Difference between revisions of "OLL (2x2x2)"
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| − | When you accomplishe this step, you can move to [[PLL (2x2x2)]]. | + | When you accomplishe this step, you can move to [[PLL (2x2x2)]], or for more advanced methods such as Ortega, [[PBL]]. |
'''Notes:''' | '''Notes:''' | ||
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*According which method: | *According which method: | ||
** Algs which don't affect the bottom layer (suitable for both [[LBL]] and [[Ortega]]) are unmarked | ** Algs which don't affect the bottom layer (suitable for both [[LBL]] and [[Ortega]]) are unmarked | ||
** Algs which affect bottom layer permutation (suitable for [[Ortega]] only) are marked with an '''O''' (these are also useful for [[EG]] 1) | ** Algs which affect bottom layer permutation (suitable for [[Ortega]] only) are marked with an '''O''' (these are also useful for [[EG]] 1) | ||
** Algs which mix bottom and top layers (suitable if used with [[Guimond]]-style separation) are marked with a '''G''' | ** Algs which mix bottom and top layers (suitable if used with [[Guimond]]-style separation) are marked with a '''G''' | ||
| + | *For ''optimal moves'': | ||
| + | ** As a triple (x, y, z) where x is the number of optimal moves that don't affect bottom layer, y for '''O''', and z for '''G'''. | ||
| + | ** A ''question mark'' means that number of optimal moves is not known. But always x ≥ y ≥ z. | ||
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}} | }} | ||
{{Alg|R U2 R' U' R U' R'|OLL|cube=2x2x2|comment=}} | {{Alg|R U2 R' U' R U' R'|OLL|cube=2x2x2|comment=}} | ||
| + | {{Alg|(y') R' U' R U' R' U2 R|OLL|cube=2x2x2|comment=}} | ||
{{Alg|R D' R2 F2 D' F|OLL|cube=2x2x2|comment='''O'''}} | {{Alg|R D' R2 F2 D' F|OLL|cube=2x2x2|comment='''O'''}} | ||
{{Alg|R D' R2 (y') R2 D' R|OLL|cube=2x2x2|comment='''O'''}} | {{Alg|R D' R2 (y') R2 D' R|OLL|cube=2x2x2|comment='''O'''}} | ||
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<tr> | <tr> | ||
<td valign='top'> | <td valign='top'> | ||
| − | == | + | == L == |
{{case | {{case | ||
|image=2x2Bo.gif | |image=2x2Bo.gif | ||
| − | |name= | + | |name=L |
|methods=[[OLL (2x2x2)]] | |methods=[[OLL (2x2x2)]] | ||
|optimal=(7, ?, 5) [[HTM]] | |optimal=(7, ?, 5) [[HTM]] | ||
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{{Alg|F R' F' R U R U' R'|OLL|cube=2x2x2|comment=}} | {{Alg|F R' F' R U R U' R'|OLL|cube=2x2x2|comment=}} | ||
{{Alg|R' F R B' R' F' R B|OLL|cube=2x2x2|comment=}} | {{Alg|R' F R B' R' F' R B|OLL|cube=2x2x2|comment=}} | ||
| − | {{Alg| | + | {{Alg|y' F' (R U R' U') (R' F R)|OLL|cube=2x2x2|comment=}} |
{{Alg|(y) F R U2 R' F|OLL|cube=2x2x2|comment='''G'''}} | {{Alg|(y) F R U2 R' F|OLL|cube=2x2x2|comment='''G'''}} | ||
</td> | </td> | ||
<td valign='top'> | <td valign='top'> | ||
| − | == | + | == U == |
{{case | {{case | ||
|image=2x2He.gif | |image=2x2He.gif | ||
| − | |name= | + | |name=U |
|methods=[[OLL (2x2x2)]] | |methods=[[OLL (2x2x2)]] | ||
|optimal=(6, 6, 5) [[HTM]] | |optimal=(6, 6, 5) [[HTM]] | ||
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}} | }} | ||
{{Alg|R2 U2' R' U2 R2|OLL|cube=2x2x2|comment=}} | {{Alg|R2 U2' R' U2 R2|OLL|cube=2x2x2|comment=}} | ||
| + | {{Alg|R2 U2 R U2 R2|OLL|cube=2x2x2|comment=}} | ||
{{Alg|F (R U R' U')3 F'|OLL|cube=2x2x2|comment=}} | {{Alg|F (R U R' U')3 F'|OLL|cube=2x2x2|comment=}} | ||
| + | {{Alg|R U2 R' U' (R U R' U') (R U' R')|OLL|cube=2x2x2|comment=}} | ||
{{Alg|R2 U2 R|OLL|cube=2x2x2|comment='''G'''}} | {{Alg|R2 U2 R|OLL|cube=2x2x2|comment='''G'''}} | ||
</td> | </td> | ||
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|text= | |text= | ||
}} | }} | ||
| − | {{Alg| | + | {{Alg|(y) R U2 R2 U' R2 U' R2 U2 R|OLL|cube=2x2x2|comment=}} |
| − | {{Alg|y F (R U R' U') (R U R' U') F'|OLL|cube=2x2x2|comment=}} | + | {{Alg|(y) F (R U R' U') (R U R' U') F'|OLL|cube=2x2x2|comment=}} |
| − | {{Alg|y' F (U R U' R') (U R U' R') F'|OLL|cube=2x2x2|comment=}} | + | {{Alg|(y') F (U R U' R') (U R U' R') F'|OLL|cube=2x2x2|comment=}} |
{{Alg|(R U R2) F' (R2 U R')|OLL|cube=2x2x2|comment='''O'''}} | {{Alg|(R U R2) F' (R2 U R')|OLL|cube=2x2x2|comment='''O'''}} | ||
{{Alg|R' F R2 U' R2' F R|OLL|cube=2x2x2|comment='''O'''}} | {{Alg|R' F R2 U' R2' F R|OLL|cube=2x2x2|comment='''O'''}} | ||
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* [https://www.speedcubingtips.eu/oll-methode-ortega/ speedcubingtips.eu OLL 2x2x2] | * [https://www.speedcubingtips.eu/oll-methode-ortega/ speedcubingtips.eu OLL 2x2x2] | ||
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[[Category:2x2x2 substeps]] | [[Category:2x2x2 substeps]] | ||
[[Category:Algorithms]] | [[Category:Algorithms]] | ||
Latest revision as of 18:29, 16 April 2023
These algorithms orient the top layer on a 2x2x2. Three variants of these algorithms are given depending on how they affect the rest of the cube. The parts of algorithms are grouped together for easier memorization and visual distinction.
When you accomplishe this step, you can move to PLL (2x2x2), or for more advanced methods such as Ortega, PBL.
Notes:
- According which method:
- Algs which don't affect the bottom layer (suitable for both LBL and Ortega) are unmarked
- Algs which affect bottom layer permutation (suitable for Ortega only) are marked with an O (these are also useful for EG 1)
- Algs which mix bottom and top layers (suitable if used with Guimond-style separation) are marked with a G
- For optimal moves:
- As a triple (x, y, z) where x is the number of optimal moves that don't affect bottom layer, y for O, and z for G.
- A question mark means that number of optimal moves is not known. But always x ≥ y ≥ z.
See also
- PLL (2x2x2)
- CLL
- PBL
- CxLL Algs (First column for OLLs)
- OLL (for 3x3x3)
- Layer-By-Layer
- Ortega
- Guimond
External links
- Speedsolving.com: OLL U/D Mixing algs
- Bob Burton's OLL algs
- speedcubingtips.eu OLL 2x2x2
