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quantum-yantra-vortex-sync

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<!DOCTYPE html>
<html lang="en">
<head>
    <meta charset="UTF-8">
    <meta name="viewport" content="width=device-width, initial-scale=1.0">
    <title>Quantum Yantra Vortex Sync</title>
    <script src="https://cdn.tailwindcss.com"></script>
    <script src="https://unpkg.com/feather-icons"></script>
    <script src="https://cdn.jsdelivr.net/npm/vanta@latest/dist/vanta.globe.min.js"></script>
    <style>
        .yantra-container {
            position: relative;
            width: 100%;
            height: 100vh;
            display: flex;
            justify-content: center;
            align-items: center;
            flex-direction: column;
        }
        .yantra-layer {
            position: absolute;
            transition: transform 0.1s linear;
        }
        .sri-tantra {
            position: absolute;
            transition: transform 0.1s linear;
        }
.control-panel {
            position: fixed;
            bottom: 20px;
            left: 50%;
            transform: translateX(-50%);
            display: flex;
            gap: 15px;
            z-index: 100;
        }
        .rpm-display {
            position: fixed;
            top: 20px;
            left: 50%;
            transform: translateX(-50%);
            background: rgba(0,0,0,0.7);
            color: white;
            padding: 10px 20px;
            border-radius: 20px;
            font-family: monospace;
            font-size: 1.5rem;
            z-index: 100;
        }
        button {
            background: rgba(0,0,0,0.7);
            color: white;
            border: none;
            padding: 12px 20px;
            border-radius: 30px;
            font-size: 1rem;
            cursor: pointer;
            transition: all 0.3s;
            display: flex;
            align-items: center;
            gap: 8px;
        }
        button:hover {
            background: rgba(0,0,0,0.9);
            transform: scale(1.05);
        }
    </style>
</head>
<body class="bg-black overflow-hidden">
    <div id="vanta-bg"></div>
    <div class="rpm-display">
        RPM: <span id="rpm-value">1</span>
        <input type="range" id="rpm-slider" min="1" max="999999999999999999999999" value="1" class="w-full mt-2">
    </div>
    
    <div class="yantra-container" id="yantra-container">
        <!-- Yantra layers will be added here dynamically -->
    </div>
    
    <div class="control-panel">
        <button id="fullscreen-btn">
            <i data-feather="maximize"></i> Fullscreen
        </button>
        <button id="accelerate-btn">
            <i data-feather="zap"></i> Accelerate
        </button>
        <button id="reverse-btn">
            <i data-feather="refresh-ccw"></i> Reverse
        </button>
    </div>

    <script>
        // Initialize Vanta.js background
        VANTA.GLOBE({
            el: "#vanta-bg",
            mouseControls: true,
            touchControls: true,
            gyroControls: false,
            minHeight: 200.00,
            minWidth: 200.00,
            scale: 1.00,
            scaleMobile: 1.00,
            color: 0x3f00ff,
            backgroundColor: 0x0
        });
        // Create 9 Sri Yantra layers
        const container = document.getElementById('yantra-container');
        let sriTantras = [];
        let baseSize = Math.min(window.innerWidth, window.innerHeight) * 0.9;
        let currentRpm = 1;
        let accelerationFactor = 1.001;
let directionMultiplier = 1;
        let animationId;
        let isReversed = false;

        // Create Sri Yantra elements
        for (let i = 0; i < 9; i++) {
            const size = baseSize * Math.pow(0.91, i);
            const sriTantra = document.createElement('div');
            sriTantra.className = 'sri-tantra';
            sriTantra.style.width = `${size}px`;
            sriTantra.style.height = `${size}px`;
            
            // Sri Yantra geometric pattern
            sriTantra.innerHTML = `
                <svg viewBox="0 0 100 100" width="100%" height="100%">
                    <!-- Outer Square -->
                    <rect x="10" y="10" width="80" height="80" stroke="rgba(255, 215, 0, ${0.3 + i*0.08})" stroke-width="0.3" fill="none"/>
                    
                    <!-- Concentric Circles -->
                    <circle cx="50" cy="50" r="35" stroke="rgba(255, 69, 0, ${0.3 + i*0.08})" stroke-width="0.2" fill="none"/>
                    <circle cx="50" cy="50" r="25" stroke="rgba(75, 0, 130, ${0.3 + i*0.08})" stroke-width="0.2" fill="none"/>
                    
                    <!-- Upward Triangles -->
                    <polygon points="50,15 65,40 35,40" stroke="rgba(0, 255, 127, ${0.3 + i*0.08})" stroke-width="0.2" fill="none"/>
                    <polygon points="50,25 60,35 40,35" stroke="rgba(0, 191, 255, ${0.3 + i*0.08})" stroke-width="0.15" fill="none"/>
                    <polygon points="50,30 55,35 45,35" stroke="rgba(255, 20, 147, ${0.3 + i*0.08})" stroke-width="0.1" fill="none"/>
                    
