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McKinsey – Building the Supply Chain of the Future, McKinsey Quarterly (Yogesh Malik, Alex Niemeyer and Brian Ruwadi, Jan. 21, 2011)

[Module 4 – Challenge of scale up]

Module 5 – Challenge of scale down]
Many global supply chains are not equipped to cope with new economic production realities. “Most were engineered, some brilliantly, to manage stable, high-volume production by capitalizing on labor-arbitrage opportunities available in China and other low-cost countries. But in a future when the relative attractiveness of manufacturing locations changes quickly--along with the ability to produce large volumes economically -- such standard approaches can leave companies dangerously exposed.”

“…Pioneering supply chain organizations are preparing themselves in two ways. First, they are "splintering" their traditional supply chains into smaller, nimbler ones better prepared to manage higher levels of complexity. Second, they are treating their supply chains as hedges against uncertainty by reconfiguring their manufacturing footprints to weather a range of potential outcomes.” Thus, to meet diverse requirements from a variety of customers and circumstances, companies must have a flexible supply chain that splinters the traditional monolithic model to smaller branches.

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Conexus Indiana, Manufacturing and Logistics 2011 National Report

http://cber.iweb.bsu.edu/research/conexus11/

http://cber.iweb.bsu.edu/research/conexus11/NationalReport11.pdf

[Module 7 – Policy inputs (measures effects of policies such as tax burden, benefits costs and VC availability)]


Conexus Indiana is “a private sector-led initiative focused on the advanced manufacturing and logistics sectors” – together these two industries employ more than one of every five residents of Indiana. Conexus’s 2011 National Report is in “report card” format and grades each state on a series of areas of its economy that it concluded determine the success of U.S. manufacturing and logistics. A robust logistics industry, it believes, which involves the movement and inventory of goods, is crucial for the success of the manufacturing industry.
These specific measures are based on publicly available data sets, and run across a series of categories, including: manufacturing and logistics health; human capital; the cost of benefits; the global position and diversification of the industries; state level productivity and innovation; the tax climate; and venture capital activities. Each state is graded on its performance in each category. Examples of two of these categories Conexus believes are significant in assessing manufacturing and logistics capability in states follow below:
Highlights:

Venture Capital: “Access to venture capital is a key step for nascent business expansion efforts. This seed money is offered by a small segment of financial service providers interested in high yield activities, typically involving technology or high-end intellectual property. Venture capital activities rely on deep industry research and analysis as well as a bridge of expertise in potential markets. This understanding of potential markets, the commercialization process and the core management assistance to new companies distinguishes venture capital (VC) from other investment tools. Both public activities like Indiana’s 21st Century Fund and private firms engage in venture capital efforts. The presence of available venture capital is widely felt to be a key indicator of the maturity of the regions commercialization networks and is a widely used indicator of the health of innovation and creativity.” The states with the highest total per capita venture capital expenditures are California, Colorado, Massachusetts, New Jersey, and Washington.
Human Capital: “Workers represent the largest single cost of doing business, but more importantly are the source of most innovation and process improvements that distinguish successful firms from those that are not successful. … The factories, rail yards, distribution facilities and machine shops of today are complex, highly technical and are dependent on workers who can work successfully in this environment. Human capital, which in the United States is almost entirely the quality of educational background, is the most important factor in firm location decisions.” The methodology involved in ranking states involves educational attainment of state residents, retention rates of community colleges and vocational schools, and number of associate degrees awarded annually. The states with the highest rankings based on this methodology include Minnesota, New Hampshire, Pennsylvania, Utah, and Washington.

Gary Pisano and Willy Shih, Restoring American Competitiveness, Harvard Business Review (July, 2009) http://hbr.org/2009/07/restoring-american-competitiveness/ar/1

[Module 1 – Manufacturing technologies

[Module 3 – Cross border production issues

[Module 4 – Challenge of scale-up]

[Module 7- Policy Inputs]
Reversing the decline of manufacturing competitiveness is crucial for U.S. to pay down deficit and raise standard of living. Two major changes are needed:


  1. Government must foster collaboration among itself, academia and business when funding basic and applied scientific research to tackle large societal problems.

  2. Corporations must better understand and cease exaggerating the payoffs and dismissing the problems associated with outsourcing production and reducing R&D


Short Summary of threat to US technology manufacturing leadership: There are a series of technology effects the U.S. is now facing in key advanced industrial sectors:

1. The “Kindle 2” could not be made in the US:



    1. Flex circuit connector – China

    2. Electrophoretic display – Taiwan

    3. Controller – China

    4. Lithium polymer battery – China

    5. Wireless card – China

    6. Injected molded case – China

2. Eroding US ability to create:

    1. every brand of US notebook computer (except Apple) and of mobile/handheld designed in Asia


Advanced Technology sectors at risk of shifting abroad:

