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src/a/s/Assimulo-2.5.1/assimulo/examples/cvode_basic_backward.py   Assimulo(Download)
import nose
from assimulo.solvers import CVode
from assimulo.problem import Explicit_Problem
 
def run_example(with_plots=True):
 
    #Define an Assimulo problem
    exp_mod = Explicit_Problem(f,t0=5, y0=0.02695, name = r'CVode Test Example (reverse time): $\dot y = - y$ ')
 
    #Define an explicit solver

src/a/s/Assimulo-2.5.1/assimulo/examples/cvode_with_initial_sensitivity.py   Assimulo(Download)
import nose
from assimulo.solvers import CVode
from assimulo.problem import Explicit_Problem
 
def run_example(with_plots=True):
 
    #Create an Assimulo explicit problem
    exp_mod = Explicit_Problem(f, y0, p0=p0,name='Example: Computing Sensitivities')
 
    #Sets the options to the problem

src/a/s/Assimulo-2.5.1/assimulo/examples/cvode_basic.py   Assimulo(Download)
import nose
from assimulo.solvers import CVode
from assimulo.problem import Explicit_Problem
 
def run_example(with_plots=True):
 
    #Define an Assimulo problem
    exp_mod = Explicit_Problem(f, y0=4, name = r'CVode Test Example: $\dot y = - y$')
 
    #Define an explicit solver

src/a/s/Assimulo-2.5.1/assimulo/examples/dopri5_basic.py   Assimulo(Download)
import nose
from assimulo.solvers import Dopri5
from assimulo.problem import Explicit_Problem
 
def run_example(with_plots=True):
 
    #Define an Assimulo problem
    exp_mod = Explicit_Problem(f, 4.0,
              name = 'DOPRI5 Example: $\dot y = - y$')
 

src/a/s/Assimulo-2.5.1/assimulo/examples/rungekutta4_basic.py   Assimulo(Download)
import nose
from assimulo.solvers import RungeKutta4
from assimulo.problem import Explicit_Problem
 
def run_example(with_plots=True):
 
    #Define an Assimulo problem
    exp_mod = Explicit_Problem(f, 4.0,
              name = 'RK4 Example: $\dot y = - y$')
 

src/a/s/Assimulo-2.5.1/assimulo/examples/rungekutta34_basic.py   Assimulo(Download)
import nose
from assimulo.solvers import RungeKutta34
from assimulo.problem import Explicit_Problem
 
def run_example(with_plots=True):
 
    #Define an Assimulo problem
    exp_mod = Explicit_Problem(f, 4.0,
              name = 'RK34 Example: $\dot y = - y$')
 

src/a/s/Assimulo-2.5.1/assimulo/examples/rodasode_vanderpol.py   Assimulo(Download)
import nose
from assimulo.solvers import RodasODE
from assimulo.problem import Explicit_Problem
 
def run_example(with_plots=True):
 
    #Define an Assimulo problem
    exp_mod = Explicit_Problem(f,y0, name = 'Van der Pol (explicit)')
    exp_mod.jac = jac
 

src/a/s/Assimulo-2.5.1/assimulo/examples/lsodar_vanderpol.py   Assimulo(Download)
import nose
from assimulo.solvers import LSODAR
from assimulo.problem import Explicit_Problem
 
def run_example(with_plots=True):
 
    #Define an Assimulo problem
    exp_mod = Explicit_Problem(f,y0, name = "LSODAR: Van der Pol's equation")
 
    #Define an explicit solver

src/a/s/Assimulo-2.5.1/assimulo/examples/euler_vanderpol.py   Assimulo(Download)
import nose
from assimulo.solvers import ImplicitEuler
from assimulo.problem import Explicit_Problem
 
def run_example(with_plots=True):
 
    #Define an Assimulo problem
    exp_mod = Explicit_Problem(f,y0, 
                          name = "ImplicitEuler: Van der Pol's equation (as explicit problem) ")
    exp_mod.jac = jac

src/a/s/Assimulo-2.5.1/assimulo/examples/euler_basic.py   Assimulo(Download)
import nose
from assimulo.solvers import ExplicitEuler
from assimulo.problem import Explicit_Problem
 
def run_example(with_plots=True):
 
    #Define an Assimulo problem
    exp_mod = Explicit_Problem(f, 4.0,
              name = 'ExplicitEuler Example: $\dot y = - y$')
 

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