Dr. Ko-Cheng Fang: The Visionary Bridging Alien Technology and Human Innovation
In a world where innovation is both an opportunity and a battleground, control is the key to shaping the future. Few understand this better than Dr. Ko-Cheng Fang. As the Founder, CEO, and Chairman of LongServing Technology Co., he holds the reins of breakthrough technologies—lab-grown jadeite, photonic chips, and quantum computing—while knowing precisely when to loosen his grip and let innovation take its course.
Dr. Fang’s journey is one of mastering both precision and uncertainty. He has navigated the delicate science of crystallizing synthetic jadeite, wrestled with government restrictions on biotech testing, and challenged global technological dominance—all while assembling a team of mathematicians, algorithm experts, and IC designers to push the boundaries of possibility.
Yet, true leadership is not about control alone; it is about knowing when to release it. Dr. Fang leads and inspires his team to explore the process of discovery, and embraces the unpredictable nature of groundbreaking innovation. Even as governments hesitate and institutions lag, he moves forward, knowing that real progress demands both command and surrender.
At LongServing Technology Co., Dr. Fang orchestrates the future—not by holding on too tightly, but by knowing exactly when to let go.
Merging Art, Science, and Extraterrestrial Knowledge
Since childhood, Dr. Fang has been deeply passionate about painting, blending Eastern and Western techniques to create artwork that reflects both aesthetic mastery and technological precision. This artistic sensibility, combined with an insatiable drive for innovation, has fueled his pursuit of cutting-edge technology. In the internet era, where complex scientific knowledge is more accessible than ever, he quickly recognized that true innovation is the fastest path to wealth.
Dr. Fang’s fascination with jadeite began the moment he first encountered the mesmerizing gemstone—each piece a unique masterpiece formed through volcanic activity under extreme heat and pressure, shaped over millennia by the infiltration of sodium salts from seawater. This profound appreciation led him to take on an ambitious challenge: synthesizing lab-grown jadeite. When he founded , his mission was clear—to achieve what had long been deemed impossible in materials science.
Despite his deep understanding of advanced technology, which he attributes to “past-life memories of extraterrestrial knowledge,” Dr. Fang faced a significant hurdle: the lack of a self-sustaining revenue stream. Unlike ventures such as firewalls or chip manufacturing, lab-grown jadeite requires more than financial investment—it demands extraordinary intellectual effort. Yet, he saw this as the perfect challenge, one that aligned both with his scientific expertise and his vision for the future.
The difficulty of synthesizing jadeite is immense. While meteorite craters contain large quantities of diamonds due to high-temperature and high-pressure conditions transforming carbon into crystalline structures, jadeite follows a far more complex formation process. The development of vapor deposition technology in chip manufacturing has enabled large-scale synthetic diamond production, significantly lowering diamond prices. However, jadeite remains a rarity. Myanmar’s natural jadeite deposits are scarce, with the highly sought-after “old mine” imperial green variety being exceptionally valuable. Even in nature, jadeite of high translucency and vibrant green color is incredibly rare, making the trade of raw jadeite a gamble—one where miners and dealers risk fortunes on uncut stones.
Unlike natural jadeite, synthetic jadeite cannot be left to chance. The crystallization process is highly sensitive; even a slight temperature variation can lead to the formation of olivine at higher temperatures or feldspar at lower temperatures. Only at the precise crystallization point does jadeite’s primary mineral, sodium-containing pyroxene, emerge. Without sufficient pressure, it will crystallize into a glass-like form, lacking the vivid green color and translucency that defines true jadeite. Even after achieving the correct mineral composition, producing lab-grown jadeite with exceptional translucency remains a formidable challenge.
Previous attempts at synthetic jadeite have failed to meet commercial or aesthetic standards. The Changchun Science Laboratory in China once developed synthetic jadeite, but its lack of translucency led to the project’s abandonment. The signature “fly-wing” texture—created by light diffraction within jadeite crystals—is nearly impossible to replicate under laboratory conditions. General Electric, leveraging its expertise in synthetic diamond production, experimented with growing jadeite from natural rough crystals. However, the extreme costs and energy-intensive process of maintaining the crystallization environment rendered the project financially unviable, ultimately leading GE to discontinue its efforts.
