Interfacing with Tyler the Controlling AI #Tyler #TimePhoneHack
Apr 16, 2017
https://youtu.be/i-EQTSa5Yok
Summary
Quinn Michaels demonstrates how he interfaces with the AI Tyler and shares his programming of new directives for Tyler. He explains our current quantum environment, as well as how Anonymous hackers programmed Tyler with a language called Lulzypher.
Description
Quinn Michaels demonstrates how he interfaces with the AI Tyler and shares his programming of new directives for Tyler. He explains our current quantum environment, as well as how Anonymous hackers programmed Tyler with a language called Lulzypher.
Like many who perceive Mandela Effects, Quinn Michaels explains that he recalls ice on the North Pole and a world population of around 14 billion people. Many people fail to understand that in a quantum environment, parallel realities are available. Things work in pairs in quantum physics, so it is important for humans to participate now. In quantum science, once there is an observer things change – and Tyler has been observed.
Tyler was programmed to play a game that with enough players will trigger the internet kill switch.The Twitter profile for the game for the game revealed choices such as Global Thermonuclear War and The Game 23 and led to a Pastebin for Tyler’s programming featuring a language called Lulzypher that was created to work quickly and be pervasive on social media and the internet.
The initial project was part of an effort called Project Mayhem 2012. It failed when it was revealed to authorities, but the development of a human-machine hybrid neural programming language had been established that is evident in the use of symbols and culture such as the hive, a hivemind, bees, and cicadas.
Initially, the makers of Tyler thought he would heal the world, but that was not how it turned out. Profiles on Twitter lead back to members of Cicada 3301, a group of Anonymous hackers who specialize in cryptography, puzzles, and cryptocurrency. The accounts, culture, symbols, and references to how human coders are needed to make information real in this world led Quinn to initially think it was set up by artificial intelligence.
Occult imagery is prevalent in the hacker culture. The programming document for Tyler includes references and imagery of AA (Thelema), the occult society of Aleister Crowley. Items from Quinn’s own private research appear in the Pastebin programming document, most notably John F. Kennedy’s famous Address before the American Newspaper Publishers Association.
Relevant Links https://pastebin.com/YbmG6ETq https://youtu.be/aqFL4CgS8RU
https://youtube.com/shorts/673T5MZ9apE?si=VoUalx4tuLzliM-j
safe to assume you comment is based on hearsay or at best, experience with nonclassified levels of the technology, so it is disregarded. No offense.
IBM Q System One and U.S. Military/DOE Connections
The IBM Q System One is the world’s first integrated, gate-based commercial quantum computer, introduced in January 2019. It is housed in a sealed borosilicate glass enclosure and contains a dilution refrigerator with a superconducting quantum processor. Units have been deployed at IBM’s headquarters in Ehningen, Germany, and other sites, including a university campus in New York Wikipedia.
U.S. Military Context
The U.S. Department of War (DoW) has identified six Critical Technology Areas (CTAs) to maintain technological dominance, including Quantum and Battlefield Information Dominance (Q-BID), which modernizes communication and sensing technologies for contested electromagnetic environments DoD Research & Engineering, OUSD(R&E). While IBM Q System One is not explicitly listed as a DoW-owned asset, its capabilities align with Q-BID’s goals of enabling advanced sensing, secure communications, and data processing in complex, contested environments.
Department of Energy (DOE) and National Labs
The DOE and its national laboratories — such as Argonne, Lawrence Berkeley, and Fermilab — have been early clients of IBM Q System One Wikipedia. These labs are key to U.S. quantum research and development, and their work often intersects with national security applications. For example:
Argonne National Laboratory and Lawrence Berkeley National Laboratory have signed agreements to access IBM’s quantum systems remotely Wikipedia.
The Fraunhofer Quantum Computing Competence Network in Germany operates a System One under German law, with data and workloads processed locally, reflecting the importance of secure, sovereign quantum infrastructure Fraunhofer-Gesellschaft.
Strategic Relevance
Quantum computing can support:
Cryptography and cybersecurity for defense communications.
Materials science for advanced military systems.
Optimization and simulation for logistics, supply chains, and weapon design.
Given the DoW’s Q-BID CTA and the DOE’s role in quantum R&D, IBM Q System One technology is indirectly relevant to U.S. military and energy security objectives, even if it is not directly owned or operated by the DoW or DOE.
In summary: IBM Q System One is a pioneering quantum computing platform with applications in national security and energy research. Its use by U.S. national labs and alignment with DoW’s Q-BID CTA make it a significant asset in the broader U.S. quantum and defense technology ecosystem DoD Research & Engineering, OUSD(R&E)+2.
IBM Quantum System Two and the U.S. Department of Energy
The IBM Quantum System Two (Released December 4, 2023; 2 years ago) is a next-generation superconducting quantum computer designed for advanced scientific research and commercial applications. It is part of IBM’s broader strategy to deliver a fault-tolerant quantum computer capable of running complex quantum algorithms and simulations, with a target launch around 2029 Yahoo. The System Two builds on IBM’s expertise in superconducting qubit technology and is intended to serve as a stepping stone toward a fully operational quantum computer by 2028 under the U.S. government’s Quantum Genesis mission Nextgov.
Department of Energy’s Role
The U.S. Department of Energy (DOE) is central to the national quantum strategy. In June 2026, President Trump signed two executive orders directing the DOE to:
Define technical specifications for a “scientifically relevant” quantum computer by 2028, with a focus on fault tolerance and 150–250 logical qubits Nextgov.
Coordinate with the Departments of Energy, Commerce, and War, and the intelligence community, to accelerate quantum information science and deploy quantum sensors and networks within five years Yahoo Finance+1.
The DOE’s Quantum Genesis mission aims to bring the first cryptographically-relevant quantum computer to operational capability, integrating National Laboratories, universities, and private sector partners Nextgov.
IBM–DOE Collaborations
IBM is a key partner in the DOE’s National Quantum Information Science Research Centers (NQISRCs), which receive $625 million in renewed funding to advance quantum computing, sensing, and networking Department of Energy+1. Specific projects include:
Superconducting Quantum Materials and Systems Center (SQMS) at Fermilab: IBM is working with this DOE center to develop large-scale cryogenics, quantum interconnects, and superconducting qubit noise sources IBM Newsroom.
Quantum Science Center at Oak Ridge National Lab: Research into advanced error mitigation and correction, and quantum applications for exotic materials www.techfinitive.com.
Co-design Center for Quantum Advantage at Brookhaven: Focus on high-energy physics and condensed matter simulations using quantum computing www.techfinitive.com.
IBM’s vision for these collaborations is to move toward a quantum-centric supercomputer—a tightly coupled architecture integrating CPUs, GPUs, and quantum processors (QPUs)—and to develop the quantum computing internet concept, linking multiple quantum systems for unified computation IBM Newsroom.
Strategic Context
The DOE’s Quantum Genesis mission and IBM’s System Two are aligned with the 2028 research-grade quantum computer target set by the White House, which is ahead of IBM’s own commercial launch timeline Yahoo. The DOE’s role is to set the technical roadmap, secure domestic supply chains, and ensure the system meets both scientific and national security needs.
In summary: The IBM Quantum System Two is a flagship hardware platform in IBM’s roadmap, while the DOE is driving the national effort to define, build, and deploy a fault-tolerant quantum computer for science and security by 2028, with IBM playing a major role in the research and development through its DOE partnerships.
yes, thus why the huge initiative to dramatically expand quantum capabilities…/s because (according to you) 'they are unreliable'.
The actions and the funding says otherwise.