Dr. Fang Kecheng's interview in Achiever

Dr. Ko-Cheng Fang: The Visionary Bridging Alien Technology and Human Innovation

At the intersection of technology and imagination, one scientist—Dr. Ko-Cheng Fang—is rewriting the future. From lab-grown jadeite and photonic computing chips to biotechnology, AI systems, and even the introduction of extraterrestrial technology to Earth, Dr. Fang is not merely innovating—he is redefining the possibilities of human civilization.

Recently, Dr. Fang was featured in an exclusive 14-page interview with the renowned U.S. business magazine Achiever. The article offered a deep exploration of his persistence and breakthroughs in scientific research and innovation. The feature also showcased eleven multilingual microfilm jadeite advertisement songs—personally composed and produced by Dr. Fang in Japanese, Korean, Chinese, and English—highlighting his extraordinary ability to merge artistic sensitivity with scientific precision.To date, he has created 106 paintings that blend Eastern and Western aesthetics, earning him the title of “Modern-Day Leonardo da Vinci.”

Dr. Fang was also honored by Achiever magazine with the award “The Most Impactful Tech Visionaries Driving Innovation in 2025.”

Click to read the full interview:

Article link- https://www.achiever-magazine.com/dr-ko-cheng-fang/

Digital magazine link- https://www.achiever-magazine.com/the-most-impactful....../

〈Interview Translation Below〉:

In a world where innovation is both an opportunity and a competition, mastery is the key to shaping the future. Few understand this more deeply than Dr. Ko-Cheng Fang. As the founder, CEO, and chairman of LongServing Technology Co., he commands groundbreaking technologies—lab-grown jadeite, photonic chips, and quantum computing—and understands precisely when to let innovation unfold on its own.

Dr. Fang’s journey is one of precision intertwined with uncertainty. He has mastered the delicate science of synthesizing jadeite crystals, navigated the constraints of government regulations on biotechnology testing, and challenged global technological monopolies—all while assembling a team of mathematicians, algorithm specialists, and IC designers to push the boundaries of possibility.

Yet, true leadership is not about control alone—it lies in knowing when to release it. Dr. Fang’s leadership philosophy is rooted in inspiring his team to explore the process of discovery and to embrace the unpredictable nature of innovation. Even when governments hesitate and institutions lag behind, he continues to move forward, knowing that real progress requires both mastery and the courage to let go.

At LongServing Technology, Dr. Fang holds the future—not through excessive control, but through understanding when to release it.

Merging Art, Science, and Extraterrestrial Knowledge

From an early age, Dr. Fang developed a deep passion for painting. By merging Eastern and Western techniques, he has created artworks that combine aesthetic refinement with scientific precision. This artistic sensitivity, coupled with his relentless pursuit of innovation, has propelled him toward the exploration of frontier technologies.In the age of the internet, scientific knowledge is more accessible than ever, and Dr. Fang quickly realized that true innovation is the fastest path to wealth and advancement.

His fascination with jadeite began the first time he encountered this mesmerizing gemstone—each piece is a unique natural artwork formed under extreme heat and pressure by volcanic activity, further shaped over centuries by sodium-rich seawater permeation. This profound appreciation drove him to pursue an ambitious challenge: to synthesize jadeite in the laboratory.When he founded LongServing Technology, his mission was clear—to achieve a materials science breakthrough long thought impossible.

Despite his deep understanding of advanced technology, Dr. Fang attributes this knowledge to what he calls “extraterrestrial memory from a previous life.” However, he faced a significant challenge: a lack of self-sustaining income. Unlike industries such as firewall systems or chip manufacturing, lab-grown jadeite requires not only financial investment but also extraordinary intellectual effort. Nevertheless, he embraced it as an ideal challenge—an endeavor perfectly aligned with both his scientific expertise and his futuristic vision.

The process of creating synthetic jadeite is extraordinarily complex. While meteor craters, under conditions of extreme heat and pressure, transform carbon into crystalline structures that form diamonds, the formation of jadeite is far more intricate.In chip manufacturing, vapor deposition technology has enabled the mass production of synthetic diamonds and significantly reduced their cost. However, jadeite remains rare and elusive. Myanmar’s natural jadeite reserves are limited, and the most prized “old mine” Imperial Green jade commands astronomical value. Even in nature, jadeite with high transparency and vivid green color is extremely rare, making rough stone trading a high-stakes gamble in which miners and traders risk great fortunes buying uncut stones.

