Difference between revisions of "BLL"

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{{Method Infobox
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{{Substep Infobox
 
|name=BLL (Bauer Last Layer)
 
|name=BLL (Bauer Last Layer)
 
|image=LLEF.png
 
|image=LLEF.png
|proposers=[[Danegraphics|Steven Mortensen]]
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|proposers=[[User:danegraphics|Steven Mortensen]]
 
|year=2011
 
|year=2011
 
|steps=3
 
|steps=3
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|purpose=<sup></sup>
 
|purpose=<sup></sup>
 
* [[Speedsolving]], [[FMC]]
 
* [[Speedsolving]], [[FMC]]
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|previous=[[F2L cube state]]
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|next=[[Solved cube state]]
 
}}
 
}}
  
BLL (Bauer Last Layer, a reference to Jack Bauer from the show '24') is an edges first LL method developed by [[User:danegraphics|Steven Mortensen]] in 2010-2011, and [http://www.speedsolving.com/forum/showthread.php?47809-BLL-3-Look-25alg posted to the forums] in 2014. The method was developed overtime, first starting as a LL method with only 4 [[algorithm]]s, then going on to become a [[4LLL]] and finally a [[3LLL]] with 