Patent Number: 
Section: claims

1. A semiconductor inspection equipment comprising:a movable stage for holding a semiconductor sample;a sample image acquisition unit for irradiating the semiconductor sample held on the stage with a charged particle beam and obtaining a sample image through a sample signal discharged from the sample due to irradiation of the charged particle beam;a memory unit for storing CAD data concerning the semiconductor sample; anda display unit capable of displaying the CAD data such that it is superimposed on the sample image obtained by the sample image acquisition unit,wherein the equipment has a grid creation means of generating a grid composed of vertical and horizontal lines having a constant distance and displaying the grid superimposed on the sample image displayed on the display unit, and a means of generating systematic numbers indicating vertical and horizontal positions of a plurality of rectangular areas contained in the grid created by the grid creation means and displaying the numbers in relevant areas in the grid displayed on the display unit. 2. The semiconductor inspection equipment according to claim 1, wherein the grid creation means has a function of generating another grid having a narrower distance between the lines thereof in one rectangular area in the previously created grid. 3. The semiconductor inspection equipment according to claim 1, comprising a means of storing, as CAD data, the grid generated by the grid creation means and superimposed on the sample image displayed on the display unit. 4. The semiconductor inspection equipment according to claim 1, comprising a means of generating characters, symbols, lines, figures, and/or painted figures, and superimposing them on the sample image displayed on the display unit. 5. The semiconductor inspection equipment according to claim 4, comprising a means of copying, as a pattern, the characters, symbols, lines, figures, and/or painted figures contained in a designated area of the sample image displayed on the display screen, a means of performing cutting processing on the pattern, a means of creating an x-axis mirror-inverted copy of the pattern, and a means of creating a y-axis mirror-inverted copy of the pattern. 6. The semiconductor inspection equipment according to claim 4, comprising a means of storing, as CAD data, the characters, symbols, lines, figures, and/or painted figures superimposed on the sample image displayed on the display unit. 7. The semiconductor inspection equipment according to claim 1, comprising a means of superimposing a marker, displayed with the same size irrespective of the display magnification of the sample image, on the sample image displayed on the display unit. 8. The semiconductor inspection equipment according to claim 7, comprising a means of storing, as CAD data, the marker superimposed on the sample image displayed on the display unit. 9. A semiconductor inspection method, comprising;irradiating a semiconductor sample held on a movable stage with a charged particle beam and obtaining a sample image through a sample signal discharged from the sample;generating a grid composed of vertical and horizontal lines having a constant distance and displaying the grid such that it is superimposed on the sample image; andgenerating systematic numbers indicating vertical and horizontal positions of a plurality of rectangular areas contained in the grid and displaying the numbers in relevant areas in the grid. 10. The semiconductor inspection method according to claim 9, wherein the distance of the grid superimposed on the sample image is adjusted. 11. The semiconductor inspection method according to claim 9, wherein another grid having a narrower distance between the lines thereof is generated in one rectangular area in the previously created grid. 12. The semiconductor inspection method according to claim 9, wherein the grid superimposed on the sample image is stored as CAD data. 13. The semiconductor inspection method according to claim 9, wherein characters, symbols, lines, figures, and/or painted figures are superimposed on the sample image displayed on the display unit. 14. The semiconductor inspection method according to claim 13, wherein the characters, symbols, lines, figures, and/or painted figures contained in a designated area of the sample image displayed on the display unit are copied as a pattern. 15. The semiconductor inspection method according to claim 13, wherein an x-axis or y-axis mirror-inverted copy of the characters, symbols, lines, figures, and/or painted figures contained in a designated area of the sample image displayed on the display unit is created as a pattern. 16. The semiconductor inspection method according to claim 13, wherein the characters, symbols, lines, figures, and/or painted figures superimposed on the sample image displayed on the display unit are stored as CAD data. 17. The semiconductor inspection method according to claim 9, wherein a marker displayed with the same size irrespective of the display magnification of the sample image is superimposed on the sample image displayed on the display unit. 18. The semiconductor inspection method according to claim 17, wherein the marker superimposed on the sample image displayed on the display unit is stored as CAD data. 19. A computer readable medium bearing a program for causing a computer to perform the steps of:displaying a grid composed of vertical and horizontal lines having a constant distance such that the grid is superimposed on a sample image obtained through an electron microscope;generating systematic numbers indicating vertical and horizontal positions of a plurality of rectangular areas contained in the grid and displaying the numbers in relevant areas in the grid; andstoring the grid superimposed on the sample image as CAD data.