Schumacher, Stefan, Seidel, Philipp, Spillner, Josef, Tang, Kang, Walle, Bernhard, Wetzel, Ulrich 16 April 2010 (has links)
Die Chemnitzer Linux-Tage fanden am 13. und 14. März 2010 auf dem
Campus der Technischen Universität Chemnitz statt. Neben den Präsentationen
im Foyer zogen vor allem die Vorträge über 2500 Besucher zur 12. Auflage
der Veranstaltung.
Der Band vereint den Inhalt von 15 Hauptvorträgen und die Abstrakts von
76 weiteren Beiträgen und stellt damit einen Überblick über das weit
gefächerte Programm der Veranstaltung dar. / The Chemnitz Linux Days took place at the campus of the Chemnitz University
of Technology. Besides the presentations at the foyer the lectures were
first of all attractive for more than 2.500 visitors.
This volume contains the content of 15 main lectures and abstracts of 76
further talks and hence gives a survey of the broadly based program
of this event.
|
Page generated in 0.1169 seconds