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Federico Faggin

Federico Faggin is an Italian-American physicist, engineer, inventor, and entrepreneur renowned for designing the world's first commercial microprocessor, the Intel 4004, which revolutionized computing by enabling the integration of an entire central processing unit onto a single chip.^[1]^[2] Born in Vicenza, Italy, in 1941, Faggin developed an early interest in mechanics and electronics, particularly model airplanes, during his attendance at a technical high school. He earned a doctorate in physics from the University of Padua in 1965, graduating summa cum laude. In 1967, he joined SGS-Fairchild in Italy, and by 1968, he relocated to the United States to work at Fairchild Semiconductor in Silicon Valley, where he pioneered MOS (metal-oxide-semiconductor) silicon gate technology in 1968—a critical innovation that improved transistor density and performance, laying the groundwork for modern integrated circuits.^[1]^[2]^[3] In 1970, Faggin joined Intel Corporation, where he led the design and implementation of the Intel 4004 microprocessor, released in 1971 as a 4-bit processor with 2,300 transistors on a 3 mm × 4 mm chip, in collaboration with Marcian Hoff and Stanley Mazor; this device marked the birth of the microprocessor era and transformed digital electronics into programmable systems. He subsequently directed the development of the Intel 8008 (1972) and Intel 8080 (1974) processors, further advancing computing capabilities. In 1974, Faggin left Intel to co-found Zilog Inc., where he designed the highly successful Z80 microprocessor, which became a cornerstone for early personal computers and embedded systems.^[1]^[2]^[4] Faggin's entrepreneurial career continued with the founding of Cygnet Technologies in 1982, focusing on telecommunications, and Synaptics Inc. in 1986, where he developed the first capacitive touchpad for laptops, introducing gesture-based interfaces that are ubiquitous today. His contributions earned him prestigious honors, including the 1997 Kyoto Prize in Advanced Technology for his microprocessor work, the 2009 National Medal of Technology and Innovation from the U.S. President, and induction into the National Inventors Hall of Fame in 1996.^[2]^[1]^[5] In later years, Faggin shifted focus to philosophical and scientific inquiries into consciousness and free will, co-founding the Federico and Elvia Faggin Foundation in 2011 to fund research assuming consciousness is a fundamental property of reality rather than an emergent phenomenon. Through the foundation, he supports studies in the physics of information and quantum biology, and he authored the 2022 book Irreducible: Consciousness, Life, Computers, and Human Nature, arguing for the irreducibility of consciousness to computational processes. In 2015, the foundation endowed the Faggin Family Presidential Chair in the Physics of Information at the University of California, Santa Cruz.^[6]^[7]

Early Life and Education

Childhood in Italy

Federico Faggin was born on December 1, 1941, in Vicenza, Italy, during the early phases of World War II, to Giuseppe Faggin, a teacher of history and philosophy, and Emma Munari Faggin, a homemaker.^[8]^[9]^[10] As the second of four children, he grew up in an intellectual household that emphasized humanities, though his father was initially dismayed by Faggin's preference for technical pursuits over classical studies.^[9] In 1943, his family relocated to the rural, pre-industrial area of Isola Vicentina near Vicenza to escape the war, where the post-war environment of scarcity and rebuilding fostered a deep curiosity about machinery and technology.^[11]^[12] Faggin attended the I.T.I.S. Alessandro Rossi technical high school in Vicenza, where he further developed his interests in mechanics and electronics through coursework and projects.^[11] From a young age, Faggin displayed a fascination with mechanics and engineering, receiving a Meccano construction set at age nine that ignited his inventive spirit.^[9] By age eleven, inspired by a store-bought model airplane, he built his own using balsa wood and homemade glue, though it initially crashed; refining his understanding of aerodynamics, he successfully constructed a flying glider the following year.^[9]^[13] These hands-on projects, honed amid the technological disruptions of wartime and post-war Italy, sparked his interest in electronics, leading him to experiment with radio-controlled models and basic circuits using vacuum tubes and early transistors in the 1950s.^[5]^[9] The war's legacy, including blackouts and the allure of Allied aircraft, further fueled Faggin's self-taught explorations, as he disassembled radios and built simple receivers to understand signal transmission.^[8]^[5] These formative experiences in resource-limited conditions cultivated his problem-solving skills and passion for innovation. He acquired U.S. citizenship in 1978, granting him dual Italian-American status.^[14] This foundation of curiosity and experimentation paved the way for his formal technical education.

University Studies

Faggin enrolled at the University of Padua in 1961 to pursue a degree in physics, driven by his passion for understanding the fundamental principles underlying electronics and transistors, which he had explored through self-directed tinkering in his youth.^[9] He completed the rigorous program, typically spanning five to seven years, in the minimum four years while balancing part-time work.^[9] In December 1965, on his 24th birthday, Faggin earned his Laurea in Physics summa cum laude, marking the culmination of his academic training in solid-state physics, circuit theory, and electronics.^[15]^[9] His thesis focused on the design and construction of a flying spot scanner for the automatic reading of scintillation camera photos, incorporating a novel opto-electronic feedback technique to process image data electronically.^[9] This experimental project emphasized practical applications of physics in electronic devices, aligning with his early interest in semiconductor technologies and providing hands-on research experience in opto-electronics.^[9] During his studies, Faggin served as a part-time teaching assistant, instructing third-year physics students in electronics laboratory courses starting in October 1965, after submitting his thesis but before formal graduation.^[9] This role allowed him to apply his growing expertise in transistor-based circuits and electronic experimentation while reinforcing his conceptual grasp of solid-state principles.^[9]

Early Career

Olivetti Research Labs

Federico Faggin began his professional career in 1960 at the age of 19, when he was hired as an assistant engineer at Olivetti's Research and Development Laboratory in Borgolombardo near Milan, Italy, while still a student pursuing a physics degree at the University of Padua.^[9]^[16] The lab, established in 1955, focused on advancing electronic computing technologies, and Faggin's early involvement allowed him to gain practical experience in transistor-based systems.^[17] At Olivetti, Faggin contributed to the Elea digital transistor computer project, a pioneering effort to develop Italy's first transistorized mainframe computer. He co-designed and led the implementation of a small experimental digital computer using germanium transistors, featuring 4 K × 12-bit core memory, where he handled circuit design for logic gates and other core components.^[9]^[8] This work, conducted under the guidance of lab director Mario Tchou, marked Faggin's initial foray into building functional computing hardware and honed his skills in digital electronics. His experimental computer served as a conceptual model for the Programma 101, recognized as the world's first programmable desktop calculator, released in 1965.^[9]^[8] The Programma 101's innovative design allowed users to perform complex calculations via punched magnetic cards, achieving commercial success with over 44,000 units sold worldwide by the late 1960s.^[16] Faggin left Olivetti in 1967, seeking greater opportunities for advancement in semiconductor technology, as the company's focus remained more on electromechanical systems than cutting-edge electronics.^[9]^[8]

