As the table illustrates, APQQ sacrifices absolute determinism (which is often unnecessary for high-volume data) for speed and predictive accuracy.
stands for:
Use APQQ when you feel the urge to “just do something” — it will save you from solving the wrong problem beautifully. As the table illustrates
Furthermore, quantum computing research labs have taken an interest in APQQ. Because quantum bits operate on probabilities (superposition) rather than binaries, the probabilistic query logic of APQQ is a perfect match for quantum job schedulers. Early experiments suggest that a quantum-native APQQ could be 1,000x faster than current silicon-based versions. 000x faster than current silicon-based versions.
As the table illustrates, APQQ sacrifices absolute determinism (which is often unnecessary for high-volume data) for speed and predictive accuracy.
stands for:
Use APQQ when you feel the urge to “just do something” — it will save you from solving the wrong problem beautifully.
Furthermore, quantum computing research labs have taken an interest in APQQ. Because quantum bits operate on probabilities (superposition) rather than binaries, the probabilistic query logic of APQQ is a perfect match for quantum job schedulers. Early experiments suggest that a quantum-native APQQ could be 1,000x faster than current silicon-based versions.