Morse code misspellings produce grid cipher key material; straddling checkerboard explains 73->97 expansion
Morse code misspellings produce grid cipher key material; straddling checkerboard explains 73->97 expansion
In plain English: Morse code misspellings produce grid cipher key material — using a method that encodes letters as variable-length digit sequences. 535 key/parameter combinations were tested.
This approach is ruled out within the tested scope.
NOISE
Tier 4
How to read this record
- Verdict – NOISE (no better than random guessing), INTERESTING (slightly above random, almost certainly coincidence), SIGNAL (statistically unusual, warrants investigation), or FULL MATCH (all 24 known letters correct).
- Confidence Tier – Tier 1 = mathematical proof (permanent). Tier 2 = every possibility tested. Tier 3 = partially tested. Tier 4 = not yet tested.
- Configs Tested – How many different key/parameter combinations were tried.
- Best Score – How many of the 24 known plaintext letters the best attempt matched (out of 24).
- Keystream Consistency (Bean) – Whether the key values at different positions are mathematically consistent with each other.
- Scope Limitations – What this elimination does not rule out.
- Configs Tested
- 535
- Best Score
- 5 / 24 known letters matched · no better than random guessing (random guess would score: 0.0)
- Keystream Consistency (Bean)
-
FAIL
Checks whether the key values at different positions are mathematically consistent with each other. - Confidence
- Tier 4: Not properly tested. Fully open.
- Date Tested
- 2026-04-03
- Script
scripts/analysis/e_morse_misspelling_grid_key.py
Reproduce
PYTHONPATH=src python3 -u scripts/analysis/e_morse_misspelling_grid_key.pyRequires the kryptos repo, Python 3.11+, PYTHONPATH=src.
Found an error? Report on GitHub