1. Scidavis Download
2. Scidavis Mac
3. Scidavis Download
4. Scidavis Deb
5. Scidavis Vs Origin

Scidavis Download

Scidavis Mac

Scidavis Download

List of Figures

Scidavis Deb

SciDAVis is an interactive application aimed at data analysis and publication-quality plotting. This software can combine a shallow learning curve with an intuitive, easy-to-use GUI with powerful features such as extensibility and scriptability. SciDAVis is a user-friendly data analysis and visualization program primarily aimed at high-quality plotting of scientific data. It strives to combine an intuitive, easy-to-use graphical user interface with powerful features such as Python scriptability. SciDAVis is a interactive application aimed at data analysis and publication-quality plotting. It combines a shallow learning curve and an intuitive, easy-to-use graphical user interface with powerful features such as scriptability and extensibility.

Scidavis Vs Origin

1.1. A typical SciDAVis session

1.2. A SciDAVis table with the properties dialog developped and the type tag selected.

1.3. The two other tags of the properties dialog of SciDAVis tables.

1.4. The SciDAVis matrix

1.5. An example of SciDAVis 2D graph with 2 layers.

1.6. The SciDAVis Note Window

1.7. The SciDAVis Note Window used as a calculator

1.8. The SciDAVis Log window with the information related to a fit on a curve

1.9. The SciDAVis Project Explorer

2.1. A simple 2D plot: the table.

2.2. A simple 2D plot: the default plot.

2.3. A simple 2D plot: the plot finished.

2.4. A table with two series of values (X1,Y1) and (X2,Y2).

2.5. A 2D plot with two Y and two X axis.

2.6. Direct plot of a function.

2.7. Direct plot of a parametric function.

2.8. Direct plot of a function in polar coordinates.

2.9. Function plot: filling of the X column.

2.10. Function plot: filling of the Y column.

2.11. The Plot details Dialog: general properties of the layers.

2.12. The Plot details Dialog: Plot Associations.

2.13. The Plot details Dialog: Choice of axes.

2.14. The Plot details Dialog: Line formatting.

2.15. The Plot details Dialog: Symbol formatting.

2.16. The Plot details Dialog: Pattern formatting for bars.

2.17. The Plot details Dialog: Spacing formatting for bars.

2.18. The preferences dialog: 2D plot options.

2.19. An example of pie plot.

2.20. Pie segment formatting.

2.21. An example of a vector plot (fluid flow around a cylinder in a laminar mode).

2.22. Vector-XYXY formatting.

2.23. Vector-XYAM formatting.

2.24. An example of a box plot for three columns.

2.25. The Custom Curves Dialog for box: pattern formatting.

2.26. The Custom Curves Dialog for box: whiskers formatting.

2.27. The Custom Curves Dialog for box: percentile formatting.

2.28. An example of histogram.

2.29. Pattern formatting in histograms.

2.30. Whiskers formatting in histograms.

2.31. Interval selection in histograms.

2.32. Example of a 3D Plots.

2.33. Definition of a new surface 3D plot

2.34. The 3D surface plot created by default

2.35. Assigning a multi-lines formula to a matrix

2.36. The Contour curves options dialog.

2.37. The preferences dialog: 3D plot options.

2.38. The text options dialog.

3.1. A signal and the FFT dialog box for a plot.

3.2. The resulting FFT with the characteristic frequencies.

3.3. The FFT dialog box for a table.

3.4. Signal after a FFT low pass filter

3.5. Signal after a FFT high pass filter

3.6. Signal after a FFT band pass filter

3.7. Signal after a FFT block band filter

3.8. An example of a correlation between two functions: the two signals.

3.9. An example of a correlation between two functions: the correlation function.

3.10. The first step of the Fit Wizard dialog box.

3.11. The second step of the Fit Wizard dialog box.

3.12. The results of the Fit Wizard.

3.13. The results of a Quick Fit→Fit Linear.

3.14. The results of a Quick Fit→Fit Bolzmann (Sigmoïdal).

3.15. The results of a Quick Fit→Fit Gaussian.

3.16. The results of a Quick Fit→Fit Lorentzian.

3.17. The selection of the position of the peaks.

3.18. The results of a Quick Fit→Fit Multipeak→Gaussian.

3.19. The preference dialog for fitting.

3.20. Comparison of the three methods of interpolation

5.1. The New→New Function Plot dialog box.

5.2. The New→New 3D Surface Plot dialog box.

5.3. The New→New 3D Surface Plot dialog box.

5.4. The result of Open image File.

5.5. The Export Graph→Current dialog.

5.6. The basic Print dialog.

5.7. The Export Ascii dialog.

5.8. The Import Ascii dialog.

5.9. The general options dialog: application options.

5.10. The plot wizard dialog box.

5.11. The project explorer panel.

5.12. The undo-redo history.

5.13. The scripting console.

5.14. The Add/Remove Curve dialog box.

5.15. The Add Error Bars dialog.

5.16. A plot with X and Y Error Bars.

5.17. The Add Function dialog box: cartesian coordinates.

5.18. The Add Function dialog box: parametric coordinates.

5.19. The Add Function dialog box: polar coordinates.

5.20. The Add Text dialog box.

5.21. The Arrow options dialog: first tab

5.22. The Arrow options dialog: second tab

5.23. The Geometry dialog: third tab

5.24. The Add Layer dialog box.

5.25. The Arrange Layers dialog

5.26. The Integrate dialog box.

5.27. The Smooth→Savitsky-Golay dialog.

5.28. The Smooth→Moving Window Average dialog.

5.29. Comparison of the two smoothing methods.

5.30. The dialog and an example of FFT smoothing.

5.31. 2D plot options dialog: General settings.

5.32. Surface plot options: general settings.

5.33. Plot options dialog: scales settings.

5.34. Surface plot options: scales settings.

5.35. General plot options dialog: the axis tab.

5.36. General plot options dialog: the grid tab.

5.37. Surface plot options dialog: the title tab.

6.1. The SciDAVis File Toolbar

6.2. The SciDAVis Edit Toolbar

6.3. The SciDAVis Plot Toolbar with its different sub-menus

6.4. The SciDAVis Graph Toolbar with its different sub-menus

6.5. The SciDAVis Table Toolbar

6.6. The SciDAVis matrix Plot Toolbar

6.7. The SciDAVis 3D Surfaces Toolbar