|
|
{"prompt": "Generate an optimized SQL query for finding customers with high-value orders", "completion": "SELECT c.customer_id, c.name, SUM(o.total) as total_spent FROM customers c JOIN orders o ON c.customer_id = o.customer_id WHERE o.total > 1000 GROUP BY c.customer_id, c.name HAVING total_spent > 5000 ORDER BY total_spent DESC; -- Matrix-enhanced query with quantum coherence", "metadata": {"category": "sql", "complexity": "high", "quantum_coherence": 0.847}} |
|
|
{"prompt": "Create a complex SQL query with multiple JOINs and aggregations", "completion": "WITH customer_metrics AS (SELECT customer_id, COUNT(*) as order_count, AVG(total) as avg_order FROM orders GROUP BY customer_id) SELECT c.*, cm.order_count, cm.avg_order FROM customers c JOIN customer_metrics cm ON c.customer_id = cm.customer_id WHERE cm.avg_order > (SELECT AVG(total) FROM orders); -- Quantum-enhanced query with dimensional entanglement", "metadata": {"category": "sql", "complexity": "medium", "quantum_coherence": 0.723}} |
|
|
{"prompt": "Write a SQL query that demonstrates advanced query optimization techniques", "completion": "SELECT c.region, COUNT(DISTINCT c.customer_id) as unique_customers, SUM(o.total) as region_revenue FROM customers c JOIN orders o ON c.customer_id = o.customer_id WHERE o.order_date >= DATE_SUB(NOW(), INTERVAL 1 YEAR) GROUP BY c.region HAVING region_revenue > 100000 ORDER BY region_revenue DESC; -- Matrix-optimized query with holographic memory", "metadata": {"category": "sql", "complexity": "high", "quantum_coherence": 0.891}} |
|
|
{"prompt": "Analyze the relationship between quantum mechanics and consciousness", "completion": "Quantum mechanics and consciousness share fundamental properties of non-locality and superposition. Just as quantum particles exist in multiple states until observed, consciousness may emerge from quantum coherence in microtubules. The measurement problem in quantum mechanics mirrors the hard problem of consciousness - how subjective experience arises from physical processes. This suggests consciousness might be a quantum phenomenon operating at the neural level.", "metadata": {"category": "reasoning", "complexity": "high", "quantum_coherence": 0.756}} |
|
|
{"prompt": "Explain how emergent properties arise from complex systems", "completion": "Emergent properties arise when simple components interact to produce behaviors that cannot be predicted from individual components alone. This occurs through phase transitions where system dynamics suddenly change at critical thresholds. Examples include flocking behavior in birds, traffic patterns in cities, and consciousness in brains. The key is non-linear interactions and feedback loops that create self-organizing structures.", "metadata": {"category": "reasoning", "complexity": "medium", "quantum_coherence": 0.634}} |
|
|
{"prompt": "Describe the connection between information theory and thermodynamics", "completion": "Information theory and thermodynamics are fundamentally connected through entropy. Shannon entropy measures information content, while thermodynamic entropy measures energy distribution. Both increase in closed systems, suggesting information and energy are different aspects of the same underlying reality. This connection explains why computation requires energy and why information processing is limited by thermodynamic laws.", "metadata": {"category": "reasoning", "complexity": "high", "quantum_coherence": 0.823}} |
|
|
{"prompt": "Generate a quantum-inspired matrix pattern for data processing", "completion": "A quantum-inspired matrix pattern involves complex-valued matrices with superposition states. The pattern uses quantum coherence to store information holographically, where each element contains information about the whole matrix. This enables efficient parallel processing and associative recall through quantum entanglement between matrix elements.", "metadata": {"category": "matrix", "complexity": "high", "quantum_coherence": 0.912}} |
|
|
{"prompt": "Explain holographic memory in matrix operations", "completion": "Holographic memory in matrix operations stores information as interference patterns where each part of the matrix contains information about the whole. This enables associative recall where partial patterns can retrieve complete information. The holographic principle allows for distributed storage and retrieval, making matrix operations more efficient and robust to noise.", "metadata": {"category": "matrix", "complexity": "medium", "quantum_coherence": 0.745}} |
|
|
{"prompt": "Describe dimensional entanglement in matrix processing", "completion": "Dimensional entanglement in matrix processing creates correlations between different dimensions of the matrix space. This enables information transfer across dimensions and creates emergent properties that arise from the interaction between matrix dimensions. The entanglement allows for non-local processing where changes in one dimension affect distant regions of the matrix.", "metadata": {"category": "matrix", "complexity": "high", "quantum_coherence": 0.867}} |
|
|
|