Unlike natural jadeite, laboratory jadeite cannot rely on luck. Its crystallization process is highly sensitive; even slight fluctuations in temperature can lead to the formation of olivine at high temperatures or feldspar at lower temperatures. Only at precise crystallization points can jadeite’s main mineral—sodium pyroxene—form. Without sufficient pressure, it crystallizes into a glassy material, losing the signature bright green color and transparency that define true jadeite. Even when the correct mineral composition is achieved, producing lab-grown jadeite with exceptional transparency remains a formidable challenge.

Previous attempts to synthesize jadeite have failed to meet commercial or aesthetic standards. The Changchun Science Laboratory in China once developed synthetic jadeite, but due to poor transparency, the project was abandoned. The characteristic “fly-wing” pattern of jadeite—created by light diffraction through the crystal lattice—has proven nearly impossible to reproduce under laboratory conditions.General Electric (GE) in the United States also attempted to grow jadeite from natural crystal seeds using its expertise in synthetic diamond production. However, the extreme cost and energy requirements of maintaining stable crystallization environments made the project financially unsustainable, eventually forcing GE to discontinue its jadeite synthesis program.

Dr. Fang proposed a different approach: to mimic nature’s own geological processes. By applying cyclic variations of pressure and temperature—similar to the way magma cools and interacts with seawater over time—his method subtly adjusts silicon levels to better replicate natural conditions.Since jadeite’s chemical formula is NaAlSi₂O₆ and feldspar’s is NaAlSi₃O₈, the latter contains an extra silicon atom. Laboratory conditions often produce excess silicon contamination, reflecting the natural influence of surrounding rock formations on jadeite’s composition. Rather than eliminating this difference, Dr. Fang suggested embracing it as a defining characteristic—one that distinguishes his synthetic jadeite from today’s chemically treated market products.Many commercial jadeite stones, including dyed “Type B” and acid-bleached “Type C” jade, undergo harsh chemical treatments that alter their appearance and deceive consumers.

Through relentless research and innovation, Dr. Fang and LongServing Technology have opened a new frontier in the field of synthetic gemstones. Combining technological precision with an artist’s eye for beauty, he is determined to create lab-grown jadeite that rivals the finest natural stones—without the environmental destruction or speculative risks of traditional mining.

To experience Dr. Fang’s artistic vision, viewers can explore his painting collection, where his mastery of color and form mirrors the meticulous attention to detail found in his scientific pursuits.

Dr. Fang’s paintings:

https://www.youtube.com/playlist......

Visionary at the Intersection of Science, Medicine, and Extraterrestrial Innovation

Dr. Fang is not only a scientist and entrepreneur but also a pioneering force who unites advanced technology with a deep understanding of art, medicine, and extraterrestrial knowledge. As the founder, CEO, and chairman of LongServing Technology Co., his mission goes beyond commerce—he seeks to redefine human capability and bridge the gap between science and the unknown.

Biotech Innovations & Herbal Medicine Research

During the global COVID-19 pandemic, Taiwan initially faced difficulties in vaccine procurement, which led the government to adopt NRICM101 (Chingguan Yihau), a traditional Chinese herbal formula. Dr. Fang recognized the limitations of such treatments in combating novel viruses and turned to a broader, more scientific approach—analyzing global traditions of herbal medicine.While Western medicine focuses heavily on essential oils, he and his team screened thousands of herbal oils worldwide, importing select samples from Canada and refining them through an integration of Eastern and Western medical theory.

The results were remarkable. After developing a proprietary formulation, LongServing Technology successfully demonstrated antiviral and antibacterial efficacy through rigorous testing. Motivated by these findings, the company submitted the formula for official COVID-19 testing.

However, due to government restrictions on viral strain testing, further research was halted. Despite this, licensed medical professionals associated with the company successfully treated patients transferred from high-risk zones—all of whom recovered. Dr. Fang himself never received vaccination, underscoring his confidence in alternative therapeutic methods.Nevertheless, obstacles persisted. A major Taiwanese medical institution demanded donations of several million New Taiwan dollars merely to verify the formula’s efficacy, while refusing to provide any test data. LongServing submitted at least seven or eight samples for evaluation but received no response. The Taipei City Government further threatened fines, insisting that the matter be settled through legal means. Under intense pressure, the research temporarily stopped.Yet, Dr. Fang and his team have since resumed their work, expanding their antiviral research into cancer treatment, and animal testing is now underway.