SGS-Fairchild

In 1967, Federico Faggin joined SGS-Fairchild, the Italian subsidiary of Fairchild Semiconductor located in Agrate Brianza near Milan, as a process engineer responsible for developing the company's inaugural MOS (metal-oxide-semiconductor) fabrication technology from the ground up.^[9] Leveraging his prior experience with MOS devices from university studies and short-term projects, Faggin established a reliable planar MOS process that addressed key challenges in threshold voltage uniformity and oxide integrity, enabling the production of the firm's initial commercial MOS integrated circuits.^[18] In early 1968, Faggin was dispatched on a six-month engineering exchange to Fairchild Semiconductor's R&D laboratory in Palo Alto, California, where he took charge of advancing MOS process development under the direction of Les Vadasz.^[9] There, he invented the self-aligned silicon-gate MOS technology (SGT) later that year, a breakthrough that replaced aluminum gates with polycrystalline silicon gates to achieve precise self-alignment of source and drain regions relative to the gate, minimizing overlap capacitances and improving device reliability, density, and performance.^[19] Integral to SGT was the boot-strapped buried channel (BBC) technique, which enhanced transistor speed by bootstrapping voltage to create a buried conductive channel beneath the surface, reducing surface scattering and enabling operation at higher frequencies while supporting smaller feature sizes.^[20] The first successful demonstration of SGT occurred in September 1968 with a test chip featuring functional silicon-gate transistors and basic structures, validating its potential to produce integrated circuits that were significantly smaller, faster, and more power-efficient through the use of buried channels that minimized defects and parasitic effects.^[9] This demonstration highlighted SGT's advantages over prior metal-gate MOS processes, including up to fivefold improvements in speed and packing density, paving the way for advanced semiconductor scaling.^[20] Faggin filed for a patent on the core SGT innovation, which was granted as U.S. Patent 3,673,471 in 1972 (with co-inventor Thomas Klein), covering the use of polycrystalline silicon for gate electrodes in self-aligned MOS devices.^[21] Following the successful proof-of-concept, the technology was promptly transferred from the European development efforts to Fairchild's U.S. operations, where it was refined and integrated into production workflows to support emerging high-performance IC designs.^[19]

Silicon Valley Innovations

Fairchild Semiconductor

In February 1968, Federico Faggin relocated to Palo Alto, California, to join Fairchild Semiconductor's Research and Development Laboratory as part of an engineering exchange with its European affiliate SGS-Fairchild.^[22] There, he served as project leader for the commercialization of silicon-gate technology (SGT) for integrated circuits, adapting and refining the foundational process he had initiated at SGS-Fairchild in Italy.^[19] Faggin collaborated with engineer Tom Klein to implement SGT in production, training Fairchild's U.S. teams on the novel self-aligned MOS process to enable digital MOS device fabrication.^[23] Under Faggin's leadership, Fairchild produced its first commercial integrated circuit using SGT, the 3708, released in 1969. This p-channel MOS device functioned as an 8-channel analog multiplexer with integrated decoding logic, demonstrating the technology's viability for high-performance applications.^[24] The 3708 incorporated a redesigned shift register structure from prior metal-gate designs, achieving significantly improved speed and reliability through SGT's precise gate alignment.^[19] Faggin's efforts extended to pioneering MOS large-scale integration (LSI) circuits at Fairchild, which leveraged SGT's self-alignment to minimize mask misalignment errors and parasitic effects. This enabled circuit densities up to three times higher than metal-gate equivalents, with power consumption reduced by a factor of five and operating speeds increased accordingly, laying groundwork for advanced semiconductor memory and logic.^[23] These innovations marked a pivotal shift toward scalable MOS production in Silicon Valley.^[25]

Intel Microprocessors

In 1970, Federico Faggin joined Intel Corporation as the design manager for digital systems, recruited by Les Vadasz for his expertise in silicon gate technology developed at Fairchild Semiconductor. This technology, which allowed for more compact and efficient integrated circuits, proved instrumental in Intel's early microprocessor efforts. Faggin took over the leadership of a project originally proposed by Marcian "Ted" Hoff and Stan Mazor for Japanese calculator manufacturer Busicom, transforming it into a groundbreaking single-chip solution.^[26] Faggin led the design and implementation of the Intel 4004, the world's first commercial microprocessor, a 4-bit processor with 2,300 transistors released in November 1971. Developed specifically for Busicom's programmable calculator, the 4004 integrated the central processing unit, memory, and input/output functions onto one chip, running at a clock speed of 740 kHz and supporting 46 instructions. Key challenges included generating precise clock signals within the chip and developing an efficient instruction set in collaboration with Busicom engineer Masatoshi Shima to handle arithmetic and control operations. Faggin personally oversaw the hand-drawn layouts using Rubylith tape, a meticulous process completed by draftsmen in about three months, enabling the project's rapid prototyping and fabrication.^[27]^[28]^[26]^[29] Building on the 4004, Faggin directed the development of the Intel 8008 in 1972, Intel's first 8-bit microprocessor with approximately 3,500 transistors, initially designed for Computer Terminal Corporation's Datapoint 2200 terminal. Operating at 200 kHz and addressing up to 16 KB of memory, the 8008 expanded processing capabilities for data manipulation but faced performance limitations due to its p-channel MOS technology, requiring about 20 support chips for full functionality. These constraints, including slower clock speeds and economic pressures from the 1971 recession, highlighted ongoing challenges in instruction set optimization and system integration.^[30]^[31] Faggin then architected the Intel 8080, released in April 1974 as a significant improvement over the 8008, featuring around 6,000 transistors and leveraging n-channel silicon gate technology for enhanced speed up to 2 MHz and 290,000 operations per second. This 8-bit processor supported a 16-bit address bus for up to 64 KB of memory and required only two support chips, the 8224 clock generator and the 8228 system controller, addressing prior limitations in clock generation and instruction execution efficiency.^[32] The 8080's design repaid its development costs within five months of launch, powering early personal computers and establishing the microprocessor as a viable commercial technology.^[30]^[33]