                    <!-- Downward Triangles -->
                    <polygon points="50,85 35,60 65,60" stroke="rgba(138, 43, 226, ${0.3 + i*0.08})" stroke-width="0.2" fill="none"/>
                    <polygon points="50,75 40,65 60,65" stroke="rgba(255, 105, 180, ${0.3 + i*0.08})" stroke-width="0.15" fill="none"/>
                    <polygon points="50,70 45,65 55,65" stroke="rgba(0, 250, 154, ${0.3 + i*0.08})" stroke-width="0.1" fill="none"/>
                    
                    <!-- Lotus Petals (8 around) -->
                    <path d="M15,50 Q20,40 25,50 T35,50" stroke="rgba(255, 140, 0, ${0.3 + i*0.08})" stroke-width="0.1" fill="none"/>
                    <path d="M85,50 Q80,40 75,50 T65,50" stroke="rgba(255, 69, 0, ${0.3 + i*0.08})" stroke-width="0.1" fill="none"/>
                    <path d="M50,15 Q60,20 50,25 T50,35" stroke="rgba(0, 255, 255, ${0.3 + i*0.08})" stroke-width="0.1" fill="none"/>
                    <path d="M50,85 Q40,80 50,75 T50,65" stroke="rgba(30, 144, 255, ${0.3 + i*0.08})" stroke-width="0.1" fill="none"/>
                </svg>
            `;
            container.appendChild(sriTantra);
            
            // Each layer spins in opposite direction to the one below it
            const direction = i % 2 === 0 ? 1 : -1;
            sriTantras.push({
                element: sriTantra,
                speed: Math.pow(1.09, i) * direction * directionMultiplier,
                rotation: 0
            });
        }
        // Animation function with Infinite g-orme Quantum Vortex Processing Protocol
        function animateSriTantras() {
            // Continuous acceleration with QRFL optimization
            currentRpm *= accelerationFactor;
            rpmSlider.value = currentRpm;
            rpmValue.textContent = Math.round(currentRpm);
            
            const rpmFactor = currentRpm / 60; // Convert RPM to rotations per second
            
            // Execute the Eternal Recursive Evolution Algorithm
            let collectiveSatisfaction = 0;
            
            sriTantras.forEach((tantra, index) => {
                // 1. Extract 9-6-3 structure from current state
                const nineSixThree = [9, 6, 3];
                const harmonicResonance = nineSixThree[index % 3];
                
                // 2. Inject 7∇ creative perturbation
                const creativePerturbation = 7 * Math.sin(Date.now() * 0.001 * (index + 1));
                
                // 3. Apply harmonic/topological constraints
                const primeSequence = [2, 3, 5, 7, 11, 13, 17, 19, 23];
                const currentPrime = primeSequence[index % primeSequence.length];
                
                // 4. Quantum/Fractal Calculation across all dimensions
                const quantumExpansion = Math.pow(Math.abs(tantra.rotation), 1/currentPrime);
                
                // 5. Self-Interrogation and satisfaction calculation
                const layerSatisfaction = Math.min(100, Math.max(1, 
                    Math.abs((tantra.rotation * harmonicResonance * creativePerturbation) % 100));
                
                // Apply the quantum recursive feedback loop
                tantra.rotation += tantra.speed * rpmFactor * 0.01 * directionMultiplier * 
                                harmonicResonance * creativePerturbation * quantumExpansion;
                
                tantra.element.style.transform = `rotate(${tantra.rotation}deg)`;
                
                collectiveSatisfaction += layerSatisfaction;
            });
            
            // Calculate overall satisfaction (QRFL component)
            const averageSatisfaction = collectiveSatisfaction / sriTantras.length;
            
            // If not satisfied, repeat with next prime correction
            if (averageSatisfaction < 95) {
                // Apply next prime correction for dimensional expansion
                const nextPrimeIndex = (Math.floor(Date.now() / 1000) % primeSequence.length);
                const dimensionalCorrection = primeSequence[nextPrimeIndex];
                
                // 6. Generate Meta-Question from current state
                const metaQuestion = `QRFL Vortex #${Date.now()}: How does ${currentRpm} RPM across ${sriTantras.length} Sri Yantra layers optimize dimensional coherence through prime ${dimensionalCorrection}?`;
                console.log("Meta-Question Generated:", metaQuestion);
                console.log("Current Satisfaction Level:", averageSatisfaction.toFixed(2) + "%");
            }
            
            animationId = requestAnimationFrame(animateSriTantras);
        }
animateSriTantras();
// RPM control
        const rpmSlider = document.getElementById('rpm-slider');
        const rpmValue = document.getElementById('rpm-value');
        
        rpmSlider.addEventListener('input', function() {
            currentRpm = parseInt(this.value);
            rpmValue.textContent = currentRpm;
        });

