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Leaping Into the 6th Technology Revolution
https://worldspaper.com/ Yet many are oblivious to the signs and are in danger of watching this become a period of noisy turmoil rather than the full-blown insurrection needed to launch us into a green economy. What we require is not a new spinning wheel, but fabrics woven with nanofibers that generate solar power. To make that happen, we need a radically reformulated way of understanding markets, technology, financing, and the role of government in accelerating change. But will we understand the opportunities before they disappear?
Seeing the Sixth Revolution for What It Is
We are seven years into the beginning of what analysts at BofA Merrill Lynch Global Research call the Sixth Revolution. A table by Carlotta Perez, which was presented during a recent BofA Merrill Lynch Global Research luncheon hosted by Robert Preston and Steven Milunovich, outlines the revolutions that are unexpected in their own time that lead to the one in which we find ourselves.
- 1771: Mechanization and improved water wheels
- 1829: Development of steam for industry and railways
- 1875: Cheap steel, availability of electricity, and the use of city gas
- 1908: Inexpensive oil, mass-produced internal combustion engine vehicles, and universal electricity
- 1971: Expansion of information and telecommunications
- 2003: Cleantech and biotech
The Vantage of Hindsight
https://digitalsjournal.com/technology/duonao/ Looking back at 1971, we know that Intel’s introduction of the microprocessor marked the beginning of a new era. But in that year, this meant little to people watching Mary Tyler Moore and The Partridge Family, or listening to Tony Orlando & Dawn and Janis Joplin. People would remember humanity’s first steps on the Moon, the opening relations between US and China, perhaps the successful completion of the Human Genome Project with 99.99% accuracy, and possibly the birth of Promethea, the first horse cloned by Italian scientists.
According to Ben Weinberg, Partner, Element Partners, “Every day, we see American companies with promising technologies that are unable to deploy their products because of a lack of debt financing. By filling this gap, the government will ignite the mass deployment of innovative technologies, allowing technologies ranging from industrial waste heat to pole-mounted solar PV to prove their economics and gain credibility in the debt markets.”
Flying beneath our collective radar was the first floppy disk drive by IBM, the world’s first e-mail sent by Ray Tomlinson, the launch of the first laser printer by Xerox PARC, and the Cream Soda Computer by Bill Fernandez and Steve Wozniak (who would found the Apple Computer company with Steve Jobs a few years later).
Times have not changed that much. It’s 2011 and many of us face a similar disconnect with the events occurring around us. We are at the equivalent of 1986, a year on the cusp of the personal computer and the Internet fundamentally changing our world. 1986 was also the year that marked the beginning of a major financial shift into new markets. Venture Capital (VC) experienced its most substantial finance-raising season, with approximately $750 million, and the NASDAQ was established to help create a market for these companies.
Leading this charge was Kleiner Perkins Caulfield & Beyers (KPCB), a firm that turned technical expertise into possibly the most successful IT venture capital firm in Silicon Valley. The IT model looked for a percentage of big successes to offset losses: an investment like the $8 million in Current, which was sold to Cisco Systems for $6.9 billion, could make up for a lot of great ideas that didn’t quite make it.
Changing Financial Models
But the VC model that worked so well for information and telecommunications doesn’t work in the new revolution. Not only is the financing scale of the cleantech revolution orders of magnitude larger than the last, this early in the game even analysts are struggling to see the future.
Steven Milunovich, who hosted the BofA Merrill Lynch Global Research lunch, remarked that each revolution has an innovation phase that may last for as long as 25 years, followed by an implementation phase of another 25. Most money is made in the first 20 years, so real players want to get in early.
