All great inventions are simple and have already been created before us!
This is also true for the innovative Pascal Machine AI project. The creators of this project have adapted the works of the renowned French mathematician Blaise Pascal to modern tasks and utilized the immense computing power of modern computers. As a result, they have developed a tool that enables them to make highly accurate mathematical predictions. By focusing these capabilities on forecasting stock index movements, the project is able to generate a high number of successful transactions, surpassing the number of unsuccessful ones. Ultimately, this leads to profits for their investors.
Now, let’s delve deeper into how it all functions.
What’s the connection with Blaise Pascal?
Blaise Pascal, a multi-talented French individual, excelled in religious philosophy, writing, mathematics, and physics.
An Innovative Machine for Mathematics
At a young age of 19, Pascal embarked on creating his own calculating machine, which is now recognized as a precursor to the modern calculator. Being exposed to various counting operations through his father, who worked as a tax collector, Pascal conceived the initial designs for the Pascaline. After five years of continuous improvement, the device was successfully developed.
Pascal’s mechanism, in theory, was easy to use. However, due to technical issues, implementing the scientist’s plan became a challenging task that required overcoming numerous difficulties. Blaise aimed to create a machine that could simplify complex calculations for both educated individuals and those with little knowledge of arithmetic. Despite creating over 50 calculating machines over a span of 10 years, Pascal was only able to sell a small portion of his inventions.
What Is Blaise Pascal’s Calculating Machine?
Blaise Pascal’s Calculating Machine, also known as the Pascaline, is a compact device consisting of multiple interconnected cogwheels or gears. Each wheel is labeled with numbers from zero to nine. To perform addition, the user needs to rotate the gears to dial in the desired numbers. The wheels move until the correct number is displayed. If the sum exceeds nine, the gear shifts to the next digit, causing the adjacent wheel to move by one increment.
The concept of using wheel revolutions for addition was not a new idea introduced by Pascal. In fact, Wilhelm Schickard had already proposed this idea in 1623. Pascal’s invention was primarily focused on transferring the remainder to the next discharge through the full rotation of the gear. The early “pascalines” consisted of five gear wheels, but as technology advanced, the mechanism was upgraded to include eight gear wheels, enabling the handling of large numbers (up to 9999999). This mechanism remained widely used in various technical devices until the 20th century. One of its key advantages was the device’s ability to automatically add multi-digit numbers.
Historians studying the origins of counting mechanisms believe that Pascal created his own adding machine without any prior knowledge of Schikkard’s project. While Pascal’s device amazed the scientific community at the time, its high cost and complexity made it inaccessible to most people. However, Pascal’s invention made a significant contribution to the history of computer technology.
During a certain period in his life, Pascal crossed paths with a wealthy man named cavalier de Mere. Being an avid gambler, cavalier de Mere approached Pascal in 1654 to help him solve certain problems that arise in gambling scenarios.
De Mere, Pascal, Fermat, and Roberval were the individuals who solved De Mere’s initial problem regarding the number of dice throws needed for the probability of winning to exceed the probability of losing. The second problem, which was more challenging, was solved by Pascal and Fermat through their correspondence, and this laid the groundwork for the theory of probability. Scientists approached the problem of distributing bets between players in a series of interrupted games, utilizing their respective analytical techniques to calculate probabilities and ultimately arriving at the same conclusion.
Pascal authored the renowned “Treatise on Arithmetical Triangle” in 1665, where he thoroughly studied the characteristics of “Pascal’s triangle” and explored its application in counting combinations without relying on algebraic formulas.
Inspired by Pascal’s early works, the developers of Pascal Machine AI have successfully created their own project that is currently operational in today’s world.
Why hasn’t something like this been created earlier?
Pascal manually performed his calculations on the triangle during long evenings. With modern computers, you can complete 10 to 12 operations per second. It is only with such immense computing power that the algorithms developed by Pascal three centuries ago can start functioning and provide tangible outcomes for intricate processes.
The application of Pascal’s developments in the market
The stock market is a complex system where numerous factors contribute to the final outcome. These factors include the goals of large investors and capital holders, local economic events across different countries, political events, weather events, and many other important factors. This provides an ideal opportunity to utilize forecasting algorithms. Pascal Machine AI leverages these algorithms to analyze hundreds of factors and process massive amounts of information. Based on these analyses, it generates forecasts and specific recommendations that are used for real trading transactions, resulting in actual returns.
Currently, Pascal Machine AI is actively trading in the stock markets, specifically focusing on stocks from high-growth startups in Canada, Australia, and other countries. Through buying and selling transactions, it generates significant passive income.
The application of Pascal’s developments in the market
The stock market is a complex system where numerous factors contribute to the final outcome. These factors include the goals of large investors and capital holders, local economic events across different countries, political events, weather events, and many other important factors. This provides an ideal opportunity to utilize forecasting algorithms. Pascal Machine AI leverages these algorithms to analyze hundreds of factors and process massive amounts of information. Based on these analyses, it generates forecasts and specific recommendations that are used for real trading transactions, resulting in actual returns.
Currently, Pascal Machine AI is actively trading in the stock markets, specifically focusing on stocks from high-growth startups in Canada, Australia, and other countries. Through buying and selling transactions, it generates significant passive income.
Earning Opportunities for Private Investors
Private investors now have the opportunity to earn money through Pascal Machine AI. This platform enables you to engage in profitable transactions with small amounts of capital.
Pascal Machine AI Prospects
Based on our assessment, the growing AI market is likely to result in the emergence of several competitors for the Pascal Machine AI project. This could potentially lead to a decrease in the average returns for investors, as these projects will operate in the same market. However, at present, we have not observed any similar projects that are operational, which positions Pascal Machine AI well for scaling and further development.
