
Moore's Law, created by Gordon Moore in 1965, is a prediction that set the pace for the digital revolution. Moore's Law states that the number of transistors on a silicon chip would double every year (later revised to every two years). This has paved the way for companies to make faster, smaller, and more affordable transistors for over 50 years, setting the pace for the modern digital revolution. Moore's Law has directly influenced the progress of computing power by creating a goal for chip makers to achieve.
| Characteristics | Values |
|---|---|
| Year of Creation | 1965 |
| Creator | Gordon Moore |
| Creator's Position | Director of Research & Development at Fairchild Semiconductors |
| Publication | Electronics Magazine |
| Date of Publication | April 19,1965 |
| Title of Article | Cramming More Components onto Integrated Circuits |
| Law Type | Experience-curve law |
| Law Application | A type of law quantifying efficiency gains from experience in production |
| Law Basis | Moore's observation of an emerging trend in chip manufacturing |
| Law Revision | In 1975, Moore revised his observation and predicted that the number of components would double every two years |
| Law Influence | Moore's Law has influenced the progress of computing power and has been a driving force of technological and social change |
| Law Status | Moore's Law may be approaching its natural end due to physical limitations |
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What You'll Learn

Moore's Law was created in 1965
Moore's Law, created in 1965, is a prediction that set the pace for the digital revolution. It was formulated by Gordon Moore, the co-founder of Fairchild Semiconductor and Intel, and former CEO of the latter. Moore's Law states that the number of transistors in an integrated circuit (IC) doubles about every two years. This law is not a law of physics but an empirical relationship and an observation and projection of a historical trend.
In 1965, Gordon Moore wrote an article predicting the future of the semiconductor industry, a prophecy that shaped the modern technology industry. The law, which states that the number of transistors on a silicon chip would double every year (later revised to every two years), has paved the way for companies to make faster, smaller, and more affordable transistors. Moore's prediction became known as Moore's Law and became the golden rule for the electronics industry.
In the years before Moore's Law was published, engineers had been refining integrated circuits, which were first conceived by Robert Noyce in 1959. These circuits showed a tendency to steadily grow in complexity while dropping in price. Observing these trends, Moore published a paper titled "Cramming More Components onto Integrated Circuits" in the April 19, 1965 issue of the trade journal Electronics Magazine. In this paper, Moore predicted that the number of components on a microchip would double approximately every year for the next ten years.
Moore's Law has directly influenced the progress of computing power by creating a goal for chip makers to achieve. It has been a driving force of technological and social change, productivity, and economic growth in the late 20th and early 21st centuries. Moore's Law has guided the semiconductor industry in long-term planning and setting targets for research and development. While Moore's Law has proven correct for the past five decades, some researchers believe it could be reaching its natural end due to physical limitations.
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It was published in Electronics Magazine
Moore's Law, created by Gordon Moore before he co-founded Intel, has been the golden rule for the electronics industry since its publication in 1965. It was published in the April 19, 1965, issue of Electronics Magazine. The law, which states that the number of transistors on a silicon chip would double every year (later revised to every two years), has paved the way for companies to make faster, smaller, and more affordable transistors for over 50 years—setting the pace for the modern digital revolution.
In the years before Moore's breakthrough, the applications for integrated circuits were primarily of interest to the military. However, as engineers continued to refine the devices, these circuits showed a propensity to steadily grow in complexity while dropping in price. Moore's law is an observation and projection of a historical trend. It is an empirical relationship and a type of law that quantifies efficiency gains from experience in production.
In 1964, Moore presented a talk at an ECS meeting in San Francisco, where he laid out his vision for the future potential of semiconductor electronics. This was the first time he articulated his prediction that the number of transistors per chip would double every two years. Moore's law is named after Gordon Moore, the co-founder of Fairchild Semiconductor and Intel and former CEO of the latter. In 1965, he noted that the number of components per integrated circuit had been doubling every year and projected that this rate of growth would continue for at least another decade.
In 1975, looking forward to the next decade, he revised his forecast to doubling every two years, a compound annual growth rate (CAGR) of 41%. Moore's empirical evidence did not directly imply that the historical trend would continue, yet his prediction has held since 1975 and has since become known as a law. Moore's law has directly influenced the progress of computing power by creating a goal for chip makers to achieve.
