Road map grid resets at the shoe boundaries. Clear all accumulated entry data from the active shoe cycle, returning every grid within the road map panel to its empty pre-deal state before the first hand of the incoming shoe contributes its result to any display element. The reset applies simultaneously across all four grids within the road map panel rather than clearing each grid independently as the shoe transition progresses. เว็บบาคาร่า road map resets occur at the shoe retirement event rather than at the cut card trigger, meaning the grids hold their final shoe cycle entries through the last round of the retiring shoe before clearing at the boundary transition. This timing preserves the complete shoe record through the final settlement event before the reset removes it, ensuring no entry from the concluding shoe persists into the incoming shoe’s accumulation cycle.
Bead plate reset behaviour
The bead plate clears all sequential entries from the active shoe cycle at the boundary event, returning to its fully empty grid state with no residual colour markers or secondary indicators remaining from any prior round. The first entry of the incoming shoe populates the bead plate’s initial grid position immediately after the first round of the new cycle settles, initiating a fresh accumulation sequence from the same starting coordinates used at the opening of every shoe cycle, regardless of how many entries the prior shoe produced. The bead plate reset does not affect the session history panel, which retains the outcome sequence from the retiring shoe as a historical record accessible throughout the remainder of the session.
Big road reset behaviour
The big road clears all column entries at the shoe boundary, removing the full streak and chop record accumulated across the retiring shoe’s round sequence. Column positions, entry depths, and directional markers all clear simultaneously, returning the big road to its initial empty state with no column structure carried forward from the prior cycle. The big road reset initiates the derived road clearance sequence, since the big eye road, small road, and cockroach road all derive their entries from the big road column data. Without big road entries to compare, the derived roads cannot generate new symbols, making their cleared state at the shoe boundary a natural consequence of the big road reset rather than a separately managed clearance event.
Derived road reset behaviour
All three derived road grids clear simultaneously with the bead plate and big road at the shoe boundary, rather than clearing after a delay dependent on new big road data accumulating. The derived road grids remain empty through the opening rounds of the new shoe cycle until sufficient big road column history exists to support the column depth comparisons each derived road requires for entry generation. This entry delay at the shoe opening is structurally identical to the delay present at the opening of every shoe cycle, with the first derived road entries appearing only after the comparison baseline is established within the new big road record.
Road map grid resets at the shoe boundaries. Clear all four grids simultaneously at the shoe retirement event, preserving the complete prior shoe record through its final settlement before removing all entries to initiate a clean accumulation cycle for the incoming shoe.
