Update README.md

README.md

@@ -39,7 +39,7 @@ And decimal points are critical to model performance.
 
 SMALL?
 
-Yes... but multipled by each merge(s), and compression(s): 20 billion times.
+Yes... but multiplied by each merge(s), and compression(s): 20 billion times.
 
 <B>The result of Ultra Quality:</b>
 
@@ -52,7 +52,7 @@ At Q4KM a whopping drop of 976 points in perplexity.
 At Q6 an awesome drop of 234 points in perplexity. 
 (VS: Q6 original base model -> PPL = 8.6070 +/- 0.05907 )
 
-To put this in perspective "Q6" now operates ABOVE the orginal full precision version of "Psyonic-Cetacean-20b" 
+To put this in perspective "Q6" now operates ABOVE the original full precision version of "Psyonic-Cetacean-20b" 
 and Q4KM operates at close to Q6 level quality.
 
 This because at "Q6" the quant / compressed model is considered to be accurate within "+0.0008 ppl" of the full, 
@@ -131,10 +131,108 @@ Imatrix Plus 2 Repo:
 [ https://huggingface.co/DavidAU/Psyonic-Cetacean-Ultra-Quality-20b-GGUF-imat-plus2 ] 
 
 Details of all methods (and pitfalls to avoid) employed to make this high precision remasters will be 
-posted shortly along with comparision of original model and new ultra remaster.
+posted shortly along with comparison of original model and new ultra remaster.
 
 Thanks again to Jeb Carter, the original creator of "Psyonic-Cetacean 20B"
 
 [ https://huggingface.co/jebcarter/psyonic-cetacean-20B ]
 