Zilog Microprocessors

In late 1974, Federico Faggin co-founded Zilog, Inc., in Cupertino, California, alongside Ralph Ungermann and other former Intel colleagues, with the aim of creating a company dedicated to microprocessor development. Building on his prior experience designing the Intel 8080, Faggin served as Zilog's president and chief executive officer until the end of 1980. Initially backed by venture funding from Exxon Enterprises, Zilog rapidly scaled operations, establishing itself as an independent force in the emerging semiconductor market through innovative products and manufacturing investments.^[15]^[34]^[35] Faggin conceived and led the architecture of the Z80, Zilog's flagship 8-bit microprocessor, which was introduced in July 1976. Designed for binary compatibility with the 8080, the Z80 incorporated an expanded set of over 120 instructions, additional registers for more efficient programming, and enhanced interrupt capabilities, enabling broader applications in computing systems. It achieved lower production costs and power efficiency by operating on a single +5-volt supply and integrating an on-chip clock oscillator and dynamic memory refresh circuitry, which eliminated the need for external components.^[36]^[37] In 1979, Faggin oversaw the development and release of the Z8, Zilog's first 8-bit microcontroller, which integrated a central processing unit, up to 2 KB of mask-programmable ROM, 128 bytes of RAM, and versatile I/O ports with direct bit manipulation on a single chip. This design targeted embedded control applications, such as appliances and industrial equipment, by reducing system complexity and board space compared to discrete microprocessor setups. The Z80's enduring popularity, with annual shipments exceeding 30 million units by the mid-1990s and a total exceeding 500 million over its lifespan, fueled Zilog's expansion and eventual full independence from Exxon in 1989, while production of the Z80 continued until its discontinuation in June 2024.^[38]^[39]^[40]

Later Ventures

Communication CoSystem

After leaving Zilog, Federico Faggin co-founded Cygnet Technologies, Inc. in Sunnyvale, California, in 1982, serving as its president and CEO.^[23]^[8] The company focused on developing integrated hardware solutions for personal computer communications, aiming to bridge voice telephony and data networking in an era when personal computing was still emerging.^[23] In 1984, Cygnet introduced the Communication CoSystem (CoSystem), a pioneering modular hardware platform designed to combine modem, terminal, and processor functionalities for home and office networks.^[23]^[8] This intelligent peripheral attached to personal computers, such as the IBM PC, enabling simultaneous voice and digital data transmission over a single telephone line.^[41] Key features included a built-in 300-baud modem for dial-up connectivity, a Z80-compatible central processing unit that drew on Faggin's prior expertise in designing the Z80 microprocessor at Zilog, and expansion slots supporting additional peripherals for early telecomputing tasks like electronic mail and real-time data sharing.^[23]^[41] The system also supported multi-user, multi-tasking operations for small businesses, accommodating up to 16 users with shared resources for applications such as word processing.^[8] Debuting at the PC Fair in San Francisco, the CoSystem won the award for best peripheral product, highlighting its innovative approach to integrating communication hardware.^[8] Despite its technical advancements, Cygnet Technologies struggled commercially, selling only around 5,000 units—well below the 15,000 required for financial sustainability.^[8] The venture faced headwinds from a severe recession in 1984–1985, regulatory confusion in the telecommunications industry following the AT&T divestiture, and a broader market unreadiness for sophisticated integrated communication systems, as many users were still acclimating to basic personal computers.^[8] Attempts to pivot toward software products failed to reverse the trajectory, leading to the company's sale in 1986 to an unnamed personal computer firm and its subsequent dissolution.^[8]^[23]

Synaptics Touch Technology

In 1986, Federico Faggin co-founded Synaptics Inc. with Carver Mead, a pioneer in very-large-scale integration (VLSI) and neural networks, to develop analog VLSI hardware inspired by biological neural systems for pattern-recognition applications.^[42] The company's initial focus was on neuromorphic electronics, leveraging Faggin's prior experience in semiconductor design from Intel and Zilog to create chips that emulated neural computation for tasks like handwriting and image recognition.^[43] This neural network foundation enabled Synaptics to pioneer advancements in human-computer interfaces, shifting from experimental analog circuits to practical input devices. Synaptics introduced its first commercial capacitive touchpad in the early 1990s, using charge transfer sensing to detect finger position and movement without mechanical parts, a breakthrough over trackballs and joysticks prevalent in laptops at the time.^[44] The touchpad employed pattern recognition algorithms derived from the company's neural network research to interpret gestures such as tapping for clicks and dragging for cursor control, providing intuitive navigation.^[43] By 1994, manufacturers like Twinhead and Epson adopted the technology in models such as the Epson ActionNote, marking its entry into consumer devices.^[45] Apple followed in 1995 with integration into its PowerBook line, accelerating widespread use and establishing the touchpad as a standard laptop input method by 1997.^[45] Under Faggin's leadership as CEO until 1999 and chairman until 2009, Synaptics expanded its touch interface portfolio, incorporating Faggin's ten related patents that advanced capacitive sensing and gesture capabilities.^[10] The company went public via IPO in January 2002, raising capital to fuel growth in touch technologies.^[46] By the mid-2000s, Synaptics achieved a market capitalization exceeding $1 billion, driven by dominance in laptop touchpads and expansion into mobile devices, with revenue reaching $133.3 million in fiscal 2004.^[47]

Foveon Image Sensors

In 2003, Federico Faggin joined Foveon Inc. as president and CEO, taking the helm of the Silicon Valley startup specializing in advanced image sensor technology. At the time, Foveon was already pioneering full-color CMOS sensors, and Faggin redirected the company's efforts to further develop and commercialize these innovations, leveraging his prior experience in analog circuit design from Synaptics to enhance sensor performance. Under his leadership, Foveon emphasized the production of high-fidelity digital imaging solutions for both professional and consumer markets.^[15]^[48] A key advancement during Faggin's tenure was the refinement and broader application of the Foveon X3 sensor, introduced commercially in 2002 but expanded in 2004 with versions like the 1/1.8-inch model for compact cameras. The X3 technology employs a layered architecture that stacks red, green, and blue photodetectors vertically within the silicon substrate, allowing each pixel to capture the full color spectrum without the need for color filter arrays. This design significantly improves color accuracy and sharpness compared to traditional Bayer filters, which rely on interpolation from sparse color sampling and often introduce artifacts like moiré patterns or reduced resolution. By exploiting silicon's natural wavelength-dependent absorption—blue near the surface, green in the middle, and red deeper—the X3 achieves complete color sampling at every pixel location, resulting in superior luminance detail and reduced metamerism.^[49]^[50] The Foveon X3 found prominent applications in Sigma Corporation's digital cameras, starting with the SD9 in 2002—a 3-megapixel DSLR that marked the sensor's debut—and continuing through models like the SD10 (2004) and SD14 (2006), which benefited from ongoing optimizations in dynamic range and noise reduction. Foveon also targeted mobile imaging, integrating X3 technology into smaller sensors for devices like the Polaroid x530 compact camera in 2004, enabling higher-quality color capture in portable electronics. The company's portfolio included numerous patents on direct image sensing methods, such as vertical color separation techniques that underpin the X3's efficiency and cost-effectiveness. These innovations positioned Foveon as a leader in layered sensor design, though adoption remained niche due to manufacturing challenges.^[51]^[52]^[53] Faggin departed Foveon in 2008 following the company's acquisition by Sigma Corporation, which integrated Foveon's operations and technology into its own imaging division to sustain development of the X3 platform. During his five-year leadership, Faggin revitalized Foveon's business direction, securing partnerships and driving the sensor's evolution toward broader market viability.^[15]^[54]

