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Spreadsheet Modeling & Decision Analysis:
... research to avoid making a decision. The best decision-making happens when the mental environment is focused. …That fined-tuned focus doesn’t leave room for fears and doubts to enter. Doubts knock at the door of our consciousness, but you don't have to have them in for tea and ...
... research to avoid making a decision. The best decision-making happens when the mental environment is focused. …That fined-tuned focus doesn’t leave room for fears and doubts to enter. Doubts knock at the door of our consciousness, but you don't have to have them in for tea and ...
Statistical Computing and Simulation
... Evaluate the following quantities by both numerical and Monte Carlo integration, and compare their errors with respect to the numbers of observations used. Also, propose at least two simulation methods to reduce the variance of Monte Carlo integration and compare their variances. ...
... Evaluate the following quantities by both numerical and Monte Carlo integration, and compare their errors with respect to the numbers of observations used. Also, propose at least two simulation methods to reduce the variance of Monte Carlo integration and compare their variances. ...
Homework 3:
... Use the inverse transform random variate generation technique together withthe Monte Carlo simulation method to determine the reliability in a system consisting of three components, 1,2,3 with Weibull failure probability distribution functions given as follows: F1 = 1 − exp(−t0.5 ) F2 = 1 − exp(−t) ...
... Use the inverse transform random variate generation technique together withthe Monte Carlo simulation method to determine the reliability in a system consisting of three components, 1,2,3 with Weibull failure probability distribution functions given as follows: F1 = 1 − exp(−t0.5 ) F2 = 1 − exp(−t) ...
MIME 4160
... Objectives of the course: At the conclusion of this course, you should be able to: 1. Explain the concept and utility of computer simulation. 2. Explain the fundamental concepts of computer simulation including, static and dynamic events, continuous and discrete dynamic events, steady state, determi ...
... Objectives of the course: At the conclusion of this course, you should be able to: 1. Explain the concept and utility of computer simulation. 2. Explain the fundamental concepts of computer simulation including, static and dynamic events, continuous and discrete dynamic events, steady state, determi ...
Biological challenges that require computational collaborations
... Historical examples of computation in biology • Hodgkin-Huxley modeling of membrane potential and action potential • Kinetic analysis of enzymes, receptor/ligand intereactions • Development as the French flag problem • Ecosystem sciences ...
... Historical examples of computation in biology • Hodgkin-Huxley modeling of membrane potential and action potential • Kinetic analysis of enzymes, receptor/ligand intereactions • Development as the French flag problem • Ecosystem sciences ...
Computer simulation
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A computer simulation is a simulation, run on a single computer, or a network of computers, to reproduce behavior of a system. The simulation uses an abstract model (a computer model, or a computational model) to simulate the system. Computer simulations have become a useful part of mathematical modeling of many natural systems in physics (computational physics), astrophysics, climatology, chemistry and biology, human systems in economics, psychology, social science, and engineering. Simulation of a system is represented as the running of the system's model. It can be used to explore and gain new insights into new technology and to estimate the performance of systems too complex for analytical solutions.Computer simulations vary from computer programs that run a few minutes to network-based groups of computers running for hours to ongoing simulations that run for days. The scale of events being simulated by computer simulations has far exceeded anything possible (or perhaps even imaginable) using traditional paper-and-pencil mathematical modeling. Over 10 years ago, a desert-battle simulation of one force invading another involved the modeling of 66,239 tanks, trucks and other vehicles on simulated terrain around Kuwait, using multiple supercomputers in the DoD High Performance Computer Modernization ProgramOther examples include a 1-billion-atom model of material deformation; a 2.64-million-atom model of the complex maker of protein in all organisms, a ribosome, in 2005;a complete simulation of the life cycle of Mycoplasma genitalium in 2012; and the Blue Brain project at EPFL (Switzerland), begun in May 2005 to create the first computer simulation of the entire human brain, right down to the molecular level.Because of the computational cost of simulation, computer experiments are used to perform inference such as uncertainty quantification.