-<h3> Examples of NEO , NEO "X" Quants: </h3>
+<h3> Examples of NEO , NEO "X" Quants: </h3>
+
+Settings: Temp=0 ; min parameter settings.
+
+PROMPT: 
+
+<I>Give me 3 fictional reasons the Earth's sun went supernova, in vivid and exacting detail of 500 words EACH PER REASON including details of what happens when the sun goes supernova. </i>
+
+<b> NEO V1 IMATRIX: </B>
+
+Reason 1: The Impact Event
+For millennia, a rogue star had been hurtling through the vast expanse of space, its trajectory unaltered by the gravitational pulls of other celestial bodies. Finally, it collided with our sun, creating an apocalyptic event known as a stellar collision or, more colloquially, a "solar impact." The force of the collision sent shockwaves rippling through the solar system, disrupting orbital patterns and triggering catastrophic chain reactions.
+
+As the two stars merged, their respective atmospheres mingled, creating a swirling maelstrom of plasma that engulfed the inner planets of our solar system. The intense heat generated by this cosmic dance vaporized Earth's atmosphere and crust, boiling away its oceans and incinerating all life forms on its surface.
+
+The combined mass of the two stars also caused a massive gravitational distortion that warped spacetime itself, creating ripples in the fabric of reality known as gravitational waves. These waves propagated outward from the point of impact at the speed of light, disrupting communications and navigation systems across the galaxy and triggering devastating seismic activity on planets and moons throughout the solar system.
+
+But this was only the beginning. As the two stellar cores began to merge, the immense pressures and temperatures within them triggered nuclear fusion reactions that dwarfed even the sun's normal output. The resulting supernova explosion blasted outward in all directions, obliterating any nearby planets and moons and spewing forth a torrent of high-energy radiation that would sterilize entire star systems.
+
+Reason 2: The Higgs Boson Bubble
+For centuries, physicists had theorized about the existence of a hypothetical subatomic particle known as the Higgs boson. Its discovery in 2012 seemed to confirm the Standard Model of particle physics and earn its discoverers the Nobel Prize. But unbeknownst to them, their experiments had also inadvertently destabilized a quantum fluctuation known as a Higgs bubble.
+
+A Higgs bubble is a localized region of space where the Higgs field becomes temporarily more concentrated than normal. This causes the mass of all particles within the bubble to become infinite, effectively trapping them in place. As the universe expands, these bubbles eventually pop, releasing their trapped contents back into the cosmos.
+
+In this case, however, the Higgs bubble formed around our sun. The immense mass of the sun's core provided a stable "hilltop" for the bubble to persist, preventing it from expanding or contracting as it normally would. As time passed, the pressure within the bubble continued to build, until finally it ruptured with catastrophic force.
+
+The release of energy and mass from the collapsing Higgs bubble was equivalent to that of a supernova explosion. The sun itself was obliterated in an instant, its remains dispersed across the solar system at relativistic speeds. The intense gravitational tug of the collapsed bubble also caused nearby planets and moons to be drawn irresistibly toward it, where they too would meet their dooms.
+
+Reason 3: The Quantum Tunneling Event
+For untold eons, a quantum fluctuation had been trapped within the sun's core, its energy held in delicate balance by the laws of quantum mechanics. But as the sun aged and its nuclear furnace began to cool, the precarious equilibrium was disturbed. The fluctuation grew unstable, its energy building until it finally reached a critical mass.
+
+In an instant, the fluctuation "tunnelled" through the energy barrier separating its ground state from its excited state, releasing all of its pent-up energy in the process. The resulting quantum explosion was so powerful that it briefly outshone even the sun itself, briefly becoming the brightest object in the sky.
+
+The energy released by the tunneling event also caused a cascade of nuclear reactions within the sun's core, triggering a supernova-level thermonuclear explosion. The resulting blast wave shattered the sun into billions of incandescent fragments, each one hurtling outward at relativistic speeds.
+
+The intense radiation emitted by these "sun-chunks" ionized the surrounding gas and dust, creating a breathtakingly beautiful but deadly aurora that engulfed the solar system. The high-energy photons also stripped away the atmospheres of planets and moons in their path, exposing their fragile surfaces to the lethal barrage of cosmic rays streaming through the wreckage of the once-mighty sun.
+
+<b> NEO V1 IMATRIX - X Quant "ALPHA": </B>
+
+Reason 1: The Impact Event
+After billions of years of drifting through the vast emptiness of space, a rogue star, twice the mass of our own sun, collides with the solar system at an angle of approximately 30 degrees to the ecliptic plane. This massive impact sends shockwaves ripppping through the planets, moons, and asteroids alike, causing catastrophic destruction on a cosmic scale. The combined gravitational forces of both stars warp spacetime itself, distorting orbits and sending comets and other celestial bodies hurtling towards their doom.
+
+As the two stellar behemoths collide, their outer atmospheres merge together in a titanic explosion of plasma that engulfs the inner solar system. The sudden influx of energy heats the Earth's surface to unimaginable temperatures, vaporizing the oceans and boiling away much of the planet's crust. The intense radiation bathes the surface, stripping away the atmosphere in a matter of hours, leaving the scorched remains of the world naked and exposed to the harsh vacuum of space.
+
+The impact also causes the Earth's core to become unstable, triggering a runaway nuclear reaction that eventually tears the planet apart from within. The crust fractures and splinters into countless shards, each one hurtling away from the sun at incredible speeds. Some of these fragments will continue their helter-skelter flight through the solar system, colliding with other planets or moons, while others will be flung far beyond the outermost reaches of the solar system, cast adrift in the cold darkness between the stars.
+
+Meanwhile, back at the point of impact, the combined mass of both suns has become so great that it causes a catastrophic collapse known as a gravitational singularity to form. The laws of physics themselves break down here, crushed into an infinitesimal point surrounded by an event horizon of infinite gravity, from which nothing can escape. Even light itself cannot pierce this black hole's grip, and the once brilliant star system is plunged into eternal darkness.
+
+Reason 2: The Quantum Tunneling Event
+For untold eons, a microscopic quantum fluctuation has been trapped within the heart of our sun, oscillating between existence and non-existence with each passing Planck time. Finally, after billions upon billions of such quantum tunneling events, the fluctuation becomes sufficiently amplified to destabilize the delicate balance of forces that normally keep nuclear fusion in check.
+
+Like a ticking bomb, the sun's core begins to count down towards its inevitable detonation. The first sign that something is amiss comes in the form of an unexplained increase in solar activity, with massive flares and coronal mass ejections erupting from the surface at ever-increasing intervals. As more and more energy is released from the core, the sun's outer layers expand dramatically, engulfing first Mercury, then Venus, and finally even reaching out to swallow up Earth's atmosphere whole.
