Robert C. Pfahl scite author profile

The tenth anniversary edition of the biennial roadmap is the first edition under our new name: International Electronics Manufacturing Initiative (iNEMI). The nineteen technology roadmaps identify future research, development, and implementation needs to continue the growth of the worldwide electronics industry. During this roadmap cycle, we consciously targeted participation from key Asian and European firms/organizations in order to help insure that the technology projections truly represent a global view. With this roadmap we established an international collaborative agreement with the IEEE / CPMT (Institute of Electrical and Electronics Engineers / Components, Packaging and Manufacturing Technology), while continuing our strong linkages with other international roadmapping organizations -ITRS, IPC, IMAPS, INSIC, SCC, and OIDA-and with USDC. The 2004 iNEMI Roadmap consists of over 1200 pages, with more than 470 participants from over 220 companies, universities and associations from 11 countries. This paper highlights technology needs, paradigm shifts, strategic concerns, and key recommendations from the roadmap. Emphasis is placed on the advanced packaging, sensors, system in package, and organic and ceramic substrate roadmap chapters. This roadmap has increased the focus on forecasting potentially disruptive technology in the 2012-2015 time frame such as the use of nanotechnology to address the projected end of Moore's law and the scaling of CMOS devices. This roadmap balances the market needs against the future technology capabilities. The 2004 iNEMI Roadmap is a valuable snapshot of our industry in the third millennium. The challenge now shifts to leveraging these findings for the good of the electronics manufacturing supply chain. .

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Nonlinear least squares: A method for simultaneous thermal property determination in ablating polymeric materials

Pfahl

1966

J of Applied Polymer Sci

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SynopsisA method of data int.eqxetation known as nonlinear least squares has recently been applied by several anthors to the study of polymeric materials. Nagler has used a modified method proposed by Blizzard and Jirka and has concluded that the method is impractical because it requires excessive computer time. It is shown that the difficulties Nagler encountered are inherent in Blizzard and Jirka's method, biit not in the basic method. Three steps are outlined to minimize computer time, and a summary of successful applications is presented.

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Simultaneous measurement of six thermal properties of a charring plastic

Pfahl

Mitchel

1970

International Journal of Heat and Mass Transfer

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Robert C. Pfahl

Industrial Ecology: Policy Potential and Research Needs

A Roadmap for Integrated Photonics

The 2004 International Electronics Manufacturing Initiative (iNEMI) Technology Roadmaps

Nonlinear least squares: A method for simultaneous thermal property determination in ablating polymeric materials

Simultaneous measurement of six thermal properties of a charring plastic

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