Method and system for producing glassware

The invention claimed is: 1. A method for producing glassware comprising the steps of: rotating a glass intermediate with a receptacle rotational speed around a receptacle rotational axis; rotating at least one forming roller with a roller rotational speed around a roller rotational axis; displacing the at least one forming roller and the glass intermediate into a forming roller contact, wherein the receptacle rotational axis is spaced in a radial direction by an intermediate radius and the roller rotational axis is spaced in the radial direction by a roller radius; reducing the intermediate radius in the forming roller contact from an initial radius to an end radius by reducing the distance between the roller rotational axis and the receptacle rotational axis; and reducing the roller rotational speed during the reduction from the initial radius to the end radius. 2. The method according to claim 1 , wherein a ratio of the roller rotational speed to the receptacle rotational speed during the method is controlled as a function of the ratio of the intermediate radius to roller radius. 3. The method according to claim 1 , wherein a ratio of roller rotational speed to receptacle rotational speed is reduced during the reduction from the initial radius to the end radius. 4. The method according to claim 3 , wherein the reduction from the initial radius to the end radius takes place by feeding the at least one forming roller in the radial direction, wherein the roller rotational speed is controlled as a function of the radial position of the at least one forming roller. 5. The method according to claim 1 , wherein a ratio of the roller rotational speed to the receptacle rotational speed is controlled as a function of the ratio of intermediate radius to roller radius, in such a manner that a relative speed between the glass intermediate and the at least one forming roller in the forming roller contact is at most 50% of a circumferential speed of the at least one forming roller in the forming roller contact. 6. The method according to claim 1 wherein the receptacle rotational speed and/or the roller rotational speed is controlled via a servomotor during the method. 7. A method for producing rotationally symmetrical glassware comprising the steps of: forming at least one glass intermediate in at least one pre-forming step in which the at least one glass intermediate is rotated at a pre-forming rotational speed for shaping in a forming roller contact with at least one forming roller, wherein the at least one forming roller is rotated at a pre-forming roller rotational speed; and forming the at least one glass intermediate in a final forming step, in which the at least one glass intermediate is rotated for shaping in a final forming roller contact with a final forming roller at a final forming rotational speed, wherein the final forming roller is rotated at a final roller rotational speed; wherein the final forming rotational speed is greater or less than the pre-forming rotational speed, and wherein the pre-forming roller rotational speed is controlled as a function of the pre-forming rotational speed, and the final roller rotational speed is controlled as a function of the final forming rotational speed. 8. The method according to claim 7 , wherein the pre-forming rotational speed is constant in the forming roller contact of the at least one pre-forming step, and/or wherein the final forming rotational speed is constant in the forming roller contact of the final forming step. 9. The method according to claim 7 , wherein the at least one pre-forming step comprises a first pre-forming step with a first pre-forming rotational speed and a last pre-forming step with a last pre-forming rotational speed. 10. The method according to claim 7 , wherein the at least one pre-forming step comprises a first pre-forming step with a first pre-forming rotational speed, a last pre-forming step with a last pre-forming rotational speed, and an intermediate pre-forming step with an intermediate pre-forming rotational speed. 11. The method to claim 7 , wherein the at least one pre-forming step is carried out in at least one pre-forming device and the final forming step is carried out in a final forming device. 12. The method of claim 11 wherein the at least one glass intermediate is moved to the final forming device after the at least one pre-forming step. 13. The method according to claim 7 , wherein the at least one glass intermediate has at least 2 glass intermediates, which are formed in parallel on at least one pre-forming device and on a final forming device. 14. The method according to claim 7 , wherein the pre-forming roller rotational speed and final roller rotational speed are controlled so that a) a ratio of circumferential speed of the at least one forming roller and the at least one glass intermediate in the forming roller contact, and b) a ratio of circumferential speed of the final forming roller and the at least one glass intermediate in the final forming roller contact, differ by less than 50 percent. 15. The method according to claim 7 , wherein the at least one pre-forming rotational speed is greater or less in magnitude than the final forming rotational speed by at least 10%.