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It was named after Gordon Moore
Moore's Law is named after Gordon Moore, the co-founder of Fairchild Semiconductor and Intel, and former CEO of the latter. In 1965, Moore wrote an article titled "Cramming More Components onto Integrated Circuits", published in the trade journal Electronics Magazine, in which he predicted that the number of transistors on a silicon chip would double every year (later revised to every two years). This prediction became known as Moore's Law and has paved the way for companies to make faster, smaller, and more affordable transistors, setting the pace for the modern digital revolution.
Moore's Law is an observation and projection of a historical trend, rather than a law of physics. It states that the number of transistors in an integrated circuit (IC) doubles about every two years. This empirical relationship is known as an experience-curve law, which quantifies efficiency gains from experience in production. While it is not a natural law, Moore's prediction has held since 1975 and has become a guiding principle for the technology industry, particularly in the development of microchips.
In the years leading up to 1965, Moore had been formulating his ideas and insights into the future of the semiconductor industry. In a recent interview, Moore stated that his vision of the number of transistors per chip doubling every two years was first articulated in public at an ECS meeting in San Francisco in 1964. This was followed by a talk at the end of 1964, where he further developed his ideas and laid out the underlying foundation of Moore's Law.
Moore's Law has had a profound impact on the technology industry, with companies like Intel being particularly influenced by it. Intel, which Moore co-founded in 1968, has continuously innovated to squeeze more transistors onto ever-smaller chips and maintain the pace of Moore's Law. However, in recent years, some have questioned the feasibility of continuing to adhere to Moore's Law due to increasing costs and physical limitations. Despite these challenges, Moore's Law has guided the industry for over five decades and continues to be a driving force for innovation.
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It predicted the future of the semiconductor industry
Moore's Law, created by Gordon Moore in 1965, has been the golden rule for the electronics industry for decades. Moore's Law predicted that the number of transistors on a silicon chip would double every year, later revised to every two years. This has paved the way for companies to make faster, smaller, and more affordable transistors, setting the pace for the modern digital revolution.
The law, which is an empirical relationship and not a law of physics, is based on Moore's observation of an emerging trend. He predicted that computing would dramatically increase in power and decrease in relative cost at an exponential pace. This prediction became known as Moore's Law and has been a springboard for innovation in the semiconductor industry.
Moore's Law has had a major impact on the semiconductor industry, influencing chip design and manufacturing costs. It has guided the industry for many years and has been an anchor for people involved in semiconductors and electronics. The law has also spawned an entire generation of microprocessors and has been one of the main drivers of technological change and economic growth.
While Moore's Law has proven correct for over five decades, some researchers believe it could be hitting a plateau. Physical limitations in transistor scaling have been reached due to source-to-drain leakage, limited gate metals, and limited options for channel material. However, Moore believed that the semiconductor industry would continue to develop, stating that it is "very difficult to replace semiconductor technology."
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It set the pace for the digital revolution
Moore's Law, created by Gordon Moore in 1965, has been the golden rule for the electronics industry for over 50 years. Moore's Law states that the number of transistors on a microchip or integrated circuit doubles roughly every two years, with minimal cost increases. This prediction became known as Moore's Law.
Moore's Law has set the pace for the digital revolution, guiding the semiconductor industry in long-term planning and setting targets for research and development (R&D). It has been a driving force of technological and social change, productivity, and economic growth. Moore's Law implies that computers, machines that run on computers, and computing power all become smaller, faster, and cheaper over time as processes become more efficient and components smaller and faster.
The semiconductor industry has brought exponentially improving processing power to the market every two years, and end users expect businesses to leverage these improvements. This means organizations must adopt new digital transformation initiatives, which should streamline the digital experience for end users and customers.
Moore's Law has had a profound impact on the high-tech society we live in today. Mobile devices, such as smartphones and computer tablets, would not work without tiny processors; neither would video games, spreadsheets, accurate weather forecasts, and global positioning systems (GPS). Moreover, smaller and faster computers have improved transportation, healthcare, education, and energy production.
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Frequently asked questions
Moore's Law was created in 1965 by Gordon Moore, the co-founder of Intel.
Moore's Law is an observation and projection of a historical trend that states that the number of transistors in an integrated circuit (IC) doubles about every two years.
No, Gordon Moore did not call his observation "Moore's Law". The term was coined by his friend, Dr Carver Mead from CalTech.
Moore's Law has been a driving force of technological and social change, productivity, and economic growth. It has guided the semiconductor industry in long-term planning and setting targets for research and development (R&D).







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