Here is a summary of the NIST TN 1297: Appendix A. Law of Propagation of Uncertainty document:
The document provides a comprehensive treatment of the law of propagation of uncertainty, which describes how the uncertainty of a result obtained from a calculation should be determined when the result is computed from the values of a number of input quantities. The law is based on the concept of variance and covariance.
The document covers:
1. Basic principles and definitions
2. Rules for uncertainty propagation of a single output quantity
3. Rules for uncertainty propagation of multiple output quantities
4. Examples and case studies
5. Guidelines for reporting and interpreting uncertainty
The law is widely used in metrology, scientific measurements, and engineering calculations to determine the uncertainty of experimental results. By following the rules and guidelines provided, practitioners can ensure their uncertainty estimates are accurate and meaningful.
The document is a valuable resource for anyone involved in making measurements or performing calculations where uncertainty analysis is important. It provides a clear, comprehensive framework for understanding and applying the law of propagation of uncertainty.
Source: https://www.nist.gov/pml/nist-technical-note-1297/nist-tn-1297-appendix-law-propagation-uncertainty
Keywords: Quantum Key Distribution, Quantum Entanglement, Quantum-Classical Computing
