Probability Models for Multiprogramming Computer Systems
Journal of the ACM (JACM)
Analysis of Two Time-Sharing Algorithms Designed for Limited Swapping
Journal of the ACM (JACM)
Properties of the working-set model
Communications of the ACM
Efficient multiprogramming resource allocation and accounting
Communications of the ACM
A policy-driven scheduler for a time-sharing system
Communications of the ACM
The working set model for program behavior
Communications of the ACM
Operating Systems: On overcoming high-priority paralysis in multiprogramming systems: a case history
Communications of the ACM
DAC '72 Proceedings of the 9th Design Automation Workshop
Trace driven modeling and analysis of CPU scheduling in a multi-programming system
Proceedings of the SIGOPS workshop on System performance evaluation
ACM '66 Proceedings of the 1966 21st national conference
Two approaches for measuring the performance of time-sharing systems
SOSP '69 Proceedings of the second symposium on Operating systems principles
Performance monitors for multi-programming systems
SOSP '69 Proceedings of the second symposium on Operating systems principles
Snuper computer: a computer in instrumentation automaton
AFIPS '67 (Spring) Proceedings of the April 18-20, 1967, spring joint computer conference
Computer scheduling methods and their countermeasures
AFIPS '68 (Spring) Proceedings of the April 30--May 2, 1968, spring joint computer conference
A contiuum of time-sharing scheduling algorithms
AFIPS '70 (Spring) Proceedings of the May 5-7, 1970, spring joint computer conference
AFIPS '71 (Spring) Proceedings of the May 18-20, 1971, spring joint computer conference
Modeling for computing center planning
IBM Systems Journal
A heuristic approach to task dispatching
IBM Systems Journal
Firm Real-Time System Scheduling Based on a Novel QoS Constraint
RTSS '03 Proceedings of the 24th IEEE International Real-Time Systems Symposium
Firm Real-Time System Scheduling Based on a Novel QoS Constraint
IEEE Transactions on Computers
Application-Tailored I/O with Streamline
ACM Transactions on Computer Systems (TOCS)
Toward balanced and sustainable job scheduling for production supercomputers
Parallel Computing
Hi-index | 14.98 |
-Real-time optimization of the overall performance of a large computer system or network such as an air-traffic control system or teleprocessing network inherently requires the introduction of adaptive control into selected control functions or sets of control functions. Such adaptive control is necessitated by the high variance of the available resource inventory and the workload resource demands within the system environment. Global management of the resulting multiloop control system becomes the responsibility of the operating system. Investigated aspects of this evolutionary extension of the operating system called the dynamically adaptive operating system (DAOS) include the general methodology and the real-time modeling and estimation of resource demands. The methodology specifies the general identification, decision, and modification processes required for an adaptive operating system. Support of such processes could be attractively provided by a peripheral or miniprocessor. The problem of estimating resource service times both with and without partial service times is explored and statistical models possessing utility for real-time modeling are developed. In particular, a dynamically partitioned second moment model (DPSMM) is described. The feasibility of such models is established with respect to a General Principle of Locality. Selected simulation results are presented to evaluate selected developments with respect to an adaptive central processing unit (CPU) scheduling discipline.