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The D. Allan Bromley Memorial Lecture: Bringing Advanced Innovation to Manufacturing
William B. BonvillianDirector, MIT Washington OfficeUniversity of Ottawa, May 14, 2012
Background: The U.S.-Canada PartnershipU.S.-Canada – the largest bilateral trade relationship in the
history of the world –Total merchandise trade: $530B (2007 pre-recession)
Enhanced through deep trade agreements - U.S.-Canada Auto Pact of 1965 to NAFTA
U.S.-Canada economies highly integrated – comparable standards of living and industrial structure
U.S. (pre-recession 2007): $300B in in imports from Canada and $230B in exports
We must care a lot about each other I bring today a perspective on U.S. manufacturing but it affects
both nations
I will outline steps I believe the U.S. must consider, and have been active in a number, but will leave details on the actions and who the actors might be to Q&A
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Hollowing Out?Employment:
Down almost 1/3 in a decade
Investment:Manufacturing fixed capital investment declined (accounting
for costs) in the 2000s for the first time since the data has been collected
Output:Adjusting gov’t data (for foreign component origin and
inflationary assumptions in IT and energy sectors), manufacturing output value declined in the 2000s
Decline in 16 of 19 sectors
Productivity:If output lower than assumed, productivity is lower
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We have been assuming we have been losing manufacturing jobs because of productivity gainsRecent work – “The Race Against the Machine,” for example - is
telling us that multiplying productivity gains from IT are displacing work as we know it.
Yet, historically - most recently in the tech boom of the 90’s - productivity gains, although disruptive initially, grow more jobs
Maybe that history is still true – and maybe we need to search for our profound job losses in the manufacturing sector.
That means “The Great Recession” is structural, not business cycle, so the Keynesian stimulus tools we have been applying won’t work well.
The Manufacturing Hollowing Out is why these aren’t working – requires a Structural strategy not a maco-economic strategy
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Manufacturing Remains a Major Sector
Manufacturing = $1.7 Trillion of $15T U.S. economy
Employs 12 million in workforce of 140m
Dominates the U.S. innovation system – 70% of of industrial R&D, 80% of patents, employs 64% of scientists and engineers,
The currency of international trade is complex high value goods – 80% of U.S. exports are high value goods (capital goods,
industrial supplies, transport goods, medicines)U.S. pre recession ‘07: $500B deficit in goods – on track to
return to that levelServices surplus ($160B) growing gradually but will not offset
manufacturing deficit in foreseeable future
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Underlying Issue: Our “Innovate here/Produce Here” AssumptionSince WWII - U.S. economy organized around
leading the world in technology advance. US led all but one of the innovation waves of the 20th
century – and growth economics tell us that technological & related innovation = 60%+ of growth
from aviation to electronics, to nuclear power, to computing, to the internet, to biotech
Missing an innovation wave is serious: Japan led quality mfg.; 1973-1991 tough for U.S. – GDP and productivity 1% below historical averagesResponse: ‘90s IT innovation wave and record growth
Our operating assumption - we would innovate here and WE would translate those innovations into products Would realize the full range of economic gains from
innovation at all stages It worked – world’s richest economy
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“Innovate here/Produce here” Bonds Breaking?
With global economy, assumption of innovate here/produce here no longer holds. In some industrial sectors, can now sever
R&D and design from production –That brings the economic foundation of our
innovation-based economy into question. Why invest in innovation here if gains elsewhere?
Last 25 years – IT/electronics allowed severing of R&D/design from production via IT-based specs; commodity goods, tooDistributed Manufacturing – Apple iPod
example
But other sectors still require deep connection between R&D and production – constant reengineering and improvements to cut costs
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Mind The Connection between R&D/Design and Production in Different Sectors3 basic kinds of produced goods:
(1) IT, (2)bio/pharma, and complex (3) electro- mechanical-aero
First – can sever R&D/design from production using batch processing (bio/pharma), IT specs (IT goods)
Electro-mechanical-aero – tie R&D/prod.– variables too complexEnergy, for ex., is in the 3rd electro-mechanical category – need
to connect R&D/design with production
If offshore production, will design/R&D follow?Distributed Mfg.: risk losing production; the rest: lose production, will design/innovation follow?
