Role of design complexity in technology improvement

McNerney, James; Farmer, J. Doyne; Redner, S.; Trancik, Jessika E.

doi:10.1073/pnas.1017298108

Cited by 123 publications

(66 citation statements)

References 35 publications

(40 reference statements)

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“…As occurs with microbial species [12], languages also display high levels of horizontal transfer, which can be treated with the appropriate tools [13]. Surprisingly, almost no attention has been dedicated to the evolution of information technology, despite its well-preserved fossil record [6,14,15]. In this area, John von Neumann's concept and development of stored programs is probably the major single factor that allowed computation to take over.…”

Section: Introductionmentioning

confidence: 99%

Punctuated equilibrium in the large-scale evolution of programming languages

Valverde

Solé

2015

J. R. Soc. Interface.

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The analogies and differences between biological and cultural evolution have been explored by evolutionary biologists, historians, engineers and linguists alike. Two well-known domains of cultural change are language and technology. Both share some traits relating the evolution of species, but technological change is very difficult to study. A major challenge in our way towards a scientific theory of technological evolution is how to properly define evolutionary trees or clades and how to weight the role played by horizontal transfer of information. Here, we study the large-scale historical development of programming languages, which have deeply marked social and technological advances in the last half century. We analyse their historical connections using network theory and reconstructed phylogenetic networks. Using both data analysis and network modelling, it is shown that their evolution is highly uneven, marked by innovation events where new languages are created out of improved combinations of different structural components belonging to previous languages. These radiation events occur in a bursty pattern and are tied to novel technological and social niches. The method can be extrapolated to other systems and consistently captures the major classes of languages and the widespread horizontal design exchanges, revealing a punctuated evolutionary path.

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Section: Introductionmentioning

confidence: 99%

Punctuated equilibrium in the large-scale evolution of programming languages

Valverde

Solé

2015

J. R. Soc. Interface.

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“…A more realistic case considers a heterogenous network of dependencies. Technology consists of a (possibly non [50]. In this case, the overall improvement of technology also follows a power-law…”

Section: Learning Curves and Design Complexitymentioning

confidence: 99%

Major transitions in information technology

Valverde

2016

Phil. Trans. R. Soc. B

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One contribution of 13 to a theme issue 'The major synthetic evolutionary transitions'. When looking at the history of technology, we can see that all inventions are not of equal importance. Only a few technologies have the potential to start a new branching series (specifically, by increasing diversity), have a lasting impact in human life and ultimately became turning points. Technological transitions correspond to times and places in the past when a large number of novel artefact forms or behaviours appeared together or in rapid succession. Why does that happen? Is technological change continuous and gradual or does it occur in sudden leaps and bounds? The evolution of information technology (IT) allows for a quantitative and theoretical approach to technological transitions. The value of information systems experiences sudden changes (i) when we learn how to use this technology, (ii) when we accumulate a large amount of information, and (iii) when communities of practice create and exchange free information. The coexistence between gradual improvements and discontinuous technological change is a consequence of the asymmetric relationship between complexity and hardware and software. Using a cultural evolution approach, we suggest that sudden changes in the organization of ITs depend on the high costs of maintaining and transmitting reliable information.This article is part of the themed issue 'The major synthetic evolutionary transitions'.

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“…Some technologies are more open to improvement than others [2][3][4][5][6][7] . Compact, modular systems, such as photovoltaics and electronics, are easily experimented on 5,7 .…”

Section: Rapid Innovationmentioning

confidence: 99%

“…Compact, modular systems, such as photovoltaics and electronics, are easily experimented on 5,7 . And processes that may be achieved through alternative designs or materials offer more avenues for advancement.…”

Section: Rapid Innovationmentioning

confidence: 99%