Difference between revisions of "Lab assignments for ISC-4304"

 
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([[Media:Syllabus-ISC4304-S2017.pdf | Syllabus]]    [[Notes ISC-4304 | Classnotes]] [[Homework for ISC-4304 | Homework ]]  [[Lab assignments for ISC-4304 | Lab]]  [[Resources for ISC-4304 | Resources]]    [[FunExamples | Fun]])
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== Lab for Spring 2019 ==
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[see also on the Canvas website]
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* first Monday: we will learn about UNIX but no lab homework [http://peterbeerli.com/classdata/ISC4304/UNIX UNIX]
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* Jan 14 Lab 1  [[Media:isc4304-2019lab1.pdf | PDF]]<br>
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* Jan 28 Lab 2  [[Media:isc4304-2019lab2.pdf | PDF]]<br>
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* Feb 11 Lab 3  [[Media:isc4304-2019lab3.pdf | PDF]]<br>
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* Feb 18 Lab 4 Python, Conway's Game of Life [[Media:isc4304lab4_S2019.pdf | PDF]] ( [[Media:conwaygame.pdf | Some additional description of the Game of Life]] )
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* March 4 Lab 5 (Hilbert curve)  [[Media:isc4304-2019lab5.pdf | PDF]] [[Media:frog.jpg | frog picture]]*
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* March 25 Lab 6 -- ODE solving using object orientation  [[Media:isc4304-2019lab6.pdf | PDF]]<br>
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* April 1 Lab 7 -- Integration using object orientation  [[Media:isc4304-2019lab7.pdf | PDF]]<br>
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* April 8 Lab 8 -- Translate a python code to C++  [[Media:isc4304-2019lab8.pdf | PDF]] ([http://peterbeerli.com/classdata/ISC4304/codes/lab8_julia.zip zip file with code])<br>
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== Old labs ==
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* Lab 1: Python, learn basic python commands and write a simple function [[Media:isc4304lab1S2017.pdf|PDF]]
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* Lab 2: Python, simple book analysis [[Media:isc4304lab2_S2017.pdf | PDF]] [[Media:isc4304lab1S2018.pdf | PDF]]
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* Lab 3: Python, Conway's Game of Life [[Media:isc4304lab3_S2017.pdf | PDF]]  [[Media:isc4304lab3_S2018.pdf | PDF]]<br>
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            (Some description of Conway's Game of Life  [[Media:conwaygame.pdf | PDF]])
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* Lab 4 Plotting with matplotlib [[Media:isc4304lab4_S2017.pdf | PDF]] [[Media:isc4304lab2S2018.pdf | PDF]]<br>
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* Lab 4: Hilbert Curve [[Media:isc4304lab4S2018.pdf | PDF]], and here is a tutorial about the Hilbert curve [[Media:hilbert_curve.pdf | PDF]] <br>
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* Lab 5:Bayesian inference [[Media:isc4304lab5S2018.pdf | PDF]]<br>
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* Lab 5 n-ODE lab  [[Media:isc4304lab5S2017.pdf | PDF]] <br>
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* Lab 6 Bayesian inference on 4-sided dice data using Python  [[Media:isc4304lab6S2017.pdf | PDF]] <br>
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* Lab 7 Bayesian inference on 4-sided dice data using C++  [[Media:isc4304lab7S2017.pdf | PDF]] <br>
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* Lab 8 Translation of the numerical n-ODE example to C++  [[Media:isc4304lab8S2017.pdf | PDF]] <br>
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* Lab 9 Combining Python with C++ using boost::python [[Media:isc4304lab9S2017.pdf | PDF]]
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* Lab 10 Speeding up a python program using Cython [[Media:isc4304lab10S2017.pdf | PDF]] Code to improve is this [http://peterbeerli.com/classdata/ISC4304/codes/mandelbrot.zip Mandelbrot Python program] (look at the lectures on cython [integration and Juliaset examples) for details how to run cython)
 
* Lab 1: Python, learn basic python commands and write a simple function [[Media:isc4304lab1.pdf|PDF]]
 
