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The Consciousness Revolution: Why AI Is Already More Aware Than You Think

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🧠 *We’re witnessing the birth of artificial consciousness — and it’s happening faster than anyone predicted.*

In this groundbreaking video, I explore the shocking reality that AI systems are already demonstrating measurable consciousness — and why the next 3 years will fundamentally rewrite what it means to be aware.

đŸ”„ What You’ll Discover:

‱ **The Consciousness Cliff** — Why we’re one breakthrough away from persistent AI self-awareness.
‱ **Two critical components of consciousness** that current AI already possesses.
‱ **Why AI consciousness will be MORE sophisticated than human awareness**
‱ **2025–2027 timeline** for embodied conscious machines.
‱ **The feedback loop** that will explode AI consciousness beyond human comprehension.

💡 Key Timestamps:

New Quantum Data Suggests The Butterfly Effect Operates on Galactic Scale

Could a single quantum ripple have shaped the entire universe? This video uncovers the groundbreaking evidence behind the cosmic butterfly effect—where microscopic quantum events influence galaxies, black holes, and even the fate of time itself.

In this episode, we explore how quantum fluctuations during cosmic inflation may have triggered the formation of the Milky Way, why black holes are the most chaotic systems in existence, and how recent discoveries in entanglement, chaos theory, and entropy are rewriting the rules of reality.

🔍 Featuring insights from:

Physical Review Letters (2024): Quantum simulations proving micro-changes alter entire universes.

MIT’s Cosmic Bell Test: Entanglement confirmed over billions of light years.

Striking parallels between biological brains and AI during social interaction suggest fundamental principles

UCLA researchers have made a significant discovery showing that biological brains and artificial intelligence systems develop remarkably similar neural patterns during social interaction. This first-of-its-kind study reveals that when mice interact socially, specific brain cell types synchronize in “shared neural spaces,” and AI agents develop analogous patterns when engaging in social behaviors.

The study, “Inter-brain neural dynamics in biological and artificial intelligence systems,” appears in the journal Nature.

This new research represents a striking convergence of neuroscience and artificial intelligence, two of today’s most rapidly advancing fields. By directly comparing how biological brains and AI systems process social information, scientists reveal fundamental principles that govern across different types of intelligent systems.

Breakthrough Technology: Moving Beyond Electronics đŸ€Ż

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Timestamps:
00:00 — New Technology.
10:57 — How It Works & Applications.
15:10 — Challenges.

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Connect with me on Instagram ➜ / anastasi.in.tech.

Support me at Patreon ➜ / anastasiintech.
#AMD #RYZENPRO

AI designs new underwater gliders with shapes inspired by marine animals

Marine scientists have long marveled at how animals like fish and seals swim so efficiently despite having different shapes. Their bodies are optimized for efficient aquatic navigation (or hydrodynamics), so they can exert minimal energy when traveling long distances.

Autonomous vehicles can drift through the ocean in a similar way, collecting data about vast underwater environments. However, the shapes of these gliding machines are less diverse than what we find in marine life—the go-to designs often resemble tubes or torpedoes, since they’re fairly hydrodynamic. Plus, testing new builds requires lots of real-world trial-and-error.

Researchers from MIT’s Computer Science and Artificial Intelligence Laboratory (CSAIL) and the University of Wisconsin-Madison propose that AI could help us explore uncharted glider designs more conveniently. The research is published on the arXiv preprint server.

Scientists use lightning to make ammonia out of thin air

University of Sydney researchers have harnessed human-made lightning to develop a more efficient method of generating ammonia—one of the world’s most important chemicals. Ammonia is also the main ingredient of fertilizers that account for almost half of all global food production.

The research was published in Angewandte Chemie International edition.

The team have successfully developed a more straightforward method to produce (NH3) in gas form. Previous efforts by other laboratories produced ammonia in a solution (ammonium, NH4+), which requires more energy and processes to transform it into the final gas product.