Estimating the effects of finance constraints and social learning on inventory investment, trade credit, and capital investment decisions /

Cunningham, Rose

January 1900

Thesis (Ph. D.)--Carleton University, 2004. / Includes bibliographical references. Also available in electronic format on the Internet.

Technology, industrial organization & industrial policy governments of South Korea & Taiwan in information technology industrial development /

Kanatsu, Takashi,

January 2002

Thesis (Ph. D.)--Columbia University, 2002. / Includes bibliographical references (leaves 186-197).

Cost of industrialization of the post war Newly Industrialized country. With Hsinchu Science Industrial Park as example.

閻敬儀, Yen, Ching Yi

Unknown Date

After the Second World War, Taiwan had at beginning of industrialization dependent on the financial aid and technology innovation from America and Japan. And by 1980s, Taiwan had become manufacturing giant, and the growth seem to be well balanced. However as with all the developing countries, the amazing economic growth is not without it’s price. Like most of the developing countries, Taiwan is ill prepare to deal with the problem cause by the remarkable economic growth, especially the environmental problem incurred by the industrial production. Since 70s, Taiwan had been developing the IT industry. In 1992, price fall, firms began to look for producers whom were able to produce high quality products at low cost, and they found Taiwan with all the requirements. The feasibility of this development has not been properly investigated. Environmental problems at Hsinchu Science-based Industrial Park are traffic congestion, air pollution, groundwater and land contamination, pollution of rivers etc. Those problems result from the lack of capacity in dealing with industrial waste, imperfect information lead to ineffective regulation, lack of proper waste management. Although there are cost and benefit to the successful high tech industry, most are ignored about the negative externality spin off from the capitalistic production; economic analysis of this problem could help us understand the issue in depth.

Semiconductor industry

pollution

capitalistic production

Hsinchu Science Industrial Park

Barriers that influence the decision of semiconductor specialists to teach part-time at community colleges

Smith, David E., 1943-

11 December 1996

There is a shortage of qualified community college technical instructors in new and emerging technologies. The purpose of this study was to investigate the barriers that may affect the decision of semiconductor specialists to teach part-time at community colleges. The desired outcome is to enable community colleges to increase the pool of part-time faculty from the semiconductor industry. This study identified four primary barriers that could affect an individual's decision to teach: (a) interest in teaching, (b) self-efficacy, (c) awareness of teaching opportunities, and (d) faculty development. As community colleges seek to fill the increasing demand for part-time technical instructors, industry seeks to increase its ranks of technical employees. A survey of technical specialists from the semiconductor industry showed high levels of professional experience, interest in teaching, and various experiences in teaching. An important finding of this study, however, was the overwhelming lack of awareness (83%, n=76) of teaching opportunities at community colleges. If community colleges are to increase their pool of part-time technical faculty, it is necessary for technical specialists to be aware that part-time teaching positions are available. If industry is to fill its growing need for qualified technical specialists, it should be willing to share some of the talent of its best employees with the community. / Graduation date: 1997

Community college teachers -- Psychology

analysed the business model of venture capital industry form industry evolution---the semiconductor industry of Taiwan as an example

Shih, Chin-chung

30 June 2005

Extensive relevant literatures, the research of the company , Hi-Tech industry , semiconductor industry is quite abundant to starting an undertaking, mostly leave for the discussion in terms of pioneering venture capital company, Its content has: Achieve the investment of investing the company and financing behavior , influence achieving and throwing the factor that the company invests in , achieving and throwing the company to the administration behaviour carried on of venture capital company. Lack researchs to probe into the behaviors of venture capital company as different industry life cycle stages for company behavior. So, this research attempts to base on business model of semiconductor industry and the products demand characteristic of the semiconductor, in order to find out about venture capital company¡¦s business model. Take the quality research approach mainly in this research, through investing the relevant personage of the industry and carrying on depth interview with start an undertaking to the industry of the semiconductor. The result of study is found: First, in the development in the future of IC industry, large-scale IDM and the competitions of Virtual IDM two kinds of main types of operation will appear; Second, will achieve and throw for the subject with the group type in achieving and throwing the development in the future of the cause in Taiwan; Third, make an investment in industry of the semiconductor more types of operation of going into operation industry of wound are under the jurisdiction of the passive role, receiving the type of operation of semiconductor manufacturer and demand characteristic of the products mainly influences; Fourth, on industry's technology import respect of the semiconductor, research unit and person who creates throwing industry of the industry are cognitive and different. So, it is mainly adjusted with transition of the demand characteristic of the products on the type of operation of the industry of the semiconductor of Taiwan that this research is thought. It is more passive role to create the going into operation industry , is interacted with demand characteristic of the products to leave and react by the semiconductor manufacturer mainly. So, in the development in the future, with the merger trend of the industry of the semiconductor, Taiwan¡¦s venture capital company will also move towards the way to combine.