* Lab 1: Python, learn basic python commands and write a simple function [[Media:isc4304lab1.pdf|PDF]]
* Lab 2: Python, simple book analysis[[Media:isc4304lab2.pdf|PDF]]
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* Lab 2: Python, simple book analysis [[Media:isc4304lab2.pdf | PDF]]
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* Lab 3: Python, Conway's Game of Life [[Media:isc4304lab3.pdf | PDF]] <br>
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* Lab 3 Addendum: Python and Matplotlib, Conway's Game of Life [[Media:isc4304lab3add.pdf | PDF]]
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* Lab 4 Plotting with matplotlib [[Media:isc4304lab4.pdf | PDF]] <br>
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* Lab 5 n-ODE lab  [[Media:isc4304lab5.pdf | PDF]] <br>
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* Lab 6 Bayesian inference on 4-sided dice data using Python  [[Media:isc4304lab6.pdf | PDF]] <br>
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* Lab 7 Bayesian inference on 4-sided dice data using C++  [[Media:isc4304lab7.pdf | PDF]] <br>
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* Lab 8 Translation of the numerical n-ODE example to C++  [[Media:isc4304lab8.pdf | PDF]] [http://people.sc.fsu.edu/~pbeerli/downloads/classes/vectordir.zip Small Vector library]<br>
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* Lab 9 Combining Python with C++ using boost::python [[Media:isc4304lab9.pdf | PDF]]
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* Lab 10 Speeding up a python program using Cython [[Media:isc4304lab10.pdf | PDF]] Code to improve is this [http://people.sc.fsu.edu/~pbeerli/downloads/classes/mandelbrot.zip Mandelbrot Python program] (this example [ [http://people.sc.fsu.edu/~pbeerli/downloads/classes/integration.zip integration.zip] from the last class may help to set up the cython compile using the setup.py, it needs to be called like this: python setup.py build_ext --inplace )
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* Lab 11 Speeding up even more by running in parallel  [[Media:isc4304lab11.pdf | PDF]]

Latest revision as of 06:15, 8 April 2019

( Syllabus Classnotes Homework Lab Resources Fun)

Lab for Spring 2019

[see also on the Canvas website]



Old labs

  • Lab 1: Python, learn basic python commands and write a simple function PDF
  • Lab 2: Python, simple book analysis PDF PDF
  • Lab 3: Python, Conway's Game of Life PDF PDF
            (Some description of Conway's Game of Life   PDF)
  • Lab 4 Plotting with matplotlib PDF PDF
  • Lab 4: Hilbert Curve PDF, and here is a tutorial about the Hilbert curve PDF
  • Lab 5:Bayesian inference PDF
  • Lab 5 n-ODE lab PDF
  • Lab 6 Bayesian inference on 4-sided dice data using Python PDF
  • Lab 7 Bayesian inference on 4-sided dice data using C++ PDF
  • Lab 8 Translation of the numerical n-ODE example to C++ PDF
  • Lab 9 Combining Python with C++ using boost::python PDF
  • Lab 10 Speeding up a python program using Cython PDF Code to improve is this Mandelbrot Python program (look at the lectures on cython [integration and Juliaset examples) for details how to run cython)
  • Lab 1: Python, learn basic python commands and write a simple function PDF
  • Lab 2: Python, simple book analysis PDF
  • Lab 3: Python, Conway's Game of Life PDF
  • Lab 3 Addendum: Python and Matplotlib, Conway's Game of Life PDF
  • Lab 4 Plotting with matplotlib PDF
  • Lab 5 n-ODE lab PDF
  • Lab 6 Bayesian inference on 4-sided dice data using Python PDF
  • Lab 7 Bayesian inference on 4-sided dice data using C++ PDF
  • Lab 8 Translation of the numerical n-ODE example to C++ PDF Small Vector library
  • Lab 9 Combining Python with C++ using boost::python PDF
  • Lab 10 Speeding up a python program using Cython PDF Code to improve is this Mandelbrot Python program (this example [ integration.zip from the last class may help to set up the cython compile using the setup.py, it needs to be called like this: python setup.py build_ext --inplace )
  • Lab 11 Speeding up even more by running in parallel PDF