A method includes providing initial process conditions to a model associated with a process chamber. The method further includes providing an indication of one or more adjustments to the process chamber resulting in final process conditions to the model. The method further includes obtaining an indication of first gas backflow to a substrate support of the process chamber from the model. The method further includes generating updated one or more adjustments to the process chamber. The method further includes providing an indication of the updated one or more adjustments to the model. The method further includes obtaining from the model an indication of second gas backflow to the substrate support. The method further includes performing a corrective action based on the updated one or more adjustments.

A post CMP cleaning apparatus is provided. The post CMP cleaning apparatus includes a cleaning stage. The post CMP cleaning apparatus also includes a rotating platen disposed in the cleaning stage, and the rotating platen is configured to hold and rotate a semiconductor wafer. The post CMP cleaning apparatus further includes a vibrating device disposed over the rotating platen. The post CMP cleaning apparatus further includes a solution delivery module disposed near the vibrating device and configured to deliver a cleaning fluid to the semiconductor wafer. The vibrating device is configured to provide the cleaning fluid with a specific frequency which is at least greater than 100 MHz while the rotating platen is rotating the semiconductor wafer, so that particles on the semiconductor wafer are removed by the cleaning fluid.

The present disclosure relates to a substrate transfer method and apparatus which controls a substrate transfer robot using position information of a substrate, when the substrate is loaded or unloaded in the substrate transfer apparatus including the substrate transfer robot. When an operation of setting a new reference value due to a change in process or hardware after setting the initial reference value for loading or unloading the substrate is requested, the substrate transfer method and apparatus can automatically perform the reference value setting operation. Therefore, the substrate transfer method and apparatus can transfer the substrate such that the substrate is located in the center of the susceptor, even though the reference value of the substrate transfer robot is not manually changed.

A processing method including a step that takes an image of the end face of a reference substrate, whose warp amount is known, over the whole periphery thereof using a camera to obtain shape data of the end face of the reference substrate; a step that takes an image of the end face of a process substrate over the whole periphery thereof using a camera to obtain shape data of the end face of the process substrate; a step that calculates warp amount of the process substrate based on the obtained shape data; a step that forms a resist film on a surface of the process substrate; a step that determines the supply position from which an organic solvent is supplied to a peripheral portion of the resist film and dissolves the peripheral portion by the solvent supplied from the supply position to remove the same from the process substrate.

The present disclosure relates to a tool and method for correcting a position of a wafer in a semiconductor manufacturing machine, including: a cover plate, disposed on one side that is of the chamber away from the wafer bearing apparatus, the cover plate is provided with a mounting hole; a transparent plate, installed in the mounting hole, a projection of the wafer bearing apparatus on the transparent plate is located in the transparent plate; and a first scale and a second scale, disposed on the transparent plate, the first scale extends to edges of the transparent plate along a first direction and a direction away from the first direction, the second scale extends to edges of the transparent plate along a second direction and a direction away from the second direction, and the first scale and the second scale are provided with a plurality of uniformly distributed scale lines.

A method of trimming a wafer includes securing the wafer on a top surface of a wafer chuck of a wafer edge trimming apparatus, directing a water jet at an edge of the wafer to form a plurality of cracks at uniform intervals along the edge of the wafer, inserting a wedge of a removal module into a first crack of the plurality of cracks, and rotating the wafer, where during the rotation of the wafer, the wedge expands the first crack of the plurality of cracks and removes material from the edge of the wafer.