Philanthropy

Federico and Elvia Faggin Foundation

The Federico and Elvia Faggin Foundation was established in 2011 by physicist Federico Faggin and his wife Elvia as a non-profit organization based in Los Altos Hills, California, dedicated to funding scientific research on the nature of consciousness.^[55]^[56] The foundation's mission emphasizes support for theoretical and experimental investigations at U.S. universities and research institutes, aiming to uncover the fundamental mechanisms underlying awareness and its integration with physical processes.^[57]^[58] This philanthropic effort reflects Faggin's personal interest in consciousness, which emerged from his later career reflections on the boundaries of computational systems in replicating human sentience.^[59] The foundation's initial grants focused on projects in quantum biology and information theory that probe the connections between mind and matter, including studies on quantum Darwinism and its implications for computability in conscious systems.^[60]^[61] In 2015, the foundation facilitated a $1 million endowment at the University of California, Santa Cruz, comprising a $500,000 gift from Faggin matched by the UC Regents, to create the Faggin Family Presidential Chair in the Physics of Information; this position advances interdisciplinary research on information's role in physics, complex systems, and cognition.^[6] The foundation continues to provide ongoing support for conferences and fellowships exploring the irreducible properties of consciousness, fostering dialogue among scientists on qualia, free will, and quantum foundations.^[62]^[63]

Academic Endowments

In addition to the foundational work of his philanthropic organization, Federico Faggin has made targeted donations to academic institutions to support research in physics, information theory, and consciousness studies. In 2015, Faggin provided a $500,000 gift to the University of California, Santa Cruz, which was matched by the UC Regents to establish a $1 million endowment for the Faggin Family Presidential Chair in the Physics of Information. This position aims to advance interdisciplinary research at the intersection of quantum physics, information science, and the fundamental nature of reality, reflecting Faggin's interest in bridging technology and philosophical inquiry.^[6] Faggin's support extends to programs exploring consciousness through quantum and interdisciplinary lenses. The Federico and Elvia Faggin Foundation, serving as the primary funding source, has granted over $125,000 to Chapman University since 2022 to bolster the Institute for Quantum Studies and the Institute for Interdisciplinary Brain and Behavioral Sciences. These initiatives fund research into quantum information theory and its implications for understanding consciousness, enabling collaborations that integrate physics, neuroscience, and philosophy.^[64]^[65] In Italy, Faggin contributed to theoretical physics education with a significant donation in 2022 to the University of Pavia, financing a professorship in Theoretical Physics. Assigned to Giacomo Mauro D'Ariano, a collaborator on Faggin's quantum model of consciousness, this endowment supports advanced studies in quantum foundations and information, fostering research that challenges classical views of reality and computation.^[66] Faggin has also preserved semiconductor history through collaborations with the Computer History Museum. In 1996, he donated an engineering prototype of the Intel 4004 microprocessor and related MCS-4 chipset artifacts, which form key exhibits in the museum's Silicon Engine collection, highlighting the origins of modern computing. Ongoing involvement in the 2010s, including events marking the 4004's anniversaries, underscores his commitment to archiving technological milestones for educational purposes.^[67]^[68]

Theory of Consciousness

Origins and Development

During his tenure at Synaptics in the mid-1980s, where he co-founded the company in 1986 and developed early neural network emulators for touch technology, Federico Faggin began reflecting deeply on the nature of consciousness. Working on systems that mimicked brain-like processing, he grappled with the fundamental question of how electrical signals in neural networks could give rise to subjective experience, ultimately concluding that a truly conscious computer was impossible because machines could only simulate behavior without inner awareness. These reflections were influenced by his readings in Eastern philosophy, which emphasized non-dualistic views of reality, and quantum mechanics, whose probabilistic and observer-dependent nature challenged classical materialist assumptions about the mind.^[59] A pivotal shift occurred in December 1990 during a family holiday at Lake Tahoe, California, where Faggin experienced a profound mystical awakening. While restless late at night, he felt an overwhelming sense of unity with all existence, characterized by boundless love and the dissolution of self-other boundaries, which he later described as a direct encounter with the ground of being. This experience, occurring amid his ongoing technological pursuits, prompted a gradual turn toward metaphysics, reinforced by two decades of meditation, therapy through the Diamond Heart Approach, and introspective practices that deepened his conviction that consciousness is primary rather than emergent from physical processes. By the early 2000s, as he transitioned from commercial ventures like Foveon, these personal explorations evolved into a deliberate focus on philosophical and scientific inquiries into the mind.^[59]^[69] In the 2000s, Faggin began articulating his ideas through early talks and essays that connected qualia—the subjective qualities of experience, such as the redness of red—to irreducible information as a fundamental aspect of reality. Faggin argued that qualia represent private, non-computable quantum states that cannot be reduced to classical bits. These preliminary works laid the groundwork for viewing consciousness as an intrinsic property of information, distinct from algorithmic processing.^[59] Faggin's motivation intensified in the 2010s and 2020s, driven by perceived limitations in neuroscience, which he saw as excelling at mapping brain correlates of consciousness but failing to explain why or how qualia arise from neural activity. He contended that treating consciousness as an emergent byproduct of complexity overlooks its irreducible nature, advocating instead for a fundamental role where consciousness underpins physical laws. This perspective, developed through collaborations and the establishment of the Federico and Elvia Faggin Foundation in 2011 to fund related research, culminated in formal proposals during this period, emphasizing quantum information as the bridge between mind and matter.^[59]^[70]

Quantum Model

Federico Faggin's quantum model posits that consciousness is a fundamental property of quantum fields, manifesting as irreducible qualia that cannot emerge from classical computational processes. In this framework, subjective experiences—such as the sensation of color or emotion—are intrinsic to the quantum realm, where the physical world serves as a symbolic representation rather than the origin of awareness. This core thesis challenges materialist views by asserting that consciousness precedes and generates matter, with quantum fields embodying the universe's inherent sentience.^[71]^[72] A key element of the model invokes the no-cloning theorem from quantum information theory, which states that quantum states cannot be perfectly copied without altering the original. Faggin applies this to argue that true awareness cannot be simulated by classical computers, as the unique, non-replicable nature of quantum information prevents the replication of conscious experience. This limitation underscores why artificial intelligence, reliant on deterministic algorithms, remains incapable of genuine subjectivity.^[72] Complementing this, Faggin draws on Holevo's theorem, which bounds the amount of classical information extractable from a quantum state. He uses it to explain consciousness's resistance to reductionist analysis: classical measurements inevitably lose essential quantum details, rendering qualia ineffable and beyond full empirical capture. This theorem supports the model's emphasis on the irreducibility of inner experience to observable data.^[72] The model integrates free will as an axiomatic feature of quantum consciousness, where choices arise from non-deterministic quantum processes rather than predetermined causality. It aligns with panpsychism by proposing that all existence possesses degrees of awareness, from elementary particles to complex organisms. Quantum vacuum fluctuations form the foundational substrate for this subjective experience, representing the dynamic, ever-present "stuff" of reality that gives rise to qualia and the universe's purposeful evolution. These ideas are elaborated in Faggin's 2024 book Irreducible: Consciousness, Life, Computers, and Human Nature. Faggin continued to present his theory in 2025, including a plenary talk on quantum fields and consciousness at The Science of Consciousness conference in Barcelona.^[71]^[73]^[74]

