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Scientific Computing

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Scientific Computing

Not to be confused with computer science.

Computational science (also scientific computing or scientific computation) is concerned with constructing mathematical models and quantitative analysis techniques and using computers to analyze and solve scientific problems.[1] In practical use, it is typically the application of computer simulation and other forms of computation from numerical analysis and theoretical computer science to problems in various scientific disciplines.

The field is different from theory and laboratory experiment which are the traditional forms of science and engineering. The scientific computing approach is to gain understanding, mainly through the analysis of mathematical models implemented on computers.

Scientists and engineers develop computer programs, application software, that model systems being studied and run these programs with various sets of input parameters. Typically, these models require massive amounts of calculations (usually floating-point) and are often executed on supercomputers or distributed computing platforms.

Numerical analysis is an important underpinning for techniques used in computational science.

Applications of computational science

Problem domains for computational science/scientific computing include:

Numerical simulations

Numerical simulations have different objectives depending on the nature of the task being simulated:

  • Reconstruct and understand known events (e.g., earthquake, tsunamis and other natural disasters).
  • Predict future or unobserved situations (e.g., weather, sub-atomic particle behaviour).

Model fitting and data analysis

  • Appropriately tune models or solve equations to reflect observations, subject to model constraints (e.g. oil exploration geophysics, computational linguistics).
  • Use graph theory to model networks, such as those connecting individuals, organizations, websites, and biological systems.

Computational optimization

  • Optimize known scenarios (e.g., technical and manufacturing processes, front-end engineering).

Methods and algorithms

Algorithms and mathematical methods used in computational science are varied. Commonly applied methods include:

Programming languages and computer algebra systems commonly used for the more mathematical aspects of scientific computing applications include R (programming language), MATLAB, Mathematica,[2] SciLab, GNU Octave, Python (programming language) with SciPy, and PDL. The more computationally intensive aspects of scientific computing will often use some variation of C or Fortran and optimized algebra libraries such as BLAS or LAPACK.

Computational science application programs often model real-world changing conditions, such as weather, air flow around a plane, automobile body distortions in a crash, the motion of stars in a galaxy, an explosive device, etc. Such programs might create a 'logical mesh' in computer memory where each item corresponds to an area in space and contains information about that space relevant to the model. For example in weather models, each item might be a square kilometer; with land elevation, current wind direction, humidity, temperature, pressure, etc. The program would calculate the likely next state based on the current state, in simulated time steps, solving equations that describe how the system operates; and then repeat the process to calculate the next state.

The term computational scientist is used to describe someone skilled in scientific computing. This person is usually a scientist, an engineer or an applied mathematician who applies high-performance computing in different ways to advance the state-of-the-art in their respective applied disciplines in physics, chemistry or engineering. Scientific computing has increasingly also impacted on other areas including economics, biology and medicine.

Computational science is now commonly considered a third mode of science, complementing and adding to experimentation/observation and theory.[3] The essence of computational science is numerical algorithm[4] and/or computational mathematics. In fact, substantial effort in computational sciences has been devoted to the development of algorithms, the efficient implementation in programming languages, and validation of computational results. A collection of problems and solutions in computational science can be found in Steeb, Hardy, Hardy and Stoop, 2004.[5]

Reproducibility and open research computing

The complexity of computational methods is a threat to the reproducibility of research. Jon Claerbout has become prominent for pointing out that reproducible research requires archiving and documenting all raw data and all code used to obtain a result.[6][7][8] Nick Barnes, in the Science Code Manifesto, proposed five principles that should be followed when software is used in open science publication.[9] Tomi Kauppinen et al. established and defined Linked Open Science, an approach to interconnect scientific assets to enable transparent, reproducible and transdisciplinary research.[10]

Journals

Most scientific journals do not accept software papers because a description of a reasonably mature software usually does not meet the criterion of novelty. Outside computer science itself, there are only few journals dedicated to scientific software. Established journals like Elsevier's Computer Physics Communications publish papers that are not open-access (though the described software usually is). To fill this gap, a new journal entitled Open research computation was announced in 2010;[11] it closed in 2012 without having published a single paper, for a lack of submissions probably due to excessive quality requirements.[12] A new initiative was launched in 2012, the Journal of Open Research Software.[13]

Education

Scientific computation is most often studied through an applied mathematics or computer science program, or within a standard mathematics, sciences, or engineering program. At some institutions a specialization in scientific computation can be earned as a "minor" within another program (which may be at varying levels). However, there are increasingly many bachelor's and master's programs in computational science. Some schools also offer the Ph.D. in computational science, computational engineering, computational science and engineering, or scientific computation.

There are also programs in areas such as computational physics, computational chemistry, etc.

Related fields

See also

References

Additional sources

  • G. Hager and G. Wellein, Introduction to High Performance Computing for Scientists and Engineers, Chapman and Hall (2010)
  • A.K. Hartmann, World Scientific (2009)
  • Journal Polish Academy of Sciences
  • Journal Institute of Physics
  • R.H. Landau, C.C. Bordeianu, and M. Jose Paez, A Survey of Computational Physics: Introductory Computational Science, Princeton University Press (2008)

External links

  • John von Neumann-Institut for Computing (NIC) at Juelich (Germany)
  • The National Center for Computational Science at Oak Ridge National Laboratory
  • Educational Materials for Undergraduate Computational Studies
  • Computational Science at the National Laboratories
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