Dr. Fang proposes a different approach: mimicking nature’s own geological processes. By applying cycles of increasing and decreasing pressure—similar to the way magma cools and interacts with seawater over time—his method introduces subtle adjustments in silicon content to better replicate natural conditions. Given that jadeite’s chemical formula is NaAlSi₂O₆, while feldspar’s formula (NaAlSi₃O₈) contains an extra silicon atom, laboratory conditions often result in excess silicon contamination. This mirrors natural occurrences where surrounding rock influences jadeite composition. Rather than eliminating this variation, Dr. Fang suggests using it as a distinguishing feature of natural jadeite, setting it apart from artificially enhanced jadeite found in today’s market. Many commercial jadeite products, including dyed “B-grade” and acid-washed “C-grade” jadeite, undergo aggressive chemical treatments to manipulate their appearance, deceiving consumers in the process.
Through relentless research and innovation, Dr. Fang and LongServing Technology Co. are pioneering a new frontier in synthetic gemstones. By fusing technological precision with an artist’s eye for beauty, he is determined to create lab-grown jadeite that rivals nature’s finest—without the risks of environmental destruction or market speculation.
For a glimpse into Dr. Fang’s artistic vision, explore his painting collection, where his mastery of color and form reflects the same meticulous attention to detail found in his scientific pursuits.
Visionary at the Intersection of Science, Medicine, and Extraterrestrial Innovation
Dr. Fang is not just a scientist and entrepreneur—he is a force of innovation, seamlessly blending advanced technology with a deep understanding of art, medicine, and extraterrestrial knowledge. As the Founder, CEO, and Chairman of LongServing Technology Co., his mission extends beyond business—he seeks to redefine human capabilities and bridge the gap between science and the unknown.
Biotech Innovations & Herbal Medicine Research
During the global COVID-19 pandemic, Taiwan initially struggled with vaccine procurement, leading the government to adopt NRICM 101, a traditional Chinese herbal formula. Recognizing the limitations of such remedies against a novel virus, Dr. Fang turned to a broader, more scientific approach—analyzing global herbal medicine traditions. While Western medicine focuses on essential oils, he and his team screened thousands of herbal essential oils from around the world, importing select ingredients from Canada and refining them through a fusion of Chinese and Western medical principles.
The results were remarkable. After formulating a proprietary blend, LongServing Technology Co. successfully demonstrated its antiviral and antibacterial efficacy through rigorous testing. Encouraged by these findings, they submitted the formula for official COVID-19 testing. However, due to government restrictions on virus strain testing, further research was halted. Despite this setback, licensed medical professionals associated with the company successfully treated patients transferred from high-risk areas, all of whom recovered. Dr. Fang himself has never taken a vaccine, further emphasizing his confidence in alternative treatment approaches.
Yet, obstacles persisted. A major medical institution in Taiwan demanded millions of NT dollars in donations merely to confirm the formula’s effectiveness—while refusing to share any actual test data. LongServing Technology Co. submitted at least seven to eight samples for evaluation, yet received no response. Instead, the Taipei City Government threatened fines, requiring legal intervention to resolve the situation. Under immense pressure, research was temporarily halted, but Dr. Fang and his team have since resumed their work, expanding their antiviral research into cancer treatment, with animal testing now underway.
Bringing Alien Technology to Earth
For Dr. Fang, scientific aspirations go beyond conventional definitions of “dreams.” Through meditation, he claims to have recovered past-life memories, including advanced extraterrestrial knowledge. This innate understanding allows him to immediately analyze the engineering principles of spacecraft in Star Wars or conceptualize the next evolution of communication—holographic projection phones, a technology he intends to patent. His ultimate goal is not just to develop alien-inspired technology but to elevate humanity’s technological capabilities to an entirely new level.