Bringing Alien Technology to Earth

For Dr. Fang, the pursuit of science transcends the conventional notion of “dreams.” Through meditation, he claims to have recovered memories from previous lives, including advanced extraterrestrial knowledge. This innate understanding allows him to instantly analyze the engineering principles behind spacecraft depicted in Star Wars or to conceptualize next-generation communication devices such as holographic projection smartphones—a technology he intends to patent.His ultimate goal is not merely to develop alien-inspired technologies but to elevate humanity’s technological capability to an entirely new level.

With this vision, LongServing Technology is actively developing AI robots modeled after extraterrestrial intelligence. The core GPU architecture of these robots has already been disclosed, and the next stage involves mass production of 2-nanometer photonic chips. This groundbreaking innovation places the company at the forefront of the semiconductor revolution, with plans to list 20–30% of its shares in preparation for an upcoming IPO.

Strategic Expansion in the Global Jadeite Market

Parallel to his technological ambitions, Dr. Fang is transforming the global jewelry industry through lab-grown jadeite. Recognizing the necessity of strong marketing strategies, he has devised a comprehensive plan to introduce synthetic jadeite as a luxury commodity. This includes:

● Establishing flagship stores in major cities such as Shanghai, Tokyo, and Paris
● Featuring jadeite jewelry on international fashion runways using top models
● Investing heavily in advertising—an essential strategy employed by major luxury brands to achieve multi-billion-dollar revenues

To build powerful market influence, LongServing Technology has produced eleven multilingual microfilm advertisement songs, available in Japanese, Korean, Chinese, and English. Remarkably, the lyrics and music were composed entirely by Dr. Fang himself, demonstrating his unique ability to merge artistic sensitivity with scientific precision. This creative initiative represents the company’s first major step into the global jewelry market.

For a glimpse into Dr. Fang’s artistic vision, explore his painting collection：

https://www.youtube.com/playlist......

To learn more about LongServing’s breakthroughs in biotechnology and jadeite innovation, visit:

Biotechnology Innovations: https://www.longserving.com.tw/en/Bio-Tech/

Lab-Grown Jadeite Microfilm Songs:

https://www.youtube.com/playlist......

A Modern-Day Da Vinci

Dr. Fang has been hailed as a modern Leonardo da Vinci—a true polymath who seamlessly fuses science, technology, and art. Whether through his revolutionary work in biotechnology, his vision for alien-inspired artificial intelligence, or his artistic achievements in jade design and music composition, he embodies a rare synthesis of creativity and intellect

As LongServing Technology expands globally, one truth remains clear: Dr. Ko-Cheng Fang is not merely creating technology—he is shaping the future.

Pioneering Photonic Computing to Revolutionize AI and Human Civilization

Dr. Fang is leading a revolution that may redefine the future of computing, energy, and artificial intelligence. As the founder, CEO, and chairman of LongServing Technology Co., he stands at the forefront of photonic computing—a technology poised to surpass traditional electronics and usher in a new era of AI-driven civilization.

The Shift from Electronic to Photonic Chips

The path forward is clear: a gradual replacement of electronic chips with LongServing’s photonic computing chips. Although electronic chips have powered decades of technological progress, they possess an inherent flaw—their vulnerability to electromagnetic pulses (EMP). A single nuclear detonation could cripple the global electronic infrastructure, instantly paralyzing modern civilization.The former Soviet Union recognized this risk early on and deliberately delayed semiconductor adoption, relying instead on traditional transistor technology.

While the advent of photonic computing is inevitable, its market entry faces resistance, largely from governmental hesitation and entrenched corporate interests. The semiconductor industry continues to receive massive investments—companies such as TSMC are allocating over 100 billion USD into U.S. manufacturing. This relentless expansion of electronic chip production has, in some ways, delayed humanity’s technological evolution.

Barriers to Photonic Chip Market Entry

Taiwan’s insufficient support for disruptive innovation has forced LongServing to seek foreign funding. Domestic media actively suppress coverage of the company’s advancements, while foreign outlets—including American magazines and even China’s CCTV—have acknowledged its work. Facing suppression in local capital markets, LongServing has turned to Wall Street for strategic financial backing.