Underlying all this: Competing with low cost/wage high tech competitors: must have production productivity gainsThat means new innovation req’d: technology and
processes
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If Manufacturing is changing, what are the New “Geopolitics of Manufacturing”?U.S. has gone through 3 phases:
1789-1945 – Alexander Hamilton saw that U.S. independence and security would be built on its commercial strength – U.S. pursued strong self-dependence in manufacturing through WW2
1945-1993 – Cold war competition with Marxist economic system – U.S. strategy: North America, Western Europe, Japan in a system of mutual economic dependence and integrated economies among allies.
1993-now: Clinton: unified global economy is way to integrate China into the world system – manufacturing would be global – decentralized and integrated
If manufacturing is no long a tool of national security, can technology leadership shift?
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Competiveness Then and Now – much more complex
JAPAN v. U.S. – 1970’S – 80’S
CHINA v. U.S. - Today
High cost, high wage, advanced technology economy – comparable to the U.S.
Low cost, low wage, increasingly advanced technology economy
U.S. had entrepreneurial advantage, Japan had industrial policy advantage
Entrepreneurial and pursuing industrial policy
Rule of Law Limited Rule of Law
IP Protections Extensive IP theft
Subsidizes currency, buys U.S. debt
Following Japan’s model: subsidizes currency and largest holder of U.S. debt
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This Competition = Eroding U.S. Advanced Technology Sectors
Shifted abroad:Every brand of notebook computerEvery mobile/handheldDisplays
Shifting abroad? Major erosion in:Advanced materialsComputing and communicationsRenewable energy technologies and storageSemiconductor production
The Kindle could not be made in the U.S.
$100B trade deficit advanced tech goods
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Behind it all: Understanding the Hourglass --
<---- Resources, Suppliers, Components, Innovation
<--- Production (12m jobs)
<--- Distribution, Sales, Life Cycle
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It is an Hourglass because we know Mfg. is a Job Multiplier:Economic Policy Institute: Mfg. job
multiplier - 2.90
Milken Institute: 2.50 multiplier
Zobel (Germany) smart manufacturing factory supports 5.2 additional jobs
High-tech manufacturing industries appear to have greater multipliers - Electronic computer manufacturing multiplier of 16
[ITIF 4/11 summary]
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Change in Median Household Income, 2000-2011 (inflation adj.)
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+2
0
-2
-4
-6
-8
-10
-12
CAUSE: STRUCTURAL RECESSION – Centered in Mfg.Source: G.Green, J.Coder (10/11, based on Census Bur. Data)
If it is a structural recession with a base in manufacturing, this
requires:
Innovation in Advanced
Manufacturing:
9 Steps to consider
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Need to Keep in Mind the Levels in the US Manufacturing Sector
Three elements in US mfg.:Large Multinationals (MNCs) – very international - will
locate in low cost production centers for productivity gains; need to be in emerging markets
Start-up and entrepreneurial firms – increasingly offshoring production – not a core competency, can’t get financing- So: next gen technologies shift?
300,000 small manufacturers – suppliers, component makers – bulk of US mfgThinly capitalized, risk adverse, no R&D
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Step #1: What technology advances = new manufacturing productivity = new paradigms?
“Network centric”
– mix of advanced IT, RFID, sensors in every stage and element, new decision making from “big data” analytics, advanced robotics, supercomputing w/adv’d simulation & modeling
Advanced materials
“materials genome” – ability with supercomputing to design all possible materials with designer features
Biomaterials, bio fabrication, syntehtic biology
Lightweighting everything
Nanomanufacturing
fabrication at the nano-scale
Mass Customization
Production of one at cost of mass production (ex.: 3D printing/additive mfg, etc.)
