Level 0 Stable — No directional conflict |
Level 1 System is unstable — Flip exists in last 3 |
Level 2 Strong transition — Immediate flip |
Level 3 Maximum instability — Zig-zag (± ∓ ±)
Current Time: …
Most common (Top 3) values BEFORE Next ≥ 2.00x
Top N:
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Next ≥2x Logic: Loading…
⭐ Balanced Mode — Why this is the Sweet Spot
Recommended Default • Best balance of accuracy, frequency, and stability
Balanced Mode is the optimal operating point where signal quality, signal frequency, and risk control intersect.
It avoids the two extremes: “too rare to trust” (Max Precision) and “too noisy to rely on” (High Coverage).
Mode
Coverage
Precision (Next > 2.00x)
Best Use
Max Precision
~2%
~80%
Rare, high-confidence alerts
Balanced ⭐
~7%
~65–68%
Default production monitoring
High Coverage
~16%
~56–58%
Exploration / secondary filters
Why Balanced wins in real conditions
Enough signals to be useful (not “once in a while”).
Strong edge per signal without excessive false positives.
Stable across hours & regimes because it requires alignment across multiple indicators.
Built-in noise rejection: no single metric can trigger it alone.
Bottom line: Balanced Mode maximizes long‑term confidence — it’s where insight becomes a system.
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Trend 1 Crash ÷ Elapsed
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Trend 2 Elapsed ÷ Crash
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Trend (DB Latest)
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Elapsed Gap
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Leaderboard Gap
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Net Diff-to-Next ABS(T) - ABS(T-1)
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Gap to Next LB ID T - (T-1)
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Gap to Real Next LB RealNext - Current
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Total Gap (ALL)
abs(LB gap)+abs(real gap)+abs(net diff)