In the mid-1990s, a pickup in measured productivity growth for the semiconductor industry coincided with an economy-wide acceleration in labor productivity growth. The pickup in semiconductor markets reflected an increase in the growth of real output that was generated by what Dale Jorgenson (2001) called an “inflection point” in the price indexes for the semiconductor industry. Jorgenson hypothesized that the inflection point reflected increases in the rate of product innovation made possible by an increase in Moore’s Law, a stylized description of technology that currently states that the number of electrical components on a chip will double every eighteen months. Within semiconductors, microprocessors (MPUs) produced by Intel—the world’s...
Critical technologies in knowledge economy may advance at an exponential rate of improvement. The be...
In 1965, Gordon Moore—then the director of research for Fairchild Semiconductor—published an observa...
We model an oligopolistic technology market in which firms endogenously choose product scope, fixed ...
In this paper we develop a vintage model to gain a better understanding of the semiconductor industr...
Price deflators for semiconductors fell rapidly over the 1990s, pulled down by steep declines in the...
The Producer Price Index (PPI) for the United States suggests that semiconductor prices have barely ...
As new computer hardware becomes available offering better performance at a lower price, computer ac...
Moore's Law has been an important benchmark for developments in microelectronics and information pro...
Moore suggested an exponential growth of the number of transistors in integrated electronic circuits...
"Moore suggested an exponential growth of the number of transistors in integrated electronic circuit...
In 1965 Gordon Moore – co-founder of the microchip manufacturer Intel – first made the prediction th...
We model Moore's Law as efficiency of computer producers that rises as a by-product of their experie...
Moore’s law originally was the observation that the number of transistors on integrated circuits dou...
Intel co-founder Gordon E. Moore observed in 1965 that transistor density, the number of transistors...
This paper develops a model of technological progress in the microprocessor industry that connects t...
Critical technologies in knowledge economy may advance at an exponential rate of improvement. The be...
In 1965, Gordon Moore—then the director of research for Fairchild Semiconductor—published an observa...
We model an oligopolistic technology market in which firms endogenously choose product scope, fixed ...
In this paper we develop a vintage model to gain a better understanding of the semiconductor industr...
Price deflators for semiconductors fell rapidly over the 1990s, pulled down by steep declines in the...
The Producer Price Index (PPI) for the United States suggests that semiconductor prices have barely ...
As new computer hardware becomes available offering better performance at a lower price, computer ac...
Moore's Law has been an important benchmark for developments in microelectronics and information pro...
Moore suggested an exponential growth of the number of transistors in integrated electronic circuits...
"Moore suggested an exponential growth of the number of transistors in integrated electronic circuit...
In 1965 Gordon Moore – co-founder of the microchip manufacturer Intel – first made the prediction th...
We model Moore's Law as efficiency of computer producers that rises as a by-product of their experie...
Moore’s law originally was the observation that the number of transistors on integrated circuits dou...
Intel co-founder Gordon E. Moore observed in 1965 that transistor density, the number of transistors...
This paper develops a model of technological progress in the microprocessor industry that connects t...
Critical technologies in knowledge economy may advance at an exponential rate of improvement. The be...
In 1965, Gordon Moore—then the director of research for Fairchild Semiconductor—published an observa...
We model an oligopolistic technology market in which firms endogenously choose product scope, fixed ...