Productivity Dynamics and Drivers in U.S. Manufacturing
March 15, 2016 | MAPI FoundationEstimated reading time: 2 minutes
A new study by the MAPI Foundation, Productivity Dynamics in U.S. Manufacturing, analyzes productivity growth in a range of manufacturing subsectors over the past 25 years and provides compelling statistical evidence on the importance that capital investment and educated labor have on productivity performance.
The research explores the drivers of productivity performance on subsectors. In particular, the study looks for ways that manufacturers who have already invested in capital equipment can increase productivity and innovation.
The report is the first in a series on productivity that the MAPI Foundation is producing this year.
Produced by Cliff Waldman, director of economic studies at the MAPI Foundation, and sponsored by Rockwell Automation, a global leader in industrial automation, the study uses well-accepted theory and regression analysis of several decades’ worth of data to illuminate evidence that innovation and capital investment play a significant role in driving multifactor productivity growth (i.e., output per unit of a combined set of inputs including labor, materials, and capital) in a wide range of manufacturing subsectors. Capital investment is the mechanism by which productivity-enhancing innovation spreads through companies, supply chains, and the broad economy.
"In the manufacturing sector, strong productivity performance is needed to meet the globally driven challenges of cost pressures and competitiveness," Waldman observes. "For both manufacturing and the economy as a whole, the recent slowdown in productivity causes concern, because it contributes to both slow output and wage growth."
"Isolating the critical investments required to improve productivity performance is an important foundational element in the MAPI Foundation's first study," added Joe Kann, vice president of global business development at Rockwell Automation. "We look forward to the conclusions regarding industry-specific productivity drivers that will be identified in the remaining studies."
Waldman's research finds that another key link to productivity performance is the labor force participation rate of the population holding a B.A. degree or higher, in effect the economy's supply of educated labor.
Productivity Stagnation
The manufacturing sector, a traditional driver of overall productivity, has seen its pace of productivity growth slow over the last 15 years. As Waldman notes, part of this is due to slowing productivity growth in the computer and electronic products industry, which has played an outsized role in driving manufacturing productivity growth in recent decades.
According to the study, industry subsectors that have experienced relative improvements in productivity performance since 1993 include machinery, transportation equipment, and printing. But their growth has not been enough on an absolute basis to replace the decline in computer subsector productivity. Industries with a noticeable drop since 1993 in their relative pace of productivity growth include primary metals and petroleum and coal products.
Strong Subsector Correlations
The paper reveals strong cross-subsector correlations for both labor productivity growth and multifactor productivity growth. The apparent interconnectedness of productivity performance across industries, says Waldman, is likely the result of supply chain linkages, innovation spillovers, cluster impacts, and trade channels. Such evidence suggests that, where investments in any one industry lead to faster productivity growth, such expenditures can have impacts that extend to other subsectors as well.
Waldman concludes that a beneficial policy response must consist of a coordinated program that stimulates manufacturing equipment investment as well as innovation investment and increases the supply of educated labor in the broad economy.
The MAPI Foundation’s next study on productivity builds on this work and will reveal the findings of a national survey on technology and automation investment that was conducted to determine the drivers and pace of change in various manufacturing industries.
Suggested Items
Real Time with… IPC APEX EXPO 2024: Tools, Training, and Trends in Manufacturing Engineering
04/25/2024 | Real Time with...IPC APEX EXPOGuest Editor Kelly Dack and Product Specialist Erik Bateham of Polar Instruments discuss Polar's latest technology, including their role in aiding manufacturing engineers. They highlight the advanced capabilities of Polar's tools and the critical role of signal integrity analysis, as well as the importance of accurate modeling in board manufacturing. Polar's unique training approach and demonstration contact details are also explored.
TTM Celebrates the Grand Opening of Its First Manufacturing Facility in Penang
04/25/2024 | TTM Technologies, Inc.TTM Technologies, Inc., a leading global manufacturer of technology solutions including mission systems, radio frequency (RF) components and RF microwave/microelectronic assemblies, and quick-turn and technologically advanced printed circuit boards (PCBs), officially opened its first manufacturing plant in Penang, Malaysia with an investment of USD200 million (approximately RM958 million).
Listen Up! The Intricacies of PCB Drilling Detailed in New Podcast Episode
04/25/2024 | I-Connect007In episode 5 of the podcast series, On the Line With: Designing for Reality, Nolan Johnson and Matt Stevenson continue down the manufacturing process, this time focusing on the post-lamination drilling process for PCBs. Matt and Nolan delve into the intricacies of the PCB drilling process, highlighting the importance of hole quality, drill parameters, and design optimization to ensure smooth manufacturing. The conversation covers topics such as drill bit sizes, aspect ratios, vias, challenges in drilling, and ways to enhance efficiency in the drilling department.
Elevating PCB Design Engineering With IPC Programs
04/24/2024 | Cory Blaylock, IPCIn a monumental stride for the electronics manufacturing industry, IPC has successfully championed the recognition of the PCB Design Engineer as an official occupation by the U.S. Department of Labor (DOL). This pivotal achievement not only underscores the critical role of PCB design engineers within the technology landscape, but also marks the beginning of a transformative journey toward nurturing a robust, skilled workforce ready to propel our industry into the future.
Fujitsu, METRON Collaborate to Drive ESG Success
04/24/2024 | JCN NewswireFujitsu Limited and METRON SAS, a French cleantech company specializing in energy management solutions for industrial decarbonization, today announced a strategic initiative to contribute to the realization of carbon neutrality in the manufacturing industry.