  1. Advanced materials:

    1. Gone from U.S. production: advanced consumer composites, advanced ceramics, IC packaging

    2. At Risk: carbon composite components for aerospace/wind

  2. Computing and Communications:

    1. Gone: desktop, notebook, netbook PC’s, low end servers, hard disk drives, routers, home network tech

    2. At Risk: midrange servers, blade servers, mobile handsets, optical comm. equipment, core network equipment

  3. Green technology/Storage:

    1. Gone: Lithium ion, lithium polymer batteries for consumer electronics, chrystalline and poly-crystalline silicon solar cells, bulk of wind turbines

    2. At Risk: thin film solar

  4. Semiconductors:

    1. Gone: fabless chips, bulk of SC mfg.

    2. At Risk: flash memory chips

  5. Displays:

    1. Gone: LCDs, electrophoretics

    2. At Risk: next gen “electronic paper”

Further details on these issues follow below:
The competitive problem: Negative trade balance in high-tech products since 2002
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Complex innovative assignments are outsourced:



  • U.S. software industry

  • Energy-efficient illumination R&D

  • Batteries

  • Carbon fiber component for Boeing’s new 787 Dreamliner

Decreased domestic capability to innovate and subsequently manufacture



  • “For example, nearly every U.S. brand of notebook computer, except Apple, is now designed in Asia, and the same is true for most cell phones and many other handheld electronic devices.” Almost every U.S. brand of laptop is designed and manufactured in Asia.

  • The “Industrial Commons”: “A foundation for innovation and competitiveness, a commons can include R&D know-how, advanced process development and engineering skills, and manufacturing competencies related to a specific technology.

    • Being geographically close to an industrial commons offers a competitive advantage, which explains why certain types of industrial companies tend to cluster together: “Detailed empirical work on knowledge flows among inventors by our HBS colleague Lee Fleming shows that proximity is crucial. An engineer in Silicon Valley, for instance, is more likely to exchange ideas with other engineers in Silicon Valley than with engineers in Boston.”

    • Studies show that main flow of knowledge transfer occurs when people switch jobs from one company to another, and vast majority of job switching is local, so knowledge stays within geographic cluster and Commons persist

    • Even though large amount of scientific data can now be accessed from anywhere in the world, such as the data for the Human Genome Project, the actual drug research that HGP generated is mainly concentrated in research clusters in Boston, San Francisco, and San Diego areas

    • “Our research on the semiconductor, electronics, pharmaceutical, and biotech industries has found that commons are even more important to countries’ and companies’ prosperity than is generally believed. That’s because innovation in one business can spawn whole new industries.”

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Decline of manufacturing in a region (outsourcing production and R&D) sets off a chain reaction - it means a “tragedy of the commons” scenario for U.S. manufacturers and tech companies:



  • Outsourcing may present an ephemeral competitive advantage, but this “advantage” is contagious, so other companies in the area follow suit. None can maintain cost-saving “advantage” from outsourcing production and R&D while experienced employees move out of the region and students shy away from the field due to the lack of employment opportunities. The commons loses “a critical mass of work, skills, and scientific knowledge and can no longer support providers of upstream and downstream activities, which are, in their turn, forced to move away as well. This is what happened to the industrial commons serving a number of high-tech sectors in the United States.”

How Government can restore the Commons:



  • Increase federal funding for basic and applied scientific research

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  • Focus resources from government/business/academic on solving “grand challenge problems” such as climate change and water scarcity

  • Let failing companies that “suck the vitality out of the Commons” die

How Businesses can restore the Commons:



  • Innovation and capability as main pillars of company strategy

  • Invest in long-term high risk basic and applied research

  • Collaborate with government and academia

  • Elect a tech-savvy board of directors



Additional Manufacturing Reports:
AFL-CIO, Industrial Union Council – Manufacturing Insecurity (by Joel Yudken)
AFL-CIO – Manufacturing Renewal is Central to U.S. Economic Recovery (Organization’s Official Manufacturing Statement)
AFL-CIO – Manufacturing Our Way to a Stronger Economy (Testimony of Leo Gerard to Senate Commerce)
McKinsey Global Institute – Translating innovation into US growth: An advanced-industries perspective.
Athena Alliance – Intellectual Capital and Revitalizing Manufacturing - Intellectual Capital and Revitalizing Manufacturing [a critique of White House’s A Framework for Revitalizing American Manufacturing]
Accenture – What's Your Plan for 2025?
NDIA – Maintaining a Viable Defense Industrial Base
McKinsey – Growth and Competitiveness in the U.S.–The Role of Multinational Companies
IDA Science & Technology Policy Institute (STPI) – White Papers on Advanced Manufacturing Questions
Manufacturing Institute (NAM), The Facts about Modern Manufacturing (2009)
Boston Consulting Group, Made in America, Again – Why Manufacturing Will Return to the

U.S. (August 2011)


Univ. of Cambridge Institute for Manufacturing Management Technology Policy – Engineering and Physical Science Research Council, A Review of International Approaches to Manufacturing Research (Eoin O’Sullivan, March 2011)

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