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SEMICONDUCTOR SUBSTRATES MANUFACTURING MACHINES
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Technical Examples
- In a first aspect, a method of managing work in progress within a small lot size semiconductor device manufacturing facility is provided. The first method includes providing a small lot size semiconductor device manufacturing facility having (1) a plurality of processing tools; and (2) a high speed transport system adapted to transport small lot size substrate carriers among the processing tools. The method further includes maintaining a predetermined work in progress level within the small lot size semiconductor device manufacturing facility by (1) increasing an average cycle time of low priority substrates within the small lot size semiconductor device manufacturing facility; and (2) decreasing an average cycle time of high priority substrates within the small lot size semiconductor device manufacturing facility so as to approximately maintain the predetermined work in progress level within the small lot size semiconductor device manufacturing facility. Numerous other aspects are provided.
- A semiconductor device includes a plurality of semiconductor chips; and a plurality of substrates, each of the substrates having one of the semiconductor chips mounted thereon. The substrates are stacked each other. The upper and lower ones of the semiconductor chips mounted on a pair of the stacked substrates are electrically connected through first terminals provided in a region outside the region in which one of the semiconductor chips is mounted in each of the substrates. The lowest one of the substrates has second terminals provided in its region closer to its center than its region in which the first terminals are provided, the second terminals electrically connected to one of the semiconductor chips. A pitch of adjacent two of the second terminals is wider than a pitch of adjacent two of the first terminals.
- A method for a semiconductor process includes correlating yield loss for the performance of a processing step in a semiconductor manufacturing process with the mechanical placement of the semiconductor substrate and, based on the correlation, placing semiconductor substrates in a position with sufficient placement precision to reduce yield loss below a predetermined threshold.
- The invention includes a method for treating a plurality of discrete semiconductor substrates. The discrete semiconductor substrates are placed within a reactor chamber. While the substrates are within the chamber, they are simultaneously exposed to one or more of H, F and Cl to remove native oxide. After removing the native oxide, the substrates are simultaneously exposed to a first reactive material to form a first mass across at least some exposed surfaces of the substrates. The first reactive material is removed from the reaction chamber, and subsequently the substrates are exposed to a second reactive material to convert the first mass to a second mass. The invention also includes apparatuses which can be utilized for simultaneous ALD treatment of a plurality of discrete semiconductor substrates.
- The invention includes a method for treating a plurality of discrete semiconductor substrates. The discrete semiconductor substrates are placed within a reactor chamber. While the substrates are within the chamber, they are simultaneously exposed to one or more of H, F and Cl to remove native oxide. After removing the native oxide, the substrates are simultaneously exposed to a first reactive material to form a first mass across at least some exposed surfaces of the substrates. The first reactive material is removed from the reaction chamber, and subsequently the substrates are exposed to a second reactive material to convert the first mass to a second mass. The invention also includes apparatuses which can be utilized for simultaneous ALD treatment of a plurality of discrete semiconductor substrates.
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