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Trade the Global Forex Markets with the most exiting Trading Robot IMTRADER

LC Consulting Team is at the forefront of innovative and emerging technologies that are revolutionizing and redefining the world of banking, asset management, and finance. From real-time market price vectorized algorithmic solutions that predict market price direction with uncanny accuracy to fintech innovative products that deliver new and better user experiences.

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The ISF Perpetual Bond

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The Opportunity

Shaping the Future

We live at a critical time in history. Today’s advancements in energy, gravity control, and sustainable technology shape the future of civilization. Our unified approach paves a direct engineering path toward these requirements to create a better tomorrow.

We believe that our community-based, open-source strategy will overcome traditional obstacles that have halted other technologies in the past. Bond proceeds will fund research, operations, and prototype development for industrial production. In parallel, forthcoming publications will continue to promote Haramein’s unified theory, inviting collaboration with the scientific community. Our headquarters in Geneva, Switzerland and laboratories in France offer a neutral and resourceful environment for operational sustainability.

The ISF Perpetual Bond is not just an investment vehicle – it’s an investment in the future, alongside a community that shares a transformative vision for the planet.

The Origin of Mass and the Nature of Gravity

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From the early explorations of thermodynamics and characterization of black body radiation, Max Planck predicted the existence of a non-zero expectation value for the electromagnetic quantum vacuum energy density or zero-point energy (ZPE). From the mechanics of a quantum oscillator, Planck derived the black body spectrum, which satisfied the Stefan-Boltzmann law with a non-vanishing term remaining where the summation of all modes of oscillations diverged to infinity in each point of the field. In modern derivation, correlation functions are utilized to derive the coherent behavior of the creation and annihilation operators. Although a common approach is to normalize the Hamiltonian so that all ground state modes cancel out, setting artificially ZPE to zero, zero-point energy is essential for the mathematical consistency of quantum mechanics as it maintains the non-commutativity of the creation and annihilation operators resulting in the Heisenberg uncertainty principle. From our computation, we demonstrate that coherent modes of the correlation functions at the characteristic time of the proton correctly result in the emergence of its mass directly from quantum vacuum fluctuation modes. We find as well that this energy value is consistent with a Casimir cavity of the same characteristic distance. As a result, we developed an analytical solution describing both the structure of quantum spacetime as vacuum fluctuations and extrapolate this structure to the surface dynamics of the proton to define a screening mechanism of the electromagnetic fluctuations at a given scale. From an initial screening at the reduced Compton wavelength of the proton, we find a direct relation to Einstein field equations and the Schwarzschild solution describing a source term for the internal energy of the proton emerging from zero-point electromagnetic fluctuations. A second screening of the vacuum fluctuations is found at the proton charge radius, which accurately results in the rest mass. Considering the initial screening, we compute the Hawking radiation value of the core Schwarzschild structure and find it to be equivalent to the rest mass energy diffusing in the internal structure of the proton. The resulting pressure gradient or pressure forces are calculated and found to be a very good fit to all the measured values of the color force and residual strong force typically associated to quark-antiquark and gluon flux tubes confinement. As a result, we are able to unify all confining forces with the gravitational force emerging from the curvature of spacetime induced by quantum electromagnetic vacuum fluctuations. Finally, we applied the quantum vacuum energy density screening mechanism to the observable universe and compute the correct critical energy density typically given for the total mass-energy of the universe.

DALL·E API Now Available in Public Beta

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Starting today, developers can begin building apps with the DALL·E API.

Developers can now integrate DALL·E directly into their apps and products through our API. More than 3 million people are already using DALL·E to extend their creativity and speed up their workflows, generating over 4 million images a day. Developers can start building with this same technology in a matter of minutes.

State-of-the-art image generation

DALL·E’s flexibility allows users to create and edit original images ranging from the artistic to the photorealistic. DALL·E excels at following natural language descriptions so users can plainly describe what they want to see. As our research evolves, we will continue to bring the state of the art into the API, including advances in image quality, latency, scalability, and usability.

Built-in moderation

Incorporating the trust & safety lessons we’ve learned while deploying DALL·E to 3 million artists and users worldwide, developers can ship with confidence knowing that built-in mitigations—like filters for hate symbols and gore—will handle the challenging aspects of moderation. As a part of OpenAI’s commitment to responsible deployment, we will continue to make trust & safety a top priority so that developers can focus on building.

GitHub Copilot uses the OpenAI Codex to suggest code and entire functions in real-time, right from your editor.


Trained on billions of lines of code, GitHub Copilot turns natural language prompts into coding suggestions across dozens of languages.

Spend less time creating boilerplate and repetitive code patterns, and more time on what matters: building great software. Write a comment describing the logic you want and GitHub Copilot will immediately suggest code to implement the solution.

GitHub Copilot shares recommendations based on the project’s context and style conventions. Quickly cycle through lines of code, complete function suggestions, and decide which to accept, reject, or edit.

GitHub Copilot integrates directly into your editor including Neovim, JetBrains IDEs, Visual Studio, and Visual Studio Code—and is fast enough to use as you type.

Scale invariant unification of forces, fields and particles in a Quantum Vacuum plasma


Take a look to this amazing document

Nassim Haramein; orcid Olivier Alirol  

From Bekenstein-Hawking, Susskind and ‘t Hooft development of the holographic principle, we consider a statistical entropy and thermodynamics approach of a surface-to-volume generalized holographic ratio defined in previous work. Applying this analysis, we chart a first order approximation of a scaling coefficient utilizing a face cube center crystalline structure representation of spacetime. The resulting scaling from the Planck scale to the universal scale finds a surprisingly periodic fit to organize matter in the universe. As a result, we can compute exact values defining the fundamental scaling factors of physical interactions. By applying them to radii and masses at the hadronic, electronic and Hubble Constant  scale we find results consistent with current measurements.

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What is Quantum Computing?


Quantum computing is a rapidly-emerging technology that harnesses the laws of quantum mechanics to solve problems too complex for classical computers.

Today, IBM Quantum makes real quantum hardware — a tool scientists only began to imagine three decades ago — available to thousands of developers. Our engineers deliver ever-more-powerful superconducting quantum processors at regular intervals, building toward the quantum computing speed and capacity necessary to change the world.

These machines are very different from the classical computers that have been around for more than half a century. Here’s a primer on this transformative technology.

Explore IBM Quantum systems

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