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Wavefront is built as an Open Source and cross-platform software for simulating 2D acoustic systems.
A particular emphasis is put on determining wavefront shapes at the mouths of horns.

Wavefront accepts CAD drawings in DXF format and produces an animated display of wave propagation. Various data can also be exported as text files.

The Simulator supports the following boundary conditions.

1. Field Equalization: For the cases when the source or the receiver of the acoustic waves are treated as a lumped boundary condition, the field condition is established using the given harmonic impedance. This can be achieved by creating an acoustic resistance at the source or receiver using the harmonic resistivity
function.

2. Volume Rayleigh: For the cases when the source or the receiver of the acoustic waves are treated as a volume boundary condition, the volume acoustics that govern the wave propagation is modelled using Rayleigh scattering by adding a Rayleigh phase gradient and a Rayleigh resistivity to the source or the receiver, respectively.

3. Uniform Flux: In the cases when a large number of sources are aligned and the waves propagate through different media, the flux condition is specified using a uniform flux distribution. This can be achieved by providing an impedance function at the front of the waveguide.

4. Porosity or Mass Flux: In the cases when the direction of the acoustic waves is along a large closed boundary, the wave propagation is simulated using a porosity or mass flux boundary condition. This can be achieved by creating a mass flux or porosity boundary condition at the closed boundary.

5. Interface: In the cases when multiple material interfaces are present, the wave propagation is simulated using an interface boundary condition. This can be achieved by creating an impedance boundary condition at each material interface.

6. Unidirectional or Split-Mode: The boundary condition specified at the source interface is used to determine the field distribution along the lower boundary and wave propagation along the upper boundary is determined using the specified boundary condition at the upper interface.

7. Inhomogeneous Flux: This is a new boundary condition which can be specified for the cases when the flux is not homogeneous. The boundary condition at the source boundary determines the flux distribution at the lower boundary. The distribution of flux at the lower boundary is used to determine the field distribution at the upper boundary.

8. Linear or Sinusoidal: This is a new boundary condition which can be specified for the cases when the 70238732e0

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KDChart is a Qt widget for generating charts. It is a powerful tool for drawing a wide variety of business charts.
For the beginners it provides basic functionalities. The advanced features are explained in the “Options” tab.

What is new in KDChart 1.3 changeinfo log

Removed the previous KDChartChartModel from the project. The previous chart model was
too limited and was replaced with the new KDAxisBaseModel

Removed the KDTree widget. It was implemented as a subclass of the new KDChartWidget

Added the «Renderer» property that is used to set the renderer instance. The renderer controls the drawing
of the chart elements and the drawing of the axis labels.

Removed the KDChartChartModel::operator int. It was implemented as a new function.

What is new in KDChart 1.2 changeinfo log

The KDChartChartModel implements a set of methods to control the drawing of the elements.

The KDChartChartModel:: operator int() method has been implemented to convert it to an integer.

The KDChartChartModel:: operator double() method has been implemented to convert it to a double.

The KDChartChartModel:: operator void() method has been implemented to convert it to void.

The KDChartChartModel:: operator string() method has been implemented to convert it to a string.

The KDChartChartModel:: operator bool() method has been implemented to convert it to a boolean.

The KDChartChartModel::operator string() method has been implemented to convert it to a string.

The KDChartChartModel::operator int() method has been implemented to convert it to an integer.

The KDChartChartModel::operator double() method has been implemented to convert it to a double.

The KDChartChartModel::operator string() method has been implemented to convert it to a string.

The KDChartChartModel::operator int() method has been implemented to convert it to an integer.

The KDChartChartModel::operator bool() method has been implemented to convert it to a boolean.

The KDChartChartModel::operator string() method has been implemented to convert it to a string.

The KDChartChartModel::operator int() method has been implemented to convert it to an integer.

The KDChartChartModel::operator double() method has been implemented

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