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Luai Malhis

Former group member (Ph.D., 1996).

Now Head of the Computer Engineering Department,
An-Najah National University

 

Publications with the Performability Engineering Research Group

Dependability Evaluation Using Composed SAN-Based Reward Models.
W. H. Sanders and L. M. Malhis. (92SAN01)
Journal of Parallel and Distributed Computing, Special Issue on Petri Net Models of Parallel and Distributed Computers, vol. 15, no. 3, July 1992, pp. 238-254.
Example dependability evaluations of three fault-tolerant architectures: the SNARC multiprocessor, a distributed database system, and a multiprocessor connected via an interconnection network.

Modeling OAM Using Stochastic Activity Networks and UltraSAN.
L. M. Malhis, W. H. Sanders, B. P. Shah, and S. C. West.
PMRL Technical Report 93-1, Dept. of Electrical and Computer Engineering, University of Arizona, Tucson, AZ, Mar. 1993.

UltraSAN Models for OAM Modeling Project.
L. M. Malhis, W. H. Sanders, B. P. Shah, and S. C. West.
PMRL Technical Report 93-2, Dept. of Electrical and Computer Engineering, University of Arizona, Tucson, AZ, Mar. 1993.

Modeling Recycle Using Stochastic Activity Networks and UltraSAN.
L. A. Kant, L. M. Malhis, W. H. Sanders, B. P. Shah, and S. C. West.
PMRL Technical Report 93-19, Dept. of Electrical and Computer Engineering, University of Arizona, Tucson, AZ, Dec. 1993.

UltraSAN Models for Recycle Modeling Project.
L. A. Kant, L. M. Malhis, W. H. Sanders, B. P. Shah, and S. C. West.
PMRL Technical Report 93-18, Dept. of Electrical and Computer Engineering, University of Arizona, Tucson, AZ, Dec. 1993.

Modeling Recycle: A Case Study in the Industrial Use of Measurement and Modeling.
L. M. Malhis, S. C. West, L. A. Kant, and W. H. Sanders. (95MAL01)
Proceedings of the International Computer Performance and Dependability Symposium, Erlangen, Germany, April 24-26, 1995, pp. 285-294.
A case study of IBM's DFSMShsm, a system for efficient utilization of magnetic tape cartridges.

Numerical Evaluation of a Group-Oriented Multicast Protocol Using Stochastic Activity Networks.
L. M. Malhis, W. H. Sanders, and R. D. Schlichting. (95MAL02)
Proceedings of the Sixth International Workshop on Petri Nets and Performance Models, Durham, NC, October 3-6, 1995, pp. 63-72.
Evaluation of Psync, a group multicast protocol using stochastic activity networks. Illustrates the effectiveness of reduced base model construction methods.

Development and Application of an Efficient Method for the Solution of Stochastic Activity Networks with Deterministic Activities.
L. Malhis. (96MAL02)
Doctoral Dissertation, University of Arizona, 1996.

Numerical Performability Evaluation of a Group Multicast Protocol.
L. M. Malhis, W. H. Sanders, and R. D. Schlichting. (95MAL03)
IEE Distributed Systems Engineering Journal, Special Issue on Performance Modelling of Distributed Systems (ed. Peter G. Harrison), vol. 3, no. 1, March 1996, pp. 39-52.

An Efficient Two-Stage Iterative Method for the Steady-State Analysis of Markov Regenerative Stochastic Petri Net Models.
L. Malhis and W. H. Sanders. (96MAL01)
Performance Evaluation, vols. 27&28, October 1996, pp. 583-601.
New space- and time-efficient solution method for Markov regenerative stochastic Petri nets.

 
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