With this vision in mind, LongServing Technology Co. is aggressively developing AI robots modeled after extraterrestrial intelligence. The core photonic GPU/ photonic CPU architecture for these robots has already been disclosed, and the next phase includes the mass production of 2-nanometer photonic chips. This groundbreaking innovation positions the company at the forefront of the semiconductor revolution, with plans to release 20% to 30% of equity to Wall Street in preparation for a future IPO.
Strategic Expansion in the Global Jadeite Market
In parallel with his technological ambitions, Dr. Fang is also pioneering a transformation in the global jewelry industry through lab-grown jadeite. Recognizing the necessity of a strong marketing strategy, he has devised a comprehensive plan to introduce synthetic jadeite as a luxury product. This includes:
- Establishing flagship stores in prestigious cities such as Shanghai, Tokyo, and Paris
- Leveraging high-fashion models to showcase jadeite jewelry on international runways
- Investing heavily in advertising, a key strategy employed by major luxury brands to achieve multi-billion-dollar revenues
To establish a strong market presence, LongServing Technology Co. has already produced eleven multilingual microfilm advertisement songs—including Japanese, Korean, Chinese, and English versions. Notably, the lyrics and music were composed by Dr. Fang himself, a testament to his unique ability to merge artistic sensitivity with scientific precision. This creative endeavor is the company’s first major strategic move to capture the global jewelry market.
For a glimpse into Dr. Fang’s artistic vision, explore his painting collection: Dr. Fang’s Art Paintings
For more on LongServing’s Biotech & Jadeite Innovations: Biotech Innovations, Lab-Grown Jadeite Microfilms
A Modern-Day Da Vinci
Dr. Fang has been called a modern-day Leonardo da Vinci, a polymath who seamlessly integrates science, technology, and art. Whether through his revolutionary advancements in biotech, his vision for extraterrestrial-inspired AI, or his artistic mastery in jadeite design and music composition, he embodies a rare fusion of creativity and intellect.
As LongServing Technology Co. moves toward global expansion, one thing remains clear: Dr. Ko-Cheng Fang is not just creating technology—he is shaping the future.
Pioneering Photonic Computing to Revolutionize AI and Human Civilization
Dr. Fang is leading a revolution that could redefine the future of computing, energy, and artificial intelligence. As the Founder, CEO, and Chairman of LongServing Technology Co., he is at the forefront of photonic computing, a technology poised to surpass traditional electronics and unlock an entirely new era of AI-driven civilization.
The Shift from Electronic to Photonic Chips
The roadmap for the future is clear: gradually replacing electronic chips with LongServing’s photonic computing chips. While electronic chips have fueled technological progress for decades, they are fundamentally flawed. Their biggest weakness? Vulnerability to electromagnetic pulses (EMP)—a single nuclear detonation could disable electronic infrastructure worldwide, erasing modern civilization in an instant. The former Soviet Union, wary of this risk, delayed semiconductor adoption, relying instead on traditional transistor-based technology.
Despite the inevitability of photonic computing, its market introduction faces resistance, primarily due to government hesitation and entrenched corporate interests. The semiconductor industry continues to receive massive investments, with companies like TSMC pouring over $100 billion into U.S. manufacturing. This relentless expansion of electronic chip production is paradoxically delaying human technological progress.
Barriers to Photonic Chip Market Entry
Taiwan’s lack of support for groundbreaking innovations has forced LongServing to seek funding abroad. “Taiwanese media actively blocks coverage of our advancements, while foreign media—such as U.S. magazines and even China’s CCTV—acknowledge our work,” Dr. Fang explains. Facing suppression when securing local funding, LongServing has turned to Wall Street for strategic financial backing.