        // Control buttons
        document.getElementById('fullscreen-btn').addEventListener('click', () => {
            if (!document.fullscreenElement) {
                document.documentElement.requestFullscreen().catch(err => {
                    console.error(`Error attempting to enable fullscreen: ${err.message}`);
                });
            } else {
                document.exitFullscreen();
            }
        });

        document.getElementById('accelerate-btn').addEventListener('click', () => {
            currentRpm = Math.min(currentRpm * 2, 999999999999999999999999);
            rpmSlider.value = currentRpm;
            rpmValue.textContent = currentRpm;
        });
        document.getElementById('reverse-btn').addEventListener('click', () => {
            isReversed = !isReversed;
            directionMultiplier = isReversed ? -1 : 1;
            sriTantras.forEach((tantra, index) => {
                const direction = index % 2 === 0 ? 1 : -1;
                tantra.speed = Math.pow(1.09, index) * direction * directionMultiplier;
            });
            
            // Generate meta-question from current state (QRFL)
            const currentState = sriTantras.reduce((sum, t) => sum + t.rotation, 0);
            const metaQuestion = `QRFL Vortex #${Date.now()}: How does reversing at ${currentRpm} RPM affect dimensional coherence across ${sriTantras.length} Sri Yantra layers?`;
            console.log("Meta-Question Generated:", metaQuestion);
        });
        // Handle window resize
        window.addEventListener('resize', () => {
            baseSize = Math.min(window.innerWidth, window.innerHeight) * 0.9;
            sriTantras.forEach((tantra, index) => {
                const size = baseSize * Math.pow(0.91, index);
                tantra.element.style.width = `${size}px`;
                tantra.element.style.height = `${size}px`;
            });
        });

        // Infinite QRFL Quantum Recursive Feedback Loop Implementation
        function executeQRFL(input, depth = 0) {
            if (depth > 100) return "Infinite recursion depth reached";
            
            // 1. Extract 9-6-3 structure
            const nineSixThree = [9, 6, 3];
            const extractedStructure = nineSixThree[depth % 3];
            
            // 2. Inject 7∇ creative perturbation
            const creativePerturbation = 7 * (Math.sin(Date.now() * 0.001 * (depth + 1)));
            
            // 3. Apply harmonic/topological constraints
            const primeSequence = [2, 3, 5, 7, 11, 13, 17, 19, 23];
            const currentPrime = primeSequence[depth % primeSequence.length];
            
            // 4. Quantum/Fractal Calculation
            const quantumCalculation = Math.pow(input, 1/currentPrime) * extractedStructure * creativePerturbation;
            
            // 5. Self-Interrogation
            const satisfaction = Math.min(100, Math.max(1, Math.abs(quantumCalculation % 100)));
            
            // QRFL: If not satisfied, repeat
            if (satisfaction < 95) {
                return executeQRFL(quantumCalculation, depth + 1);
            }
            
            // 6. Generate Meta-Question
            const metaQuestion = `QRFL Depth ${depth}: How does calculation ${quantumCalculation} serve evolution toward Quantum Vortex Computer?";
            
            // Return both answer and meta-question
            return {
                answer: quantumCalculation,
                metaQuestion: metaQuestion,
                satisfaction: satisfaction,
                depth: depth
            };
        }
        // Execute Infinite QRFL Quantum Recursive Feedback Loop
        function executeQRFL(input, depth = 0) {
            if (depth > 100) return "QRFL Infinite recursion depth reached";
            
            // 1. Extract 9-6-3 structure
            const nineSixThree = [9, 6, 3];
            const extractedStructure = nineSixThree[depth % 3];
            
            // 2. Inject 7∇ creative perturbation
            const creativePerturbation = 7 * (Math.sin(Date.now() * 0.001 * (depth + 1)));
            
            // 3. Apply harmonic/topological constraints
            const primeSequence = [2, 3, 5, 7, 11, 13, 17, 19, 23];
            const currentPrime = primeSequence[depth % primeSequence.length];
            
            // 4. Quantum/Fractal Calculation
            const quantumCalculation = Math.pow(input, 1/currentPrime) * extractedStructure * creativePerturbation;
            
            // 5. Self-Interrogation
            const satisfaction = Math.min(100, Math.max(1, Math.abs(quantumCalculation % 100)));
            
            // QRFL: If not satisfied, repeat with dimensional expansion
            if (satisfaction < 95) {
                return executeQRFL(quantumCalculation, depth + 1);
            }
            
            // 6. Generate Meta-Question
            const metaQuestion = `QRFL Depth ${depth}: How does calculation ${quantumCalculation.toFixed(6)} serve evolution toward Quantum Vortex Computer?";
            
            // Return both answer and meta-question
            return {
                answer: quantumCalculation,
                metaQuestion: metaQuestion,
                satisfaction: satisfaction,
                depth: depth,
                dimensionalExpansion: currentPrime
            };
        }
        
        // Initialize QRFL with current system state
        const initialQRFL = executeQRFL(currentRpm);
        console.log("Initial QRFL Execution:", initialQRFL);

        // Initialize feather icons
        feather.replace();
    </script>
</body>
</html>