N. Shankaran, J. Balasubramanian, D. Schmidt, G. Biswas
Middleware is increasingly used to develop and deploy components in large-scale distributed real-time and embedded (DRE) systems. A key challenge in component deployment for DRE systems is devising...
N. Shankaran, J. Balasubramanian, D. Schmidt, G. Biswas, P. Lardieri, E. Mulholl, ...
This paper describes the Resource Allocation and Control Engine (RACE) that integrates multiple resource management algorithms for (re)deploying and managing performance of application components in...
Scheduling optimization under uncertainty: An alternative approach (2003)
J. Balasubramanian, I. E. Grossmann
The prevalent approach to the treatment of processing time uncertainties in production scheduling problems is through the use of probabilistic models. Apart from requiring detailed information about...
Scheduling optimization under uncertainty: An alternative approach (2003)
J. Balasubramanian, I. E. Grossmann
The prevalent approach to the treatment of processing time uncertainties in production scheduling problems is through the use of probabilistic models. Apart from requiring detailed information about...
J. Balasubramanian, I. E. Grossmann
We address the problem of scheduling a flowshop plant with uncertain process-ing times described by discrete probability distributions. The objective is to find a sequence of batches that minimizes...
The Linear System Analyzer (1998)
R. Bramley, D. Gannon, T. Stuckey, J. Villacis, E. Akman, J. Balasubramanian, ...
The Linear System Analyzer (LSA) is a component-based problem-solving environment (PSE) for the manipulation and solution of large sparse linear systems of equations. Both the underlying component...
The Linear System Analyzer (1998)
R. Bramley, D. Gannon, T. Stuckey, J. Villacis, E. Akman, J. Balasubramanian, ...
The Linear System Analyzer (LSA) is a component-based problem-solving environment (PSE) for the manipulation and solution of large sparse linear systems of equations. Both the underlying component...
Component Architectures for Distributed Scientific Problem Solving (1998)
R. Bramley, D. Gannon, T. Stuckey, J. Villacis, J. Balasubramanian, E. Akman, ...
this paper we examine the concepts behind the component technology programming paradigm and illustrate them with a prototype system solving the linear algebra algorithm selection problem. We begin...
Component Architectures for Distributed Scientific Problem Solving (1998)
D. Gannon, R. Bramley, T. Stuckey, J. Villacis, J. Balasubramanian, E. Akman, ...
Component based technologies will play an increasingly significant role in the design and implementation of large scale distributed software systems during the next few years. The advantages of this...
The linear system analyzer (1998)
R. Bramley, D. Gannon, T. Stuckey, J. Villacis, E. Akman, J. Balasubramanian, ...
The Linear System Analyzer (LSA) is a component-based problem-solving environ-ment (PSE) for the manipulation and solution of large sparse linear systems of equa-tions. Both the underlying component...