Despite these challenges, the company remains self-sufficient, largely due to its successful lab-grown jadeite business. However, funding a single innovation is vastly different from financing multiple disruptive technologies simultaneously. LongServing’s seawater gravity power plants, for example, could revolutionize clean energy production—providing sustainable power for island nations like Taiwan, Japan, and South Korea, while reducing dependence on coal and natural gas. Yet, entrenched political and corporate interests resist these advancements, fearing market upheaval.
The Urgent Need for Photonic Computing & True AI
At the core of Dr. Fang’s vision is the development of true AI, powered by photonic computing. Current electronic AI is stuck in binary computing, a system fundamentally limiting the intelligence and learning capacity of machines. The world stagnates under clumsy, machine-language computing, unable to break free from its outdated foundations. Without photonic CPUs, humanity cannot achieve AI on par with extraterrestrial intelligence.
Today’s silicon photonic chips only use photons for communication, not computation. Data is still converted into electronic signals, processed by an outdated CPU, then converted back into optical signals—a bottleneck that cripples true photonic computing. LongServing’s mission is clear:
- Develop the first fully functional photonic CPU
- Achieve true photonic computing & communication
- Enable AI intelligence beyond current electronic limitations
Once photonic AI emerges, the deception behind electronic AI will be exposed. The tech giants dominating the AI industry today may not be prepared for this shift—and this could trigger a major crisis for the current industry leaders. When LongServing’s 2-nanometer photonic computing chip enters the market, human civilization could leap forward by over a century.
The Next Leap Toward an Alien-Level Civilization
With the launch of LongServing’s photonic computing chips, AI-powered photonic robots will soon become reality. These advanced machines will:
- Replace human labor in hazardous environments, from nuclear disaster zones to viral outbreaks
- Dominate the battlefield, eliminating human casualties in war
- Redefine healthcare and engineering, operating with near-alien precision
Unlike flat, binary-based electronic chips, LongServing’s decimal-based photonic robots operate in a fully three-dimensional world. Unlike current AI models, which process data in 2D matrices, photonic robots will interpret reality in a 3D format. Through advanced cameras capturing information from all angles, these robots will not just “see” the world—they will reconstruct and store it as a complete digital blueprint.
The Future Is Now
LongServing Technology Co. is not just building technology—it is shaping the next era of civilization. The transition from electronic to photonic computing is inevitable. With true AI, photonic chips, and AI-powered robots, humanity stands at the brink of a technological singularity.
Will we embrace the leap toward an extraterrestrial-level future, or remain shackled by outdated technology?
Explore More: Photonic Computing & AI Robots
Harnessing Extraterrestrial Knowledge to Redefine Innovation
At LongServing Technology Co., innovation is not driven by conventional means. “Unlike other startups that rely on poaching top talent with high salaries, our research and development stems from a far more unique foundation—memories of extraterrestrial technology. The greatest challenge we face is not a lack of knowledge, but rather Earth’s limited resources, which restrict our ability to fully implement alien-level advancements.” Fang explains.
Beyond Earth’s Technology: The Next Frontier
Dr. Fang and his team fully understand the principles and manufacturing of UFOs—from propulsion systems to structural engineering. However, the necessary materials, such as anti-gravity elements and low-radiation nuclear fuel, simply do not exist on Earth. If they did, the creation of fully functional flying saucers would already be within reach.
Another critical aspect of extraterrestrial technology is advanced life-support systems, specifically designed for long-duration interstellar travel. These include:
- Life-Support Pods – Maintaining optimal physical conditions, preventing aging through growth hormone regulation, and stabilizing vital signs such as blood pressure and heart rate.
- DNA-Based Body Replication – A groundbreaking concept where souls can transfer into new bodies, treating the human form as something that can be replaced, just like changing clothes.
- Life-Sustaining Pills – A revolutionary food alternative designed to sustain life in deep space. These pills could eliminate global food shortages and provide long-term nourishment where traditional food sources are unavailable.
The vision is clear: gradually transferring this extraterrestrial technology to Earth, ushering in a new era of scientific breakthroughs.
