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Now showing items 41-50 of 169
LOCFES-B: a computational tool for comparison of closed linear one-cell functional methods
(Texas A&M University, 1992)
Not available
Straight-line separation of two polyhedra
(Texas A&M University, 1992)
Not available
Implementation and testing of a parallel layer peeling algorithm
(Texas A&M University, 1996)
The objective of this thesis is to examine the feasibility of parallelizing a previously published sequential algorithm. This algorithm uses invariant imbedding to solve an inverse problem associated with the first order, ...
On the internet grouping for reliable multicasting
(Texas A&M University, 1996)
Current implementation of multicasting is using UDP protocol which is unreliable. There are many problems in reliable multicasting that make it difficult to implement. A study of the problems of reliable multicasting and ...
Hypertext navigation by network structure
(Texas A&M University, 1991)
Not available
The Information Systems Constraint Language (ISyCL)
(Texas A&M University, 1993)
The Information Systems Constraint Language (ISyCL) is designed to support three primary activities: (1)adding textual constraints to models developed using graphical methods, (2)providing a neutral format for representing ...
A new generation of load sharing algorithms: the semi-adaptive load sharing algorithm
(Texas A&M University, 1997)
Distributed systems have become a popular computing environment. Due to their high potentials in improving performance and resource sharing, the evolution and maturing of technologies such as networks and computer hardware, ...
Improving performance of transmission control protocol (TCP) over mobile wireless networks
(Texas A&M University, 1996)
Not available
Self-stabilizing clock phase synchronization in a distributed ring
(Texas A&M University, 1994)
This thesis deals with the synchronization of phases of digital clocks or periodic events in a distributed system which has a ring topology. The clocks considered are bounded and synchronous i.e., run at the same rate. And ...
An analysis of the parallel scalability of spatial domain decomposition for the neutron transport equation
(Texas A&M University, 1997)
Not available