semiconductor industry

industry life cycle

business model

venture capital industry

Technological Progress and Organizational Change: An Empirical Study in Taiwan Semiconductor Industry

Wang, Wei-ning

02 February 2007

The focus of this paper is to discuss the relationship between organizational changes and information communication technology (ICT) in Taiwan semiconductor industry. Besides, we also examine the effect of ICT adoption workforce on productivity and organizational change. In this paper, our organizational change includes electronics ICT and manpower saving cost. We develop a treatment effect to estimate organizational change. Electronics ICT adoption leads organizational change and then causes firms to employ less low-skilled labors. Organizational change also makes productivity growth further in semiconductor industry.

Semiconductor Industry

Productivity

Organizational Change

Information Communication Technology

A Study of Integrated Devices Manufacturer Assembly and Testing Outsourcing Strategy

Tu, Szu-Hsiao

11 February 2008

The unpredictability of Semiconductor Industry Cycle and high business risk from high Capital Expenditure (in short Capex) result in IDM¡¦s (Integrated Devices Manufacturer) preference in ¡§Asset Lite¡¨ strategy. The key approaches are reducing Capex in in-house facilities, joint-venture Fab with other semiconductor companies, sell production facilities to foundry or SATS (Semiconductor Assembly and Test Service), spin-off part of semiconductor division to have better differentiation and even joint-venture with SATS, in one word, the structure of semiconductor industry is in transition stage. This study is to review the evolution process of semiconductor industry from only IDM in 60 year ago to the rise of Fabless company who is playing a very key role in some semiconductor devices. IDM had started to do outsource business and decided to increase the business volume. We are going to understand what influence Fabless had caused in the industry and how IDM could adjust itself toward outsourcing strategy.

Integrated devices manufacturer

Asset lite

Semiconductor industry

Fabless

An Analysis of Value Creation Capacity - The Case of Taiwan Semiconductor Industry

Wang, Ya-jhen

11 February 2009

In this study, for elimination the bias of accounting traditional policy resulted, I use economic value added (EVA) to analyze the performance of Taiwan semiconductor industry. Its findings are as follows: 1.Taiwan semiconductor industry's operating performance is vloatile, the standard deviation of EVA-Spread is more than 14% for years, inter-firm difference in performance is becoming increasingly, and less of 50% of companies is worth to invest. 2.The reason of EVA-Spread performance influence as WACC, mainly be influenced by bank interest rates and industry capital structure changes. And the factors affect ROIC, including the global demand for semiconductor and the real GDP growth rate of Taiwan, Hong Kong, Japan and Singapore, but not related with China¡¦s real GDP growth rate. 3.In Sub-industries, IC design industry is the best performance and steady, but there is obviously different in inter-firm; semiconductor equipment industry has the worst performance and negative EVA-Spread in recent 7-years. IC manufacturing without DRAM has nice performce in recent 5 years and more and more stable. In the orher hand, DRAM industry has performed poorly. That means that corporations have obvious effect on performance in various sub-industries. 4.Focus on the stability of sub-industries performance, the IC design industry has minimum volatility, secondary is lead-frame, photomask and IC packaging and testing industries. And the maximum volatility is DRAM industry and then is DRAM module and semiconductor equipment industry. On the growth, IC packaging and testing, wafer material, manufacturing without DRAM and substrate industries are steady growing industries. Although lead-frame industry is a kind of slow-growing industry, but its EVA-Spreads are minus. Other, flash module and photomask industries are declining industries. 5.Focus on the investing behavior and value creation capcity, when IC packaging and testing, substrate, wafer material and photomask industries increasing their capital, would be helpful to increase EVA-Spread; and it would not be helpful on semiconductor equipment, flash module and IC design industries. 6.It is related with the sub-industries of IC design, substrate, packaging and testing, wafer material, discrete devices, DRAM and flash industries, and IC manufacturing industry without DRAM. It implied that these 7 sub-industries affected by the semiconductor business. It is not related with the sub-industries of semiconductor equipment, DRAM module, lead-frame, photomask and other industries, and the IC manufacturing without DRAM. It implied that these 5 Sub-industries deeply affected by other factors.