Distribution efficiency
IT advances that yield distribution efficiencies (incl. in supply chain)
Energy Efficiency – energy is “waste
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These tech paradigms are not optional – Companies will have to meet them
Timetable – starting to see these adv’d mfg. technologies emerge – will be pervasive in next 15 years
Just as with “Lean Mfg.” (way US firms responded to Japan’s model of the 70s-80s), today’s firms will need to pursue these advanced technologies because the competitive efficiencies are major
How will mass of 300,000 US SMEs adapt to these tech advances? Big challenge
US: strength on the design side – real limits on the commercialization and scale-ability side which advanced mfg. innovation would enable
US is not yet working systematically on this agenda
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Step #2 – Pick Tech Paradigms that Apply across SectorsManufacturing is sectoral, but with
increasing sectoral overlap for complex, high value goods An airplane is complex system: aero
design, electronics, IT, materials, etc.
Technology paradigms have to make sense in the sectors
Run a matrix – technology options against sectors they apply to – pick technologies with payoff across sectors
Include emerging sectors
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MATRIX: Tech Sectors/Mfg. Paradigms 25
Sector and Mfg. Pardigm
Bio/pharma
Aero-space
IT/electronics
Heavy Equip ment
Digital search, network
New energy
Trans port
Network -centric
x x x x x x x
Advanced materials
x x x x x x
Nano Mfg. x x x x x x x
Mass Customi-zation
x x x x x x x
Distribution Efficiency
x x x x x x
Energy Efficiency
x x x x x x x
Step #3 – Technology is Not Enough…Need to Look at all Three:
A) New Adv’d Mfg. Technology Paradigms - first building block
B) But need Process – adapt to production system
C) Then need Business and Organizational Model – has to work economically
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Step #4:, It’s no longer Manufacturing or Services21st Century firm increasingly fuses services,
production, supply chain management and innovation – IBM’s Lou Gerstner originated this model in the
90’sMany of these capabilities are knowledge “intangibles”
not fixed assets – learning to tie new equipment and technologies to new processes – fusing IT-informed services models with new mfg.
What is this emerging firm model? How pervasive? is it vertical or horizontal? is it integrated or the result of flexible leveraging other
firms’ specialty capabilities? Business model stage - will need to look at optimal
combined mfg./services model
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Step #5: Need to Look Over Our Shoulders
Look at competitor nation strategiesHard to understand the future of U.S.
manufacturing without evaluating the context of global manufacturer competitors and their strategies – learn from them – they are doing this and have “top down” not just “bottom up”
Look at: China/India/Brazil – large emerging Germany/Japan – large established High wage & cost – yet major mfg. surpluses
Korea/Taiwan – smaller scale, key nichesExpanding mfg. employment
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Step #6: Build the Workforce - Most of mfg. is now defined as services –
Need a new level of fused knowledge, skills in both
STEM Ed req’d; mfg.: pervasive basic STEM skill sets
Ed system doesn’t understand that innovation requires “mind and hand” “intelligent hand” - mix of skills, experimentalists and theorists –
learning by doing Additive manufacturing in schools?
It’s not just design as a stand-alone stage, design is over time also the ability to make, as well – education needs to incorporate
Very hard, still, despite distributed IT manufacturing, to sever design from production – mutually informative
Community college skills role w/industry certificationNew adv’d mfg. engineering curriculum – how to develop process
from lab bench technologies – lost in engineering curriculum
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Step #7: Innovation Organization - The Pipeline and the Seams
US pipeline innovation model organized with heavy federal basic research investment, some applied (from DOD) Limited investment in manufacturing R&D (including tech, process,
business model) - $800m – and not interagency
We institutionalize the “Valley of Death” in our R&D model
profound problems at the seams of the innovation pipeline – big disconnects between actors U.S. research strong; scaling/commercialization a problem:
Research – basic research agencies, univ’sApplied and later stages – industry, some DOD supportBut other intermediate steps will need public-private
connections –further down the pipeline to commercializationNot just R&D–pre-production networked organizational models
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We Need these Guys - DOD: Operates at Every Stage of the Innovation System - Historically Central Player
- Role in Adv’d Mfg.?REMEMBER -
DOD’s 20th Century
Innovation Waves:
Aviation
Electronics
Nuclear Power
Space
Computing
The Internet
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Step #8: Build Regional Infrastructure
No longer the Old Pipeline model – gov’t does Research and industry picks up the rest
Now: host of intermediary steps require public/private connections
Especially important: the TestbedWhere 300,000 SME’s test the efficiency and cost of new
mfg. technologies – they lack resources for this stageMfg. is regional not national – need to be in regional
clusters
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Research > Development > Prototype > Demonstration > Testbed > Production at Scale
Step #9: Financing Innovation - “5 Year Yardstick” doesn’t work in Mfg.