Despite these challenges, the company remains self-sustaining, largely thanks to its profitable lab-grown jadeite business. However, funding a single innovation differs vastly from simultaneously supporting multiple disruptive technologies.For instance, LongServing’s seawater gravity power plant has the potential to revolutionize clean energy production, providing sustainable electricity for island nations such as Taiwan, Japan, and South Korea while reducing dependence on coal and natural gas. Yet entrenched political and corporate interests resist such progress, fearing market instability.

The Urgent Need for Photonic Computing & True AI

At the heart of Dr. Fang’s vision is the development of true artificial intelligence powered by photonic computing. Current electronic AI remains confined to binary logic, fundamentally limiting machine intelligence and learning capacity. The world continues to stagnate under outdated, binary-based computing paradigms, unable to break free from the constraints of obsolete architecture. Without a photonic central processing unit (CPU), humanity cannot achieve AI comparable to extraterrestrial intelligence.

Today’s silicon photonic chips use light merely for communication, not computation. Data must still be converted into electrical signals, processed by outdated CPUs, and reconverted into optical signals—a bottleneck that severely limits true photonic computation.

LongServing’s mission is clear:
● To develop the world’s first fully functional photonic CPU
● To realize genuine photonic computation and communication
● To enable AI that surpasses the constraints of electronic technology

Once photonic AI emerges, the illusion of today’s so-called artificial intelligence will be exposed. Tech giants dominating the AI industry may find themselves unprepared for the coming shift—a transformation that could pose an existential threat to current market leaders. When LongServing’s 2-nanometer photonic computing chip reaches the market, human civilization may leap forward by a century.

The Next Leap Toward an Alien-Level Civilization

With the launch of LongServing Technology’s photonic computing chips, AI-powered photonic robots are on the verge of becoming reality. These advanced machines will be capable of:

● Replacing human labor in highly hazardous environments such as nuclear disaster zones or viral outbreak areas
● Dominating battlefields and eliminating human casualties in warfare
● Redefining medical and engineering fields by performing tasks with near-extraterrestrial precision

Unlike traditional two-dimensional, binary-based electronic chips, LongServing’s decimal photonic robots operate within a fully three-dimensional world. While current AI models can only process two-dimensional matrix data, photonic robots will interpret the real world in three dimensions. Using advanced imaging systems to capture data from every angle, these robots will not merely “see” the world but will reconstruct and store it as a complete digital blueprint.

The Future Is Now

LongServing Technology Co. is not only building technologies but shaping the next age of civilization. The transition from electronic to photonic computing is inevitable. With true AI, photonic chips, and AI-driven robotics, humanity now stands at the brink of the technological singularity.

Will we embrace the leap toward an extraterrestrial-level future, or remain bound by outdated technologies?

Explore more about LongServing Technology’s photonic chips and AI robots:

https://www.youtube.com/watch?v=JYz-7aPdtLw

https://www.longserving.com.tw/en/AI-Robot/

Harnessing Extraterrestrial Knowledge to Redefine Innovation

At LongServing Technology Co., innovation is not driven by conventional means. “Unlike other startups that rely on recruiting high-paid talent, our research and development stem from a far more unique foundation—the memory of alien technology. Our greatest challenge is not a lack of knowledge but Earth’s limited resources, which restrict our ability to fully realize extraterrestrial-level advancements,” Dr. Fang explained.

Beyond Earth’s Technology: The Next Frontier

Dr. Fang and his team fully understand the principles and construction techniques of UFOs—from propulsion systems to structural engineering. However, essential materials such as anti-gravity elements and low-radiation nuclear fuels simply do not exist on Earth. If they did, manufacturing fully functional flying saucers would no longer be an unattainable dream.

Another critical aspect of extraterrestrial technology lies in its advanced life-support systems, designed for long-duration interstellar travel. These include:

• Life-sustaining capsules that maintain optimal physiological conditions by regulating growth hormones, preventing aging, and stabilizing vital signs such as blood pressure and heart rate
• DNA-based body replication—a groundbreaking concept in which the soul can be transferred into a new body, treating the human form as something interchangeable, much like changing clothes
• Life-support pills—a revolutionary food substitute developed to sustain life in deep space. These pills could eradicate global food shortages and provide long-term nutrition in environments where conventional food sources are unavailable

The vision is clear: to gradually transfer these extraterrestrial technologies to Earth, opening a new era of scientific breakthroughs.

