Dr. Shahid H. Bokhari (born January 17, 1953 in Lahore, Pakistan ) is an internationally acclaimed and highly cited Pakistani researcher in the field of parallel and distributed computing. He is a fellow of both IEEE and ACM. Dr. Bokhari's ACM Fellow citation states that he received the award for his "research contributions to automatic load balancing and partitioning of distributed processes", while his IEEE Fellow award recognizes his "contributions to the mapping problem in parallel and distributed computing".
At the time of his retirement in 2005, Professor Bokhari was the only IEEE/ACM Fellow and the only Pakistani ISI Highly Cited Researcher resident in Pakistan. Dr. Bokhari's resignation led to a letter-writing campaign by several of his former students who were dismayed at what they claimed to be mismanagement at the state-run Pakistani universities.
A biography of Bokhari can be found at the Department of Biomedical Informatics, Ohio State University, where Dr. Bokhari has been a visiting researcher.
He was with the Department of Electrical Engineering, University of Engineering and Technology, Lahore, Pakistan from 1980 to 2005 where he held the position of a Professor. He also served as Director of the Computer Systems Laboratory, Communications Laboratory and the Postgraduate Program at the Department of Electrical Engineering as well as the Directorate of Research Extension & Advisory Services of the University of Engineering and Technology, Lahore. He purportedly tendered his resignation from the Department of Electrical Engineering University of Engineering and Technology, Lahore over a dispute with the administration, notably the Vice-Chancellor Lt. Gen. (retd.) M. Akram and the Chairman of Department of Electrical Engineering Prof. M. Saleem Mian, and dissatisfaction with the policies of the country's Higher Education Commission (HEC). Dr. Shahid Bokhari maintains he did not resign under protest for not being appointed Chairman of Department, although his critics claim otherwise. Dr. Bokhari has been associated with the Institute for Computer Applications in Science & Engineering (ICASE) at NASA Langley Research Center in Hampton, Virginia, where he spent a total of about seven years as a visiting scientist or consultant over the period 1978-1998. Other institutions that he has been associated with as a researcher include the University of Colorado (USA), Stuttgart University (Germany), University of Vienna (Austria), and the Electrotechnical Laboratory in Tsukuba, Japan.
One of Dr. Bokhari's most-cited research publication: "On the Mapping Problem" (1981) concerns the assignment of subtasks for distributed computation to processors in such a way that the subtasks that communicate with each other are, to the extent possible, assigned to the processors that are adjacent to each other within the communication network. His paper relates this problem to more abstract graph-theoretical problems, in particular, graph isomorphism. He also relates the problem to the representation of sparse linear systems as band matrices with low bandwidth, and to the quadratic assignment problem. This is the work for which Dr. Bokhari was cited in his IEEE Fellow award.
Several other highly-cited papers of Dr. Bokhari concern the Partitioning and Load Balancing Problems in Distributed Computing, the topic mentioned in his ACM Fellow award citation. As with the Mapping Problem, this concerns assignment of tasks to processors, but in a more general setting in which a processor may handle multiple tasks; the problem is to perform this assignment in such a way that heavily-communicating pairs of tasks are assigned to the same processor, while keeping the amount of work assigned to processors relatively even.
Dr. Bokhari's research with Marsha Berger (Berger and Bokhari 1987) concerns versions of the partitioning problem in which different tasks may have greatly differing workloads; he gives as an application the distributed solution of nonlinear partial differential equations. The technique introduced in this paper, recursive coordinate bisection, repeatedly divides the geometric problem domain along coordinate axes into two subdomains of equal workload until the number of subdomains formed equals the number of processors. However, as Simon writes, although this method is conceptually very simple it tends to produce long and thin or even disconnected subdomains. A later refinement of this technique, parametric binary dissection (Bokhari, Crockett, and Nicol 1993) combines shape information with load balancing in its partitioning decisions in an attempt to mitigate this problem. Another of Bokhari's papers (Bokhari 1988), his third most-highly cited, provides an algorithm that optimally solves the partitioning problem for several broad classes of distributed algorithm.
A longer list of his publications is available from the DBLP Bibliography Server. Citation counts are derived from a Google Scholar search.