Publications

Books

Federico Faggin has authored books that integrate his pioneering work in semiconductor technology with philosophical explorations of consciousness and the limits of computation. His 2021 autobiography, Silicon: From the Invention of the Microprocessor to the New Science of Consciousness, published by Waterside Productions, chronicles his journey from developing MOS silicon gate technology at Fairchild Semiconductor in 1968 to designing the Intel 4004 microprocessor in 1971, while also founding companies like Zilog and Synaptics.^[75] The narrative blends personal anecdotes from his early life in post-war Italy with accounts of technological breakthroughs that launched the digital age, culminating in an introduction to his evolving interest in consciousness as a fundamental aspect of reality. Through vivid descriptions of innovation challenges, Faggin illustrates how silicon-based devices transformed computing, setting the stage for his later theoretical pursuits.^[75] In 2024, Faggin published Irreducible: Consciousness, Life, Computers, and Human Nature with Essentia Books, a comprehensive treatise expanding on his quantum-informed theory of consciousness.^[73] The book posits consciousness as an irreducible, fundamental property of nature inherent in quantum fields, distinct from classical physics and computational processes, and uses physical principles to argue that artificial intelligence cannot achieve true sentience or free will.^[73] Faggin critiques materialist views of mind by drawing on his expertise in information theory and quantum mechanics, proposing an idealist ontology where awareness precedes matter.^[71] This work builds on themes from his earlier articles, offering theorems and models to support the irreducibility of subjective experience.^[76] Faggin has also contributed to historical accounts, such as his solo-authored "The Birth of the Microprocessor" in BYTE magazine (March 1992) and IEEE Micro (November 2021), detailing the origins of the Intel 4004.^[77]^[25] In the 1970s, he produced technical manuals and design documents for the 4004 microprocessor, which Intel published and which remain key historical resources for understanding early integrated circuit architecture.

Articles

Federico Faggin has published several influential articles and papers spanning semiconductor design and the philosophy of consciousness, offering technical insights into early microprocessors and theoretical explorations of qualia and artificial intelligence limitations. In "The History of the 4004," co-authored with Marcian E. Hoff Jr., Stanley Mazor, and Masatoshi Shima and published in the December 1996 issue of IEEE Micro (vol. 16, no. 6, pp. 10–20), Faggin detailed the design process of the Intel 4004, the world's first commercial microprocessor released in 1971. The article highlights the challenges overcome during its development, including the application of self-aligned silicon gate technology (SGT), which Faggin pioneered at Fairchild Semiconductor and brought to Intel, allowing for higher density, better performance, and lower power consumption compared to earlier metal-gate processes. This technology was crucial for integrating the 4004's 2,300 transistors on a 10-micron process, enabling its 4-bit architecture to perform 60,000 operations per second at 740 kHz. Faggin's contributions to the Intel 8080 microprocessor were presented in a 1974 article in Electronics magazine, co-authored with Masatoshi Shima. This work outlined the 8080's architecture as an enhanced 8-bit successor to the 8008, featuring a 16-bit address bus for 64 KB memory addressing, an expanded instruction set with 78 instructions including stack operations and decimal arithmetic, and non-multiplexed buses for simpler interfacing. The design achieved approximately 0.29 million instructions per second (MIPS) at a 2 MHz clock speed, with power consumption under 1.5 W, marking a significant advancement in performance and integration for microcomputer applications. Shifting to philosophical topics, Faggin co-authored "Hard Problem and Free Will: an information-theoretical approach" with Giacomo Mauro D'Ariano (arXiv:2012.06580v1, December 2020; later published as a book chapter in 2022), providing a framework for understanding qualia as intrinsic properties of quantum fields. The paper proposes that conscious experiences, or qualia—the subjective "what it is like" aspects of perception—are not emergent from classical brain computations but arise from quantum information processing where fields possess irreducible semantic meaning and free will, resolving David Chalmers's hard problem by positing consciousness as fundamental to reality rather than epiphenomenal. This model integrates quantum no-cloning and no-signaling theorems to argue that qualia enable private, non-local knowledge inaccessible to classical measurement.^[70] In more recent works and public lectures, Faggin has argued that strong AI is impossible, applying Holevo's theorem to contend that classical computers cannot capture the irreducible quantum information underlying conscious qualia. Holevo's theorem bounds the classical information extractable from a quantum system to at most log₂(d) bits for a d-dimensional Hilbert space, implying that classical computers, operating on deterministic symbol manipulation, cannot replicate the quantum fields' intrinsic semantics, reducing AI to sophisticated simulation without awareness. These ideas expand on concepts from his books, emphasizing the ontological primacy of consciousness over computation.^[78]

Awards and Honors

Technology Awards

Federico Faggin received the Marconi International Fellowship Award in 1988 from the Marconi Society for his pioneering contributions to communications technology through the development of microprocessors, which revolutionized digital signal processing and information transmission systems.^[79] In 1994, Faggin was awarded the IEEE W. Wallace McDowell Award by the IEEE Computer Society for his foundational work at Intel, including the invention of the silicon gate process and the design of the first commercial microprocessor, the Intel 4004, which enabled the integration of complex computing functions on a single chip.^[80] Faggin shared the 1997 Kyoto Prize in Advanced Technology from the Inamori Foundation with Marcian Hoff, Stanley Mazor, and Masatoshi Shima, for their co-development of the world's first general-purpose microprocessor, the Intel 4004.^[2] In 2009, Faggin, along with Marcian Hoff and Stanley Mazor, received the National Medal of Technology and Innovation from the United States President for their conception and implementation of the Intel 4004 microprocessor, marking the birth of the microprocessor era and its widespread application in embedded systems and consumer electronics.^[81]^[82] Faggin was honored with the Enrico Fermi Prize in 2014 by the Italian Physical Society for his invention of MOS silicon gate technology, which facilitated the creation of the Intel 4004 in 1971 and established the principles of modern semiconductor engineering leadership that propelled the digital revolution.^[83]