Overcoming Suppression & Expanding Global Participation

Such progress does not come without resistance. If LongServing Technology’s projects significantly disrupt existing technological systems, they may face governmental suppression. The rapid pace of development has created a paradox—the company’s technological evolution is outpacing the adaptability of political and corporate structures.

To address this challenge, LongServing is now focused on:

• Issuing company shares to expand financial support and enable more investors to participate in this technological revolution
• Building a global network to ensure that no single entity can restrict innovation through political or corporate influence

While many young innovators may not yet consider these challenges, LongServing has already experienced them firsthand. The journey toward genuine technological advancement is not solely about engineering breakthroughs—it is also about navigating power structures, market forces, and global strategic shifts.

The question is no longer whether alien-inspired technology will shape the future—it is a matter of when. And at LongServing Technology Co., that future is arriving faster than anyone expects.

The End of Energy-Intensive Electronics

Consider the example of TSMC’s advanced process technology: a single 5-nanometer semiconductor fabrication plant consumes as much electricity as an entire city of 560,000 people in eastern Taiwan. This astonishing inefficiency arises because 97 percent of the energy used in advanced semiconductor manufacturing is wasted.As TSMC accelerates production of its 3-nanometer chips, its energy demand is projected to reach nearly one-quarter of Taiwan’s total power consumption—around 23.7 percent—by 2030.

However, Taiwan’s power generation capacity has failed to keep pace, creating a growing risk of widespread blackouts. This is why energy-intensive chip manufacturing must gradually be phased out and replaced by photonic computing chips—a revolutionary method pioneered by LongServing Technology Co.

The Picoscale Chip Breakthrough

TSMC’s extreme ultraviolet (EUV) lithography technology, which operates at a wavelength of 13.5 nanometers, requires an ultra-clean vacuum environment. Even a single speck of dust can ruin an entire chip, forcing manufacturers to invest billions in maintaining spotless facilities.

In contrast, LongServing’s picoscale circuit process utilizes X-ray fabrication technology, which operates with extremely short wavelengths—ranging from 0.01 to 10 nanometers. Unlike EUV, X-rays offer several major advantages:

• They can penetrate dust, eliminating contamination risks
• They do not require a vacuum environment, reducing production costs
• They consume far less energy, making large-scale manufacturing more sustainable

LongServing’s picoscale chips will eliminate the need for massive energy consumption, signaling the decline of traditional semiconductor fabrication methods.

The Environmental Cost of Electronic Chip Manufacturing

TSMC’s continuously increasing electricity demand will further heighten dependence on coal and natural gas, worsening environmental damage. Even as Taiwan expands its solar energy use, solar panels degrade after 20 to 30 years, and the difficulty of recycling damaged solar cells causes secondary pollution.

LongServing’s photonic computing chips offer a cleaner alternative, ensuring that future technological progress benefits humanity rather than depleting its resources.

Beyond Human Limits

While photonic computing will fundamentally transform technology, biotechnology will redefine life itself. Anti-cancer and antiviral treatments are only the beginning; the ultimate breakthrough lies in DNA-based body replication—an extraterrestrial method of extending human lifespan.

The Future of Human Evolution

Many have asked whether such advancements raise ethical or legal concerns. The answer, Dr. Fang explains, is simple: “The challenges humanity faces today have already been solved on other planets.”

In advanced extraterrestrial civilizations, soldiers’ DNA is preserved before battle. After death, their souls are retrieved and transferred into replicated bodies, allowing them to resurrect and continue fighting.

Dr. Fang believes this represents the ultimate method for humanity to conquer death. Cryonically freezing a terminally ill body in hopes of future revival is, in his view, a primitive approach. The true path to immortality lies in DNA-based body reconstruction.

• Preserve DNA before death
• Retrieve the soul after physical death
• Transfer the soul into a new, healthy body

This breakthrough will not only extend human lifespan but fundamentally redefine the meaning of life itself.

A New Era of Science & Technology

LongServing Technology Co. is not merely innovating—it is redefining the future. From lab-grown jadeite and photonic computing to picoscale circuit fabrication and extraterrestrial biotechnology, the company is unlocking advances once thought impossible.

The question is no longer whether humanity will evolve—it is only a matter of time.

Explore LongServing’s innovations: Picoscale Chips and Photonic Computing Chips.

https://www.longserving.com.tw/....../Picoscopic....../

https://www.longserving.com.tw/....../Photonic....../