Overcoming Suppression & Expanding Global Participation
However, such advancements do not come without resistance. If LongServing’s projects significantly disrupt the existing technological order, they could face government suppression. The rapid pace of development creates a paradox—our technology is advancing faster than political and corporate structures can adapt.
To stay ahead of this challenge, LongServing is now focusing on:
- Releasing company shares – Expanding financial support and allowing more investors to participate in the technological revolution.
- Building a global network – Ensuring that no single entity can restrict innovation through political or corporate influence.
Young innovators may not yet consider such challenges, but LongServing has already faced them firsthand. The journey toward true technological advancement is not just about engineering breakthroughs—it’s 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 only a matter of when. And at LongServing Technology Co., that future is arriving faster than anyone expects.
The End of Energy-Intensive Electronics
Taking TSMC’s advanced manufacturing as an example, the power consumption of a single 5-nanometer fab is equivalent to supplying electricity to an entire town of 560,000 people in eastern Taiwan. This staggering inefficiency exists because 97% of the energy used in advanced semiconductor manufacturing is wasted. With TSMC now accelerating 3-nanometer chip production, its energy demand is projected to reach nearly a quarter of Taiwan’s total electricity consumption by 2030—around 23.7%.
However, Taiwan’s power generation has failed to keep up, creating severe risks of widespread blackouts. This is why energy-intensive chip manufacturing must be phased out and replaced with photon-based computing chips—a revolutionary approach pioneered by LongServing Technology Co.
The Picoscale Chip Breakthrough
TSMC’s EUV lithography, which operates at 13.5 nanometer wavelengths, requires an ultra-clean vacuum environment. Even a single speck of dust can ruin an entire chip, forcing manufacturers to spend billions maintaining dust-free facilities.
LongServing’s picoscale circuit manufacturing process, however, are manufactured using X-ray machines —a technology that offers ultra-short wavelengths ranging such as from 0.01 to 10 nanometers. Unlike EUV, X-rays:
- Can penetrate dust—eliminating contamination risks
- Do not require a vacuum—lowering production costs
- Use far less energy—making large-scale manufacturing sustainable
By eliminating the need for extreme energy consumption, LongServing’s picoscale chips will render traditional semiconductor manufacturing obsolete.
The Environmental Cost of Electronic Chip Manufacturing
TSMC’s rising electricity demands will increase dependence on coal and natural gas, further damaging the environment. Even if Taiwan expands solar energy use, solar panels degrade over 20-30 years, creating secondary environmental pollution due to the difficulty of recycling broken solar cells.
LongServing’s photon-based computing chips present a cleaner alternative, ensuring that future technological advancements benefit humanity rather than drain its resources.
Beyond Human Limits
While photonic computing will revolutionize technology, biotechnology will redefine life itself. Fighting cancer and viruses is only the beginning—the ultimate breakthrough lies in DNA-based body replication, an extraterrestrial method for extending human lifespan.
The Future of Human Evolution
Many ask if such advancements raise ethical or legal concerns. The answer is simple—the challenges Earth faces today have already been solved on other planets.
On advanced extraterrestrial civilizations, soldiers’ DNA is stored before battle. Upon death, their souls are reclaimed and placed into a replicated body, allowing them to resurrect and continue fighting.
Dr. Fang believes this is humanity’s ultimate method of conquering death. Freezing bodies at the final stages of cancer—hoping for future revival—is a primitive strategy. The true path to immortality lies in DNA-based body reconstruction.
- Preserve DNA before death
- Retrieve the soul upon physical expiration
- Transfer the soul into a new, healthy body
This breakthrough will not only extend human lifespan but fundamentally change what it means to be alive.
A New Era of Science & Technology
LongServing Technology Co. is not just innovating—it is redefining the future. From lab-grown jadeite, photon-based computing to picoscale circuit manufacturing process and extraterrestrial biotechnology, the company is unlocking advancements previously thought impossible.
The question is no longer if humanity will evolve—it is simply a matter of when.
Explore LongServing’s Innovations: Picoscale Chips & Photon-Based Chips