Semiconductor industry

EVA-Spread

economic value added

return on invested capital

Using intelligent vehicle control rules to improve AMHS performance in highly dynamic manufacturing environments /

Putra, Handi Chandra,

January 1900

Thesis (M.S.)--Texas State University-San Marcos, 2008. / Vita. Includes bibliographical references (leaves 43-46). Also available on microfilm.

TECHNOLOGICAL INNOVATION IN THE SEMICONDUCTOR INDUSTRY: ITS RELATION TO R & D SUBSYSTEM WORK CLIMATE

Abbey, Augustus

January 1981

The purpose of this study is to examine the work environment of research and development (R & D) subsystems and ascertain the relationship between technological innovation and the work environment. The focus of the study is the semiconductor industry, (SIC 3674), which is a prime example of a rapid growth, research intensive industry. The industry, in the past decade, has been characterized by very rapid technological advances with a subsequent high growth rate for most firms in the industry. Two instruments were developed to measure technological innovation. The first instrument, the innovation index, estimated the actual innovations developed by each company since 1970. The index consisted of a comprehensive list of technological innovations that could have been adopted and developed by the companies in the industry. The second instrument, the perceived innovativeness questionnaire, assessed company innovativeness as perceived by the R & D personnel. The R & D work environment was assessed with the work climate questionnaire which consisted of ten work climate dimensions, selected for their theoretical relevance and importance in the light of prior research on innovation. These dimensions were: autonomy, cooperation, supportiveness, structure, level of reward, performance-reward dependency, achievement motivation, status polarization, flexibility and decision centralization. Interviews were conducted as part of the research study to provide information on the development of innovations in the semiconductor industry and, secondly, to determine what changes, if any, had occurred in the nature of the work environment of the R & D subsystems of the semiconductor companies. Data for the study were collected from eight semiconductor companies (SIC 3674). Respondents included all the vice presidents for the R & D subsystems of the companies and a total of 136 research and development personnel from the eight companies. Content analysis of the interviews suggests that: (1) innovation development in the semiconductor industry is perceived as a multiphased process rather than a single event. This process consists of three stages: idea generation and evaluation (initiation stage); approval and adoption stage; and development and implementation stage; and (2) the work environment of the R & D subsystem is characterized by relative stability of work climate over a period of time. Statistical analyses of the data offer some support for the view that technological innovation is related to the R & D subsystem work climate. Significant positive relations were found between technological innovation and the work climate dimensions of performance-reward dependency, flexibility, achievement motivation, autonomy, cooperation, supportiveness and perceived innovativeness; significant negative relationship was found between technological innovation and decision centralization. Work climate differences between the high innovative group and low innovative group showed significant differences between the two groups in the work climate dimensions of autonomy, performance-reward dependency, achievement motivation, flexibility, decision centralization and perceived innovativeness. The results of the study suggest that: (1) technological innovation is related to R & D subsystem work climate; (2) the nature of work climate that characterizes the R & D subsystems of highly innovative companies is different from that which characterizes their less innovative counterparts.

Technological innovations -- Management.

Work environment.