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Tycoon of Video Games

A soul from Earth found himself transmigrated into a person from a parallel world, a world that lacked video games and an established gaming industry. Follow the journey as this individual rises to become the video game tycoon of this unique world. [Please note that any similarities between the names of characters or places in this story and those in the real world are purely coincidental. I do not claim ownership of any products or properties mentioned in this novel. This work is entirely fictional.] (Cover photo is not mine. Ctto to the original owner.) This novel draws inspiration from 'Tokyo Video Game Tycoon,' although there may have been some similarities at the beginning, the plot will take its own distinct path as it unfolds. On average, each chapter spans approximately 1,000 words or so. For those interested, you can find 10-15 chapters in advance on my Patreon page at patreon.com/NewComer714.

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501 Chs

Low profile yet highly potential projects

As KiShin carved out its niche in the collaborative efforts with the United States and Japanese governments, it was also quietly pioneering advancements in technologies that would soon become ubiquitous: Blockchain and financial technologies. Within the walls of KiShin's research labs, this ambitious endeavor was affectionately dubbed "KiShin FinTech."

The KiShin FinTech initiative was a project Shin chose to keep under wraps, aware of the seismic shift it could cause in the financial landscape. He understood all too well that traditional banking sectors and industries resistant to digital disruption—such as certain segments of the financial services industry, real estate, and traditional retail banking—might not welcome the transformative potential of Blockchain technology. Shin feared that revealing the project's full scope might complicate KiShin's ability to secure favorable financial terms from these institutions.

Remarkably, the KiShin FinTech project had been set in motion back in 1998, not by Shin himself but by a visionary employee named Satoshi Nakamoto. Shin, upon meeting Satoshi, found him to be a contemporary in age, possibly even younger. During a night meeting in February 1998, Shin, impressed by Satoshi's initial proposals, entrusted him with the leadership of the KiShin FinTech project.

Satoshi was taken aback by Shin's depth of insight, unaware that Shin's knowledge was partly derived from an understanding of future technological trends. The collaboration between Satoshi's innovative mind and Shin's foresightedness steered the KiShin FinTech project in a direction that perfectly aligned with Shin's vision.

This strategic advantage in emerging technologies, which might not have seemed immediately lucrative but promised substantial long-term gains, positioned KiShin well ahead of its time, especially in internet technologies. While other companies were still grappling with the basics of online presence and digital transactions, KiShin was already leapfrogging towards a future where Blockchain and FinTech would revolutionize how people think about and manage financial transactions, all while keeping their groundbreaking work as quiet as possible to maintain their competitive edge.

In addition to its groundbreaking work in Blockchain and FinTech, KiShin was also delving into another cutting-edge technological frontier: Quantum Computing. Under Shin's leadership, KiShin recognized the transformative potential of quantum computing to address problems that were insurmountable for today's classical computers. With an unwavering gaze fixed on the horizon of innovation, KiShin's investment in quantum computing research was not just an exploration of scientific curiosity but a strategic move to secure an unmatched competitive advantage in the future.

Quantum computing, with its ability to process complex calculations at unprecedented speeds, promised revolutionary breakthroughs in a myriad of fields. Shin was particularly interested in its implications for cryptography, materials science, and the simulation of complex systems. These areas were of paramount importance to advancing KiShin's interests in airline and aerospace technologies, sectors where Shin had heavily invested and anticipated significant growth.

By harnessing the power of quantum computing, Shin envisioned creating unbreakable encryption methods for securing digital transactions, an evolution critical in the age of KiShin FinTech. Moreover, in materials science, quantum computing could lead to the discovery of new materials with extraordinary properties, potentially revolutionizing the construction and durability of aircraft and spacecraft. This would not only enhance the safety and efficiency of air travel but also open new possibilities for space exploration.

Perhaps most crucially, the ability to simulate complex systems with quantum computing could dramatically accelerate the design and testing of aerospace technologies. Traditional computers, limited by their binary processing capabilities, could take years to simulate the aerodynamics of new aircraft designs or the orbital mechanics of spacecraft missions. Quantum computing, however, could reduce these simulations to a fraction of the time, enabling faster iterations and innovations.

While KiShin's foray into the research of Quantum Computing represented a bold leap towards the future, the Quantum Computing at this time was still in its early stages. The pursuit of quantum computing by KiShin was marked by diligent research and exploration, a proof to the company's commitment to innovation and its readiness to embrace the challenges of uncharted technological territories. Despite the excitement surrounding its potential, the project had not yet reached fruition that will align to Shin's expectations; KiShin was navigating the intricate maze of theoretical and practical hurdles inherent in quantum computing research.

Quantum computing, with its promise to revolutionize industries by solving complex problems unattainable by classical computers, remained a beacon on KiShin's horizon. The company's research teams were immersed in tackling the daunting scientific and engineering challenges that quantum computing presented. These ranged from creating stable quantum bits (qubits) that could outperform classical computer bits, to developing algorithms that could harness these qubits' power without succumbing to the notorious difficulties of quantum decoherence and error rates.

Shin, understood that the path to mastering quantum computing was a marathon, not a sprint. He recognized that the breakthroughs required to make quantum computing a practical reality were still in the process of being discovered. This did not deter KiShin's efforts; if anything, it spurred the company on, fueling its determination to contribute to the pioneering work that would one day unlock quantum computing's full potential.

While Shin's company, KiShin, was ambitiously venturing into the realm of quantum computing, it was not alone in this high-stakes technological race. Giants like IBM, along with esteemed academic institutions such as Stanford University, were also at the forefront of quantum computing research, making notable strides toward tangible advancements. Aware of the significant progress being made by these organizations, KiShin recognized the invaluable benefits of collaboration over isolation in the pursuit of breakthroughs in quantum computing.

Understanding the complex and multidisciplinary nature of quantum computing, Shin saw the wisdom in joining forces with established leaders in the field. The synergies that could be unlocked by combining KiShin's innovative drive with IBM's pioneering research and Stanford's academic excellence were immense. Such collaborations would not only accelerate KiShin's research efforts but also enrich them with diverse perspectives and expertise.

Therefore, KiShin set its sights on forging partnerships with IBM and other prestigious universities in the USA. Shin believed that by pooling resources, sharing knowledge, and leveraging each entity's unique strengths, the collaborative efforts could push the boundaries of what was currently possible in quantum computing. These partnerships were envisioned as a way to bridge the gap between theoretical quantum computing and its practical applications, bringing the future of technology into the present more swiftly and effectively.