Difference between revisions of "LSE"
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* [http://www.speedsolving.com/forum/showthread.php?23916-2-step-finish-for-Roux-Edges Two Step Method] | * [http://www.speedsolving.com/forum/showthread.php?23916-2-step-finish-for-Roux-Edges Two Step Method] | ||
* [http://www.speedsolving.com/forum/showthread.php?35350-Roux-4b-to-4c-Transition Roux 4b-4c Transition] | * [http://www.speedsolving.com/forum/showthread.php?35350-Roux-4b-to-4c-Transition Roux 4b-4c Transition] | ||
+ | * [https://www.speedcubingtips.eu/lse-eo-last-6-edges-edges-orientation/ speedcubingtips.eu LSE page] | ||
[[Category:3x3x3 other substeps]] | [[Category:3x3x3 other substeps]] |
Revision as of 05:58, 18 June 2019
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LSE, also called L6E, short for Last Six Edges, is a possible last step in 3x3 speedsolving that solves the M-slice centers and edges (UF, UB, DF, DB) together with UL and UR edges. It is the last step of the Roux Method and the Ortega Method.
Possible approaches
LSE can be solved in various ways; Gilles Roux himself, the inventer of the Roux Method, advocates a flexible/semi-intuitive approach to LSE without a strict division into substeps. The optimal approach is likely a combination of the approaches below.
Layers-based approach
- 1. centers, BD, and FD
- 2. ELL
This layer-based approach seems out of place in any method ending with LSE.
Original Roux
- 1. Orient centers and edges
- 2. Permute UR and UL edges
- 3. Permute the M slice
The following two approaches are commonly used in Corners first methods.
Corners First approach 1
- 1. Solve UL or UR
- 2. Insert UL/UR while orienting the M slice
- 3. Permute the M slice
Corners First approach 2
- 1. Solve both UL and UR
- 2. Orient and permute the M slice
Reduction to L5E has been proposed as an experimental approach.
L5E
- 1. Centers and BD
- 2. L5E