This thesis concerns the application of High Performance Computing to Discrete Optimization, and the development of massively parallel algorithms designed to accelerate the solving process of Mixed-Integer Programs (MIPs). We begin by presenting a portfolio of scalable parallel primal heuristics, which focus on providing the end-user with high quality feasible solutions to any MIP program quickly. In some cases, we show our algorithms to be several orders of magnitude more effective than current state-of-the-art approaches. The first of the contributions in this category is a specialized primal heuristic for the Fixed Charge Multicommodity Network Flow problem. The presented computational experiments back the superior effectiveness of our m...
In this work, we will look at a class of very hard practical problems which can, currently, only be ...
Global optimization problems arise in a wide range of real-world problems. They include applications...
Optimization is a fundamental tool in modern science. Numerous important tasks in biology, economy, ...
Combinatorial Optimization is becoming ever more crucial, in these days. From natural sciences to ec...
This research explores the idea that for certain optimization problems there is a way to parallelize...
Discrete optimization problems (DOPs) arise in various applications such as planning, scheduling, co...
Discrete optimization problems arise in a variety of domains such as VLSI design, transportation, sc...
The present paper discusses the implementation of the discrete search optimization techniques on a p...
Many modern services need to routinely perform tasks on a large scale. This prompts us to consider t...
Solving large combinatorial optimization problems is a ubiquitous task across multiple disciplines. ...
Discrete Optimization algorithms underlie intelligent decision-making in a wide variety of domains. ...
In this thesis, we address two challenges: solving multi-objective integer programs and solving larg...
Constraint satisfaction and combinatorial optimization problems, even when modeled with efficient m...
Mixed Integer Programming (MIP) problems occur in many industries and their practical solution can b...
Solving exactly large scale instances of combinatorial optimization problems requires a huge amount ...
In this work, we will look at a class of very hard practical problems which can, currently, only be ...
Global optimization problems arise in a wide range of real-world problems. They include applications...
Optimization is a fundamental tool in modern science. Numerous important tasks in biology, economy, ...
Combinatorial Optimization is becoming ever more crucial, in these days. From natural sciences to ec...
This research explores the idea that for certain optimization problems there is a way to parallelize...
Discrete optimization problems (DOPs) arise in various applications such as planning, scheduling, co...
Discrete optimization problems arise in a variety of domains such as VLSI design, transportation, sc...
The present paper discusses the implementation of the discrete search optimization techniques on a p...
Many modern services need to routinely perform tasks on a large scale. This prompts us to consider t...
Solving large combinatorial optimization problems is a ubiquitous task across multiple disciplines. ...
Discrete Optimization algorithms underlie intelligent decision-making in a wide variety of domains. ...
In this thesis, we address two challenges: solving multi-objective integer programs and solving larg...
Constraint satisfaction and combinatorial optimization problems, even when modeled with efficient m...
Mixed Integer Programming (MIP) problems occur in many industries and their practical solution can b...
Solving exactly large scale instances of combinatorial optimization problems requires a huge amount ...
In this work, we will look at a class of very hard practical problems which can, currently, only be ...
Global optimization problems arise in a wide range of real-world problems. They include applications...
Optimization is a fundamental tool in modern science. Numerous important tasks in biology, economy, ...