Method for compensating temperature-induced deviations in a grinding machine includes controlling the movements of the dressing tool relative to the grinding tool in order to relatively move the dressing tool towards the grinding tool; checking whether a first-cut detection signalizes a contact of the grinding tool and the dressing tool; repeating the controlling and checking steps until a contact between the grinding tool and the dressing tool is detected, and when the contact is detected, then (i) recording the Current Position, and (ii) carrying out a compensation calculation using the Current Position and a reference position.

The present disclosure describes a method and apparatus to remove consumable (e.g., sacrificial) polishing pad layers from a multilayer polishing pad. For example, the method includes measuring a thickness profile of a top polishing pad layer of a multilayer polishing pad and comparing the thickness profile to a threshold. The method, in response to the thickness profile being above the threshold, rinses the top polishing pad layer of the multilayer polishing pad and removes, after the top polishing pad layer has been rinsed, the top polishing pad layer to expose an underlying polishing pad layer of the multilayer polishing pad.

The present disclosure describes a method and apparatus to remove consumable (e.g., sacrificial) polishing pad layers from a multilayer polishing pad. For example, the method includes measuring a thickness profile of a top polishing pad layer of a multilayer polishing pad and comparing the thickness profile to a threshold. The method, in response to the thickness profile being above the threshold, rinses the top polishing pad layer of the multilayer polishing pad and removes, after the top polishing pad layer has been rinsed, the top polishing pad layer to expose an underlying polishing pad layer of the multilayer polishing pad.

A chemical mechanical polishing (CMP) apparatus is provided, including a polishing pad and a polishing head. The polishing pad has a polishing surface. The polishing head is configured to hold a wafer in contact with the polishing surface during the polishing process. The polishing head includes a retaining ring, at least one fluid channel, and a vacuum pump. The retaining ring is arranged along the periphery of the polishing head and configured to retain the wafer. The at least one fluid channel is provided inside the polishing head, wherein the retaining ring includes a bottom surface facing the polishing surface and a plurality of holes in fluid communication with the bottom surface and the at least one fluid channel. The vacuum pump is fluidly coupled to the at least one fluid channel.

A chemical mechanical polishing (CMP) apparatus is provided, including a polishing pad and a polishing head. The polishing pad has a polishing surface. The polishing head is configured to hold a wafer in contact with the polishing surface during the polishing process. The polishing head includes a retaining ring, at least one fluid channel, and a vacuum pump. The retaining ring is arranged along the periphery of the polishing head and configured to retain the wafer. The at least one fluid channel is provided inside the polishing head, wherein the retaining ring includes a bottom surface facing the polishing surface and a plurality of holes in fluid communication with the bottom surface and the at least one fluid channel. The vacuum pump is fluidly coupled to the at least one fluid channel.

A method of monitoring dressing of a polishing pad is provided. The method includes: rotating a polishing table that supports the polishing pad; dressing the polishing pad by pressing a dresser against the polishing pad while causing the dresser to oscillate in a radial direction of the polishing pad; calculating a work coefficient representing a ratio of a frictional force between the dresser and the polishing pad to a force of pressing the dresser against the polishing pad; and monitoring dressing of the polishing pad based on the work coefficient.

A method of monitoring dressing of a polishing pad is provided. The method includes: rotating a polishing table that supports the polishing pad; dressing the polishing pad by pressing a dresser against the polishing pad while causing the dresser to oscillate in a radial direction of the polishing pad; calculating a work coefficient representing a ratio of a frictional force between the dresser and the polishing pad to a force of pressing the dresser against the polishing pad; and monitoring dressing of the polishing pad based on the work coefficient.

The present disclosure provides a method of chemical mechanical polish operation and a chemical mechanical polish operation system. The method includes obtaining a first input parameter and a second input parameter, wherein the first input parameter is associated with an additive of a slurry, and the second input parameter is associated with a characteristic of a process apparatus, determining an output parameter associated with the process apparatus based on the first input parameter and the second input parameter, securing a workpiece by a head over a platen in the process apparatus, supplying the slurry with the additive over the platen with the additive configured with the first parameter, and polishing a surface of the workpiece by operating the process apparatus configured with the output parameter.

The present disclosure provides a method of chemical mechanical polish operation and a chemical mechanical polish operation system. The method includes obtaining a first input parameter and a second input parameter, wherein the first input parameter is associated with an additive of a slurry, and the second input parameter is associated with a characteristic of a process apparatus, determining an output parameter associated with the process apparatus based on the first input parameter and the second input parameter, securing a workpiece by a head over a platen in the process apparatus, supplying the slurry with the additive over the platen with the additive configured with the first parameter, and polishing a surface of the workpiece by operating the process apparatus configured with the output parameter.

A polishing apparatus has a polishing pad, a top ring for holding a semiconductor wafer, and a vertical movement mechanism operable to move the top ring in a vertical direction. The polishing apparatus also has a distance measuring sensor operable to detect a position of the top ring when a lower surface of the top ring is brought into contact with the polishing pad, and a controller operable to calculate an optimal position of the top ring to polish the semiconductor wafer based on the position detected by the distance measuring sensor. The vertical movement mechanism includes a ball screw mechanism operable to move the top ring to the optimal position.