Honorary Recognitions

Federico Faggin has received numerous honorary doctorates and academic honors in recognition of his pioneering contributions to microelectronics, computing, and physics. In 1994, he was awarded a laurea honoris causa in computer science by the University of Milan for his foundational work in integrated circuit design.^[84] In 1996, Faggin was inducted into the National Inventors Hall of Fame for his design of the Intel 4004 microprocessor.^[85] In 2002, the University of Rome Tor Vergata conferred upon him a laurea honoris causa in electronic engineering, honoring his invention of the self-aligned silicon gate MOSFET technology and the first commercial microprocessor.^[86] Faggin's international impact was further acknowledged in 2012 with an honorary PhD in electronic engineering from the National Polytechnic University of Armenia, celebrating his role in advancing global information technology.^[87] The following year, in 2013, Chapman University granted him an honorary PhD in science, recognizing his innovative bridge between technology and the study of consciousness.^[87] In 2019, the University of Pisa awarded Faggin a dottorato honoris causa in information engineering, praising his lifelong achievements in semiconductor innovation and his theoretical contributions to quantum mechanics and consciousness.^[88] Most recently, in 2023, the University of Bologna bestowed its highest honor, the Sigillum Magnum, upon Faggin for his profound influence on science, technology, and philosophical inquiry into the nature of reality.^[89]