The Breakthrough system – the pipeline: federal R&D, univ. research, startups/entrepreneurs, VC’s angel, IPO’s 5-year yardstick based on IT model: VC’s fund
technologies no more than 2/3 years from commercialization, then the flip to an IPO within 3 years
New manufacturing technology paradigms probably require the breakthrough innovation system
But advanced manufacturing doesn’t fit the 5 year yardstick
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5-Year vs. 10-year Yardstick:Manufacturing doesn’t fit the 5-year yardstick:
New mfg. tech’s face the Valley of Death – Then they face the “Mountain of Death” – getting to market
launch at scale: major financing and price competitive at the outset of launch
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Valley of Death – 5 year scale up - creating connections and funding to move from research to late stage development
Mountain of Death: 10+ year scale up; major financing needed to scale, price competitive from moment of market launch
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Work-Arounds for the Mountain
Manufacturing – the 10+year yardstick Requires deeper, longer term, patient capitalization/finance
than ITLonger time to stage entry and to scale – 10+ years not 5It’s a complex, established “legacy” sector
US better at bringing innovation into new areas, not at introducing innovation into legacy areas
Different mindset – can’t create a company to sell it, as in IT, biotech
Work-Arounds for the Mountain of Death:Front end of the innovation system:
R&D programs designed for the breakthrough and to drive down prices/reduce production costsUS research agencies: “NMP” – Not My Problem – look at just research
not the implementation – change?ARPA-E and EERE considering
Back end of the innovation system?Andrew Lo – portfolio approach
Small commitments by large nos. of investors – use the internet Crowd-funding? Lotteries?
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Remember Innovation Organization Effects for the 3 kinds of Mfg Firms Different ---MNC’s
Respond to competitive cost competition by locating where they need to Will locate R&D near production when nexus needed – can go abroad,
avoid risk of adv’d technologies by offshoring to low cost
Entreprenurial/Startups pursuing scaleable tech’s VC’s won’t fund mfg. – not core competency So: Offshore production – reduce risk and costs But risk product control – knowledge spillover Lose next gen technologies
Small Manufacturers – bulk of US manufacturing Need productivity gains to stay competitive Lack resources, tech dev/access – so need proven technologies, processes Lack testbeds, financing for productivity options – miss tech waves
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Remember the Steps:#1- Technology advances that yield new
manufacturing paradigms #2 – Matrix - Pick new manufacturing technology
paradigms that apply across range of manufacturing sectors
#3 – Technology alone is not enough – also need process and business model
#4 –Fuse Services and Manufacturing#5 – Other nations - Better look over our
shoulder #6 – Build the Workforce #7 – Innovation Organization – Look at those
intermediary stages#8 – Build Regional Infrastructure#9 – Financing – The 5 vs. 10 year yardstick
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Remember: Manufacturing Scales
Economics focused on “decreasing returns”
Brian Arthur – helped us understand “increasing returns” tech advance lock in a standard, geometric increaseExs.: railroads, cars, Microsoft operating
system,desktops, iPod-iPad-iPhone,
Services scale slowly – face to face
Manufacturing key to “increasing returns” in an economy – fundamental to strong growth
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Wrap- up:Focus here is innovation, the supply side
– the demand side also needs attention: taxes, trade, regulation -- But: it’s STRUCTURAL NOT MACRO-ECONOMIC
Remember the Hourglass - we must understand the tie between production and other employment sectors – that’s why mfg. must be taken seriously
And Remember, Manufacturing Scales – key to growth
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