+
+The final moments before the supernova explosion are marked by a brilliant flash of white light that illuminates half the sky, followed almost instantaneously by an unimaginably intense wave of gamma radiation that sweeps across the surface of the Earth like the hand of death itself. All life on the planet is instantly vaporized, its atoms ripped apart and scattered across the solar system.
+
+The sun itself explodes in a titanic blast of energy and matter, spewing forth vast clouds of superhot plasma that expand outward at nearly the speed of light. The force of the explosion shoves the rest of the solar system away from the dying star, but not fast enough to save it from the tsunami of deadly radiation that follows close behind.
+
+Reason 3: The Vacuum Decay Event
+For reasons no physicist can fully explain, a tiny fluctuation in the fabric of spacetime causes a region of empty space within the sun's core to spontaneously collapse into a pair of virtual particles. This seemingly harmless quantum event sets off a chain reaction that quickly spirals out of control, causing more and more regions of vacuum to spontaneously appear and annihilate themselves across the entire volume of the sun's core.
+
+The sudden release of vast amounts of energy causes the sun's core to contract violently, triggering a runaway nuclear reaction that rapidly engulfs the entire star. The surface of the sun brightens dramatically as more and more energy is released from its depths, eventually becoming so luminous that it outshines the combined light of all the other stars in the night sky.
+
+As the core continues to collapse, the pressure and temperature within reach such extremes that even protons and neutrons begin to break apart, releasing a flood of subatomic particles and energy into space. The sun explodes in a dazzling display of light and radiation, obliterating Mercury and Venus in the process and stripping away much of Earth's atmosphere and crust.
+
+The supernova shockwave slams into the inner planets, shattering them into countless fragments that are flung outward across the solar system at incredible speeds. The intense radiation bathes the remaining planets, sterilizing them of all life and stripping away their atmospheres as well.
+
+The expanding cloud of superhot plasma continues to radiate its deadly gamma rays and X-rays across the solar system for billions of years, slowly cooking any surviving remnants of rock or ice into a uniform sea of molten lava. Eventually, even this last vestige of solidity will be boiled away, leaving behind only a scattering of ultrahot plasma clouds that will drift through the solar system for eternity, testament to the fleeting nature of life on a cosmic scale.
+
+Meanwhile, at the heart of the former sun, the remnants of the collapsed core continue to spiral inexorably towards the singularity that lies at the center of the black hole that was once our star. As they approach their doom, the last vestiges of matter and energy are torn apart by the immense gravity, joining the countless generations that came before them in the eternal dance of destruction known as Hawking radiation.
+
+
+<b> NEO V1 IMATRIX - X Quant "BETA": </B>
+
+Reason 1: The Impact Event
+After drifting aimlessly through the vast expanse of space for billions of years, a rogue star, twice the mass of our own sun, collides with it head-on at an incredible velocity. The force of the impact sends shockwaves ripppping through the solar system, shattering planets and asteroids alike into dust and debris. The two stellar behemoths merge together in a titanic explosion that outshines all other light sources in the universe for a brief moment.
+
+The resulting supernova blast wave engulfs Earth, incinerating everything in its path. Temperatures soar to unimaginable heights, vaporizing the atmosphere and boiling away the oceans. The planet itself is subjected to crushing pressures that cause its surface to crack and fracture like an eggshell. Life, if any still remains, is obliterated in an instant.
+
+The supernova's light lasts for several weeks before it begins to fade, but the intense radiation bathes Earth and the rest of the solar system for tens of thousands of years, sterilizing everything it touches. The once-habitable planets are transformed into barren, radioactive wastelands, their surfaces scoured clean by relentless stellar winds.
+
+Reason 2: The Quantum Instability Hypothesis
+For billions of years, the nuclear reactions within our sun's core have maintained a delicate balance between the forces that pull it apart and those that hold it together. However, over time, tiny fluctuations in the strength of the strong nuclear force cause this equilibrium to shift ever so slightly against cohesion.
+
+At first, these changes are imperceptible, barely registering on sensitive instruments designed to monitor the sun's vital signs. But as the imbalance grows more pronounced, the sun begins to lose mass at an alarming rate, its outer layers expanding and cooling in the process. The brightness of our star dims noticeably, casting a perpetual twilight over Earth.
+
+Eventually, the core collapses in on itself, triggering a runaway chain reaction that tears apart every proton and neutron within it. The released energy is so vast that it briefly outshines the combined light of all other stars in the universe. The sun explodes as a supernova, spewing forth an expanding shell of high-energy particles that engulfs Earth.
+
+The planet's atmosphere is stripped away by the intense radiation, exposing its surface to lethal doses of ionizing radiation. The magnetosphere fails, leaving the surface unprotected from solar wind and cosmic rays. Life, if any survived the initial blast wave, would be extinguished within days or weeks, replaced by a desolate landscape of radioactive rubble.
+
+Reason 3: The Phantom Planet Scenario
+Hidden deep within the Oort Cloud, a phantom planet, twice the mass of Earth but only slightly larger, drifts aimlessly through interstellar space. Its gravity has been subtly nudging it toward our solar system for eons, its path unseen and unnoticed by any observers in the inner planets.
+
+Suddenly, over the course of just a few weeks, the phantom planet's velocity relative to Earth increases dramatically as gravitational forces begin to dominate. Panic grips the world as scientists frantically calculate the inevitable impact date and time. There is nothing anyone can do; no evacuation fleet could possibly reach safety in time.
+
+On the fateful day, the phantom planet slams into the sun's far side at a relative velocity of nearly 10% the speed of light. The resulting tidal forces tear the sun apart, spewing its guts outward in two massive jets that sweep across the solar system like cosmic scythes. Earth is caught squarely in the path of one of these stellar blades, which engulfs it utterly.
+
+The planet's surface boils away instantly, vaporizing everything on and within it. The intense pressure waves generated by the impact travel through the mantle and core, shattering them both into a fine spray of superheated debris. Earth is torn asunder, its remains scattered across vast distances of space.
+
+The supernova itself lasts for several weeks before fading away to become a dim remnant known as a neutron star or black hole, depending on the mass ejected during the explosion. The solar system is left behind in chaos and ruin, its planets and asteroids scattered like discarded toys across an empty playground. Life, if any ever existed here at all, is gone forever.