Developing incremental capacity during seasonal demand for technologies beyond 90 NM in semiconductor fabrication industry

This research is to develop a new approach to accelerate capacity increment from unexpected additional demand at semiconductor fabrication by 10%. The issue is from unpredictable demand at short notice to increase capacity by 10% in future period or as high as 35%historically. Current improvement...

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Main Author: Mohd Azizi, Chik
Other Authors: Professor Dr. Uda Hashim
Format: Thesis
Language:English
Published: Universiti Malaysia Perlis (UniMAP) 2019
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Online Access:http://dspace.unimap.edu.my:80/xmlui/handle/123456789/61624
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spelling my.unimap-616242019-09-03T09:36:33Z Developing incremental capacity during seasonal demand for technologies beyond 90 NM in semiconductor fabrication industry Mohd Azizi, Chik Professor Dr. Uda Hashim Semiconductors Semiconductors industry Capacity increment Semiconductor fabrication This research is to develop a new approach to accelerate capacity increment from unexpected additional demand at semiconductor fabrication by 10%. The issue is from unpredictable demand at short notice to increase capacity by 10% in future period or as high as 35%historically. Current improvements practice for capacity increment such as increase in equipment throughput, availability and manufacturing efficiency will take up to six months to be effective are not able to solve this issues. This is due to the processing steps that range from 300 to 1000 with cycle time 30 to 90 days. Plus, the new improvements from equipment usually need data to verify electronically to understand the impact from the product quality and reliability. The traditional improvements from equipment are still relevant for medium or long-term solution. Another approach for capacity increment is through investing in new or refurbished equipment. Investing new equipment required Capital expenditure (CAPEX) range from USD 20 to 30 million for additional capacity of 1,000 wafers per month. This huge investment will takes up from 10 up 14 months for equipment ready to support production and only afford by big scale companies. Newly popular strategy is to do outsourcing to another fab, but again, initial stages needs six to nine months for product to qualify for production, however when the outsourcing fab is qualified and fully loaded, it is not guaranteed to absorb additional loading. Thus, make this research topic valuable and significant for the situation current economic trends. The new approach is based on the philosophy of borrowing the future capacity into current time when immediate capacity increment is needed. As the capacity usually determine by total number of processing steps that need to process at the constraint equipment, this research concluded that the higher re-entrance steps caused lower the capacity of a fab at exponential trend. Through similar approaches taken from specification from SEMI and others literature the baseline capacity successfully developed at 22,511 wafers per month. Therefore in this case to increase the capacity at a time, it needs lowered reentrance steps, by recalculating the capacity not based plan order demand but by using preferred WIP to reduce the impact from exponential impact. In order to this, the cycle time and the equipment output needs to be integrated in production systems for real time validation and the information then needs to store into databases and integrated with simulation model for the system to be able identify immediately for the WIP that able to help to increase the capacity with high accuracy planning. The data collection and the simulation models used commercial software from Applied Material which is Advance Productivity Family and AutoshedAP, that proven in this research at 97% accuracy for 30 days output WIP forecasting. The simulation results in the models successfully demonstrated accelerate capacity increment by 21%, and actual implementation of capacity increment by 33% and the research meets its original objective. 2019-09-03T09:36:33Z 2019-09-03T09:36:33Z 2015 Thesis http://dspace.unimap.edu.my:80/xmlui/handle/123456789/61624 en Universiti Malaysia Perlis (UniMAP) Institute of Nano Electronic Engineering
institution Universiti Malaysia Perlis
building UniMAP Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Perlis
content_source UniMAP Library Digital Repository
url_provider http://dspace.unimap.edu.my/
language English
topic Semiconductors
Semiconductors industry
Capacity increment
Semiconductor fabrication
spellingShingle Semiconductors
Semiconductors industry
Capacity increment
Semiconductor fabrication
Mohd Azizi, Chik
Developing incremental capacity during seasonal demand for technologies beyond 90 NM in semiconductor fabrication industry
description This research is to develop a new approach to accelerate capacity increment from unexpected additional demand at semiconductor fabrication by 10%. The issue is from unpredictable demand at short notice to increase capacity by 10% in future period or as high as 35%historically. Current improvements practice for capacity increment such as increase in equipment throughput, availability and manufacturing efficiency will take up to six months to be effective are not able to solve this issues. This is due to the processing steps that range from 300 to 1000 with cycle time 30 to 90 days. Plus, the new improvements from equipment usually need data to verify electronically to understand the impact from the product quality and reliability. The traditional improvements from equipment are still relevant for medium or long-term solution. Another approach for capacity increment is through investing in new or refurbished equipment. Investing new equipment required Capital expenditure (CAPEX) range from USD 20 to 30 million for additional capacity of 1,000 wafers per month. This huge investment will takes up from 10 up 14 months for equipment ready to support production and only afford by big scale companies. Newly popular strategy is to do outsourcing to another fab, but again, initial stages needs six to nine months for product to qualify for production, however when the outsourcing fab is qualified and fully loaded, it is not guaranteed to absorb additional loading. Thus, make this research topic valuable and significant for the situation current economic trends. The new approach is based on the philosophy of borrowing the future capacity into current time when immediate capacity increment is needed. As the capacity usually determine by total number of processing steps that need to process at the constraint equipment, this research concluded that the higher re-entrance steps caused lower the capacity of a fab at exponential trend. Through similar approaches taken from specification from SEMI and others literature the baseline capacity successfully developed at 22,511 wafers per month. Therefore in this case to increase the capacity at a time, it needs lowered reentrance steps, by recalculating the capacity not based plan order demand but by using preferred WIP to reduce the impact from exponential impact. In order to this, the cycle time and the equipment output needs to be integrated in production systems for real time validation and the information then needs to store into databases and integrated with simulation model for the system to be able identify immediately for the WIP that able to help to increase the capacity with high accuracy planning. The data collection and the simulation models used commercial software from Applied Material which is Advance Productivity Family and AutoshedAP, that proven in this research at 97% accuracy for 30 days output WIP forecasting. The simulation results in the models successfully demonstrated accelerate capacity increment by 21%, and actual implementation of capacity increment by 33% and the research meets its original objective.
author2 Professor Dr. Uda Hashim
author_facet Professor Dr. Uda Hashim
Mohd Azizi, Chik
format Thesis
author Mohd Azizi, Chik
author_sort Mohd Azizi, Chik
title Developing incremental capacity during seasonal demand for technologies beyond 90 NM in semiconductor fabrication industry
title_short Developing incremental capacity during seasonal demand for technologies beyond 90 NM in semiconductor fabrication industry
title_full Developing incremental capacity during seasonal demand for technologies beyond 90 NM in semiconductor fabrication industry
title_fullStr Developing incremental capacity during seasonal demand for technologies beyond 90 NM in semiconductor fabrication industry
title_full_unstemmed Developing incremental capacity during seasonal demand for technologies beyond 90 NM in semiconductor fabrication industry
title_sort developing incremental capacity during seasonal demand for technologies beyond 90 nm in semiconductor fabrication industry
publisher Universiti Malaysia Perlis (UniMAP)
publishDate 2019
url http://dspace.unimap.edu.my:80/xmlui/handle/123456789/61624
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score 13.222552