References

[1]
Federico Faggin - National Science and Technology Medals ...
Faggin was born in Vicenza, Italy in 1941 and went to a technical high school where he showed an interest in all things mechanical, particularly airplanes.
[2]
Federico Faggin | Kyoto Prize - 京都賞
1997 Kyoto Prize Laureates, Advanced Technology, Electronics, Federico Faggin / Semiconductor Engineer and Entrepreneur, 1941 - President, Synaptics, Inc.
[3]
Federico Faggin | IEEE Xplore Author Details
Biography. Federico Faggin is the President of the Federico and Elvia Faggin Foundation, and the designer of the first commercial microprocessor Intel 4004.
[4]
The Making of the First Microprocessor | IEEE Journals & Magazine
Feb 6, 2009 · Born, raised, and educated in northern Italy, I graduated in radio technology from the A. Rossi Technical Institute in Vicenza in 1960. My first ...
[5]
From model airplanes to microprocessors - USPTO
Jul 1, 2025 · This month we focus on Federico Faggin, an inventor, entrepreneur, and engineer who designed the first commercial microprocessor. For his ...
[6]
Gift to UC Santa Cruz funds new presidential chair for physics of ...
Sep 8, 2015 · Faggin is widely known for developing the first commercial microprocessor (the Intel 4004). Born in Italy, he moved to Silicon Valley in 1968 ...Missing: biography | Show results with:biography
[7]
(PDF) Irreducible by Federico Faggin - Academia.edu
In this book there is a crucial distinction between conscious and unconscious knowledge that is generally neglected in the scientific literature.
[8]
[PDF] Oral History of Federico Faggin
Dec 13, 2004 · Faggin: All right. I was born in Italy in Vicenza, which is a town near Venice in northeast Italy, and I was born in 1941 during the early ...
[9]
Oral-History:Federico Faggin
Jan 26, 2021 · Federico Faggin was born 1 December 1941 in Benito Mussolini's Italy. Intellectualism ran in Faggin's blood. His father was a teacher in the history of ...
[10]
Federico Faggin | Research Starters - EBSCO
Early Life Federico Faggin was born December 1, 1941, in Vicenza, Italy, the son of Giuseppe Faggin, a teacher of the history of philosophy and general history ...
[11]
Federico Faggin - Behind Greatness
Aug 11, 2021 · Originally from Vicenza, Italy, Federico was born during WWII. As a little boy his family moved to a pre-industrial area of his region in ...Missing: childhood | Show results with:childhood
[12]
Federico Faggin: From model airplanes to microprocessors - USPTO
Jun 26, 2025 · Official websites use .gov A .gov website belongs to an official government organization in the United States. Https. The site is secure. A ...<|control11|><|separator|>
[13]
Federico Faggin: the man who invented the microchip
Dec 19, 2024 · My first life, of course, started from my birth, in 1941 in Vicenza. ... We had given birth to the first microprocessor!
[14]
Federico Faggin - CHM - Computer History Museum
He received his doctorate (Laurea) in physics from the University of Padua (1965). He began working at SGS Fairchild in Italy, where he developed their first ...
[15]
The Italian Computer: Olivetti's ELEA 9003 Was a Study in Elegant ...
May 21, 2019 · In 1960, the company hired a 19-year-old named Federico Faggin to work in its electronics lab. During Faggin's years at Olivetti, he learned ...
[16]
[PDF] Olivetti Elea 9003: Between Scientific Research and Computer ...
In 1955, the Olivetti Electronic Research Laboratory was founded in Pisa and hosted for a few months in the Physics Department of the. University; the official ...
[17]
None
### Summary of Federico Faggin's Biography Sections (SGS-Fairchild, 1967-1968)
[18]
1968: Silicon Gate Technology Developed for ICs | The Silicon Engine
Federico Faggin and Tom Klein improve the reliability, packing density, and speed of MOS ICs with a silicon-gate structure.Missing: invention SGT
[19]
Silicon gate technology - ScienceDirect.com
Silicon gate technology☆ · Abstract. This paper describes the technology and characteristics of insulated-gate field-effect transistor integrated circuits using ...
[20]
The MOS Silicon Gate Technology - Intel 4004
By April 1968 Faggin was able to fabricate the first working MOS transistors suitable for making integrated circuits by using the full silicon gate process ...
[21]
Federico Faggin - IEEE Computer Society
After a brief work experience in Italy, Faggin came to the United States in early 1968 to work for Fairchild Semiconductor in its R&D Laboratory in Palo Alto, ...
[22]
Federico Faggin and Colleagues Invent Silicon Gate Technology at ...
made the first working MOS silicon gate transistors and test structures by April 1968. He then designed the first integrated circuit using silicon gate, the ...Missing: SGT | Show results with:SGT
[23]
The Birth of the Microprocessor
Insufficient relevant content. The provided URL (https://ieeexplore.ieee.org/document/9623435) links to an IEEE article titled "The Birth of the Microprocessor," but the full text is not accessible without a subscription or purchase. No specific details about Federico Faggin's personal account, including relocation date, role, training teams on SGT from SGS, design of 3708 and other MOS LSI like 3709/3710, or self-alignment benefits, can be extracted from the available abstract or metadata.
[24]
[PDF] Oral History Panel on the Development and Promotion of the Intel ...
So that technology was used on a commercial integrated circuit that was introduced in late '68, early '69, called the Fairchild 3708. ... shift register LSI for ...<|control11|><|separator|>
[25]
Announcing a New Era of Integrated Electronics - Intel
Intel's 4004 microprocessor began as a contract project for Japanese calculator company Busicom. Intel repurchased the rights to the 4004 from Busicom.
[26]
[PDF] INTEL PREVIEWS PLANS FOR NEW ISP CHANNEL
The die of the 4004 processor consisted of 2,300 transistors. The current 2nd gen Intel®. Core™ processor has almost one billion transistors. This is like ...
[27]
The Chip that Changed the World - Intel Newsroom
Nov 15, 2021 · Intel engineer Federico Faggin was on the team that designed the Intel 4004 microprocessor, which made its debut in November 1971. A black ...
[28]
After the 4004: the 8008 and 8080. By Federico Faggin
Aug 8, 2008 · After getting the world's first microprocessor, the 4004, into silicon, Dr Federico Faggin set about his next task at Intel – designing the first 8-bit ...
[29]
Intel - 8008 - 102631280 - CHM - Computer History Museum
Intel 8008 Date of Introduction: 1972 Die Size: 15 mm Clock Speed: 500 KHz Transistors: 3500 Process: PMOS Number of Pins: 18 Internal Registers: 7x8, 8 x 14 ...
[30]
50 Years Ago: Celebrating the Influential Intel 8080 - Newsroom
Dec 16, 2024 · “The 4004 and 8008 suggested it, but the 8080 made it real,” said Federico Faggin, Intel's lead designer for the 8080 and its predecessor ...
[31]
History of ZiLOG, Inc. – FundingUniverse
The purchase made ZiLOG independent, but it also saddled the company with $33 million in debt. ... Carlson, Brad, "After Reorganization, Zilog Sees Growth in Core ...
[32]
Zilog, Inc. - Company Profile, Information, Business Description ...
The company was a pioneer of the computer chip industry in the mid-1970s, stumbled during the 1980s, and was making a comeback in the early and mid-1990s.
[33]
Chip Hall of Fame: Zilog Z80 Microprocessor - IEEE Spectrum
Jun 30, 2017 · Another legend from the 8-bit era, this processor powered the first portable computer as well as the beloved “Trash-80”
[34]
[PDF] Zilog Oral History Panel on the Founding of the Company and the ...
Federico Faggin: Sure. Back in early '74, there was a major reorganization at Intel, and I became department manager under Les Vadasz. Les Vadasz' job increased ...
[35]
A History of Early Microcontrollers, Part 7: The Zilog Z8 - EEJournal
Dec 14, 2022 · Faggin envisioned an instruction set for the Z8 that could manipulate the bits in the microcontroller's I/O ports directly, without those bits ...
[36]
[PDF] Zilog Introduces 32-bit Z80 to U.S.: 7/11/94 - CECS
Jul 11, 1994 · Despite its age, the Z80 continues to be successful, shipping (according to Zilog) over 30 million units per year—not counting processors built ...
[37]
Zilog to end standalone sales of the legendary Z80 CPU
Apr 22, 2024 · Zilog will accept orders for the device until June 14, 2024. After that, it's the end for the eight-bit CPU – or at least the CMOS ZC8400 CPU family.Missing: 500 million units
[38]
US4524244A - Digital and voice telecommunication apparatus
US4524244A. United States. Patent. Download PDF Find Prior Art Similar. Inventor: Federico Faggin: Jerry A. Klein: Lauren F. Yazolino: Robert G. Korody: Eric ...
[39]
About Us - Synaptics
Synaptics was founded in 1986 by Carver Mead, a pioneer in neural networks and VLSI, and Federico Faggin, inventor of the first microprocessor, to develop ...Leadership · Events · Blog
[40]
Synaptics' Founders Were Pioneers in Machine Learning
Aug 30, 2019 · Federico Faggin and Carver Mead founded Synaptics over thirty years ago to commercialize their ideas around building silicon that computes as effectively as ...
[41]
Touchy Touchy - Forbes
Oct 31, 2005 · Synaptics kept at it and got a lucky break from none other than Apple in 1994. Its PowerBook came out with a touchpad supplied by a tiny Salt ...
[42]
Synaptics - Golden
Synaptics' founders recognized this issue and in 1992, used the pattern recognition techniques it developed to build the world's first touchpad. By 1994, ...Missing: charge | Show results with:charge<|separator|>
[43]
Synaptics Announces Initial Public Offering - Investor Relations
Synaptics Incorporated (Nasdaq: SYNA) today announced that it commenced its initial public offering of 5 million shares of its common stock at a price of $11. ...Missing: 1997 Faggin CTO until 2009 2000s
[44]
[PDF] SYNAPTICS INC - Annual Reports
2000 to $133.3 million in fiscal 2004, a compound annual growth rate of approximately 32%. Through fiscal 2000, we derived all of our product revenue from the.
[45]
Federico Faggin: The Real Silicon Man | Hackaday
Jun 19, 2018 · Faggin was born in 1941 in Vicenza, Italy. From an early age, he ... wife moved to from Italy in 1968. A fitting home for the silicon ...Learning Electronics · Creating Mos Silicon Gate... · Making The First...<|control11|><|separator|>
[46]
None
### Summary of Foveon X3 Sensor Features and Improvements Over Bayer Filters
[47]
Foveon 1/1.8" X3 Image Sensor: Digital Photography Review
Jun 21, 2004 · As with previous X3 sensors the F19 captures three individual colors (red, green and blue) for each pixel location, in this case 1440 x 1080 x 3 ...
[48]
Foveon's revolutionary X3 sensor: Digital Photography Review
Feb 11, 2002 · The Foveon X3 image sensors are the first to detect color by embedding three photodetectors in silicon at every pixel location.
[49]
Sigma SD9 Review - DPReview
Rating 4.5 (51) Nov 26, 2002 · Foveon has recently decided to use new terminology to describe its sensor and the final output image, they have requested that I use that ...
[50]
Foveon: The Clever Image Sensor That Has Failed to Catch On
Jun 13, 2022 · This sensor technology was first patented in 1999 by a company called Foveon, Inc. (later acquired in 2008 by Sigma) and featured an innovative ...Missing: history | Show results with:history
[51]
Sigma Corporation acquires three-layer image sensor developer ...
Nov 14, 2008 · Sigma Corporation is pleased to announce that it has acquired 100% of the stock of the company that developed the original three-layer image sensor, Foveon Inc.
[52]
Federico and Elvia Faggin Foundation Inc - GuideStar Profile
Federico and Elvia Faggin Foundation Inc. Los Altos Hills, CA | WWW ... Main address. 27910 Roble Blanco Dr. Los Altos Hills, CA 94022 United States ...Missing: Palo | Show results with:Palo
[53]
The nature of consciousness: will it be possible to make conscious ...
In 2011, Faggin founded the Federico and Elvia Faggin Foundation to support the scientific study of consciousness at US universities and research institutes.
[54]
Federico Faggin, MSA contributor - MindScience Academy
In 1982, he founded Cygnet Technology, focusing on neural networks and human-machine interface. At Synaptics, where he is a co-founder, and as the CEO of ...Missing: ECoSystem | Show results with:ECoSystem
[55]
Federico Faggin, the science of consciousness - Cristina Gabetti
In 1986 Faggin co-founded and directed Synaptics, which developed the first touchpads and touchscreens. On October 19, 2010 Faggin receives from President ...
[56]
Consciousness as the Ground of Being | Beshara Magazine
Jan 16, 2022 · Physicist Federico Faggin talks about his new theory which puts our inner experience and the desire to know ourselves at the centre of reality.Missing: SGT September 1968<|separator|>
[57]
[PDF] Quantum Darwinism and Computability Theory - arXiv
Oct 23, 2014 · This research was supported in part by the National Science Foundation and by a grant from the Federico and Elvia Faggin Foundation.
[58]
Quantum reality with negative-mass particles | PNAS
Physical interpretations of the time-symmetric formulation of quantum mechanics ... This research was supported by grant ... Federico and Elvia Faggin Foundation ...
[59]
[PDF] THE SCIENCE OF CONSCIOUSNESS Barcelona July 6-11, 2025
With a background in physics, founded Starlab in 2000, later founding Neuroelectrics in 2011. ... Federico and Elvia Faggin Foundation, Los Altos Hills, CA, USA.
[60]
[PDF] THE SCIENCE OF CONSCIOUSNESS Barcelona July 6-11, 2025
Jul 7, 2025 · Topical areas include neuroscience, philosophy, psychology, biology, quantum physics, cosmology, art, meditation, psychedelic and altered states ...
[61]
Federico and Elvia Faggin Foundation Inc. - Grantmakers.io Profile
$$85,000, THE UCLA FOUNDATION, PUBLIC ; $40,000, UVA HEALTH FOUNDATION, PUBLIC ; $35,000, AMERICAN COMPUTER MUSEUM, PUBLIC ; $7,000, UC IRVINE, PUBLIC ...Missing: list | Show results with:list
[62]
Episode #37 Federico Faggin - Technoculture podcast
8:23 Faggin's Foundation supports the Institute for Quantum Studies and the Institute for Interdisciplinary Brain and Behavioral Sciences at Chapman University.Missing: programs | Show results with:programs
[63]
[PDF] The Nature of Consciousness - news.unipv
Jun 22, 2023 · In 2022, the Faggin Foundation made a donation to Università degli Studi di Pavia for financing a professorship in Theoretical Physics, assigned ...Missing: philanthropy | Show results with:philanthropy
[64]
1971: Microprocessor Integrates CPU Function onto a Single Chip
Oral History transcripts at the Computer History Museum. Faggin, Federico ... Intel 4004 Microprocessor oral history panel - Faggin, Feeny, Hoff ...Missing: donation | Show results with:donation
[65]
The Intel 4004 Home
Faggin in 1996 donated it to the Computer History Museum in Silicon Valley. He was the original developer of the Silicon Gate Technology, at Fairchild ...
[66]
#49 Federico Faggin's “First Vision” Account – Thy Mind, O Human
Aug 30, 2024 · Federico Faggin, known for designing the first commercial microprocessor in 1971, the Intel 4004, had a “First Vision” type mystical experience in 1990.Missing: oral childhood
[67]
Hard Problem and Free Will: an information-theoretical approach
Dec 14, 2020 · We explore definite theoretical assertions about consciousness, starting from a non-reductive psycho-informational solution of David Chalmers's 'hard problem'.
[68]
Irreducible by Federico Faggin | Issue 170 - Philosophy Now
Faggin stresses quantum uncertainty and indeterminacy. Prior to experimental measurement, the best we can do is delineate a probability of an electron, say, ...Missing: talks essays 2000s
[69]
Quantum fields are consciousness: A groundbreaking new theory by ...
for instance, the scent of a rose — reside in quantum fields. Federico Faggin is one of ...
[70]
Irreducible from Essentia Books - Collective Ink
In stockIn this book, he elaborates on an idealist model of reality, produced after years of careful thought and direct experience, according to which nature's most ...
[71]
Federico Faggin
Federico Faggin is a physicist, engineer, inventor, entrepreneur, and author. He developed the MOS Silicon Gate Technology at Fairchild (1968)
[72]
Irreducible: Consciousness, Life, Computers, and Human Nature
Federico Faggin, a physicist and inventor of the microprocessor, explores the nature of existence, proposing that consciousness emerges as a quantum phenomenon ...Missing: talks essays 2000s qualia
[73]
The birth of the microprocessor | BYTE - ACM Digital Library
The birth of the microprocessor. Author: Federico Faggin. Federico Faggin. View Profile. Authors Info & Claims. BYTE, Volume 17, Issue 3. Pages 145 - 150.
[74]
[PDF] Oral History Panel on the Development and Promotion of the Intel ...
Faggin: Yes. But the design of the 8080 was essentially carried out by Shima with my supervision. Shima would come from time to time to ask for help, or ask ...
[75]
Quantum fields are conscious, says the inventor of the microprocessor
CPU inventor and physicist Federico Faggin, together with Prof. Giacomo Mauro D'Ariano, proposes that consciousness is not an emergent property of the brain.
[76]
Federico Faggin, 1988 - The Marconi Society
Federico Faggin, Chairman Emeritus of Synaptics, Inc., was Chief Executive Officer of Foveon, Inc., co-founder and CEO of ZiLOG, Inc., Cygnet Technologies ...
[77]
W. Wallace McDowell Award - IEEE Computer Society
1994 Federico Faggin: For the development of the Silicon Gate Process, and the first commercial microprocessor. 1990 Lawrence G. Roberts: For architecting ...
[78]
2009 Laureates- National Medal of Technology and Innovation
Jun 22, 2016 · 2009 Laureates- National Medal of Technology and Innovation ... Federico Faggin; Marcian E. Hoff, Jr.; and Stanley Mazor shake hands.
[79]
Remarks by the President in Presenting National Medals of Science ...
Nov 17, 2010 · The 2009 National Medal of Technology and Innovation to Federico Faggin, Marcian E. Hoff Jr., and Stanley Mazor, Intel Corporation, for the ...
[80]
"Enrico Fermi" Prize - Italian Physical Society
Enrico Fermi Award 2014. Premio Enrico Fermi. Winner: Federico FAGGIN. Citation: For the invention of the MOS silicon gate technology that led him to the ...
[81]
Federico Faggin | epo.org
A small chip with a huge impact: without Federico Faggin's contribution to microelectronics, there would be no PCs and no modern cars. The engineer fought ...
[82]
Lauree Honoris Causa - Università degli Studi di Roma Tor Vergata
Laurea Honoris Causa in Discipline delle Arti, Musica e Spettacolo. 2002. Federico Faggin Laurea Honoris Causa in Ingegneria Elettronica. 2002. Edward C ...
[83]
Federico Faggin is recognized by Continental Who's Who
Sep 11, 2018 · Faggin founded and directed Cygnet Technologies, Inc. in 1982 and Synaptics Inc. in 1986 which initially focused on developing artificial ...Missing: ECoSystem | Show results with:ECoSystem