Microkernel Construction

  • Type: Lecture
  • Chair: System Architecture
  • Semester: ST 2009
  • Place:

    HS -101 (Bldg. 50.34, UG)

  • Time:

    Friday, 11.30 - 13.00

  • Start: 24.04.2009
  • Lecturer:

    Prof. Dr. Frank Bellosa, Raphael Neider

  • SWS: 2
  • ECTS: 3
  • Lv-No.: 24607
Lecture Microkernel Construction ST 2009
Date Speaker Title Source

01.05.2009

10.07.2009

Hr. Bornträger

10.07.2009

Hr. Goebel

17.07.2009

Hr. Bornträger

17.07.2009

Hr. Vaupel

24.07.2009

Hr. Vaupel

25.04.2009

Raphael Neider

pdf

08.05.2009

Raphael Neider

pdf

15.05.2009

Raphael Neider

pdf

22.05.2009

Raphael Neider

pdf

29.05.2009

Raphael Neider

pdf

05.06.2009

Raphael Neider

pdf

12.06.2009

Raphael Neider

pdf

19.06.2009

Raphael Neider

pdf

26.06.2009

Raphael Neider

pdf

26.06.2009

Raphael Neider

pdf

03.07.2009

Raphael Neider

pdf

24.07.2009

Raphael Neider, Hr. Goebel

pdf

Contents

In this lecture, we will present selected design and implementation issues of microkernels with a focus on the L4 microkernel.
After motivating microkernels as the foundation of operating systems, we will cover L4's fundamental abstractions (threads and address spaces) and related topics such as kernel entry (syscall), thread switching, and kernel memory management. After that, we will present L4's inter-process communication (IPC) and memory mapping mechanisms, which allow manipulation of the previously discussed abstractions.
The following topics outline some of the aspects relevant for implementing general purpose operating systems on top of L4: scheduling, hardware-dependent as well as -independent optimizations (small spaces, local IPC), and provisions for managing I/O devices at user-level. This outline is complemented by a discussion of security in a microkernel-based system, with a focus on controlling data flow (confidentiality).
We are proud to announce that this year's lecture will include a series of talks given by three members of the IBM Lab in Böblingen. On 2009-07-10, 2009-07-17, and 2009-07-24 at both 11:30h and 14:00h, the IBM scientists will introduce their audience to the System z mainframes, shedding some light on the overall hard- and software architecture, memory management, load balancing and accounting in the context of “Virtualization on System z”.

Literature about "Microkernel Construction"

 Author(s)  Title / Source
 Joshua LeVasseur

 IA32 Condensed for Kernel Developers, System Architecture Group (updated on May 3, 2006)

 Jochen Liedtke et al.  The Performance of µ-Kernel-Based Systems, Proceedings of the 16th ACM Symposium on Operating System Principles (SOSP), St. Malo, France, October 1997
 Jochen Liedtke  On µ-Kernel Construction, Proceedings of the 15th ACM Symposium on Operating System Principles (SOSP), Copper Mountain Resort, CO, December 1995
 Jochen Liedtke  Improving IPC by Kernel Design, Proceedings of the 14th ACM Symposium on Operating System Principles (SOSP), Asheville, NC, December 1993
 Jochen Liedtke  Toward Real µ-Kernels, Communications of the ACM, 39(9), pp. 70-77, September 1996
 Jochen Liedtke et al.  The SawMill Framework for Virtual Memory Diversity, Proceedings of the 6th Australasian Computer Systems Architecture Conference (ACSAC 2001), Bond University, Gold Coast, Queensland, January 29 - February 2, 2001
   
 Intel Corporation  Intel® 64 and IA-32 Architectures Software Developer's Manual, Volume 1: Basic Architecture
 Intel Corporation  Intel® 64 and IA-32 Architectures Software Developer's Manual, Volume 2A: Instruction Set Reference, A-M
 Intel Corporation  Intel® 64 and IA-32 Architectures Software Developer's Manual, Volume 2B: Instruction Set Reference, N-Z
 Intel Corporation  Intel® 64 and IA-32 Architectures Software Developer's Manual, Volume 3A: System Programming Guide, Part 1
 Intel Corporation  Intel® 64 and IA-32 Architectures Software Developer's Manual, Volume 3B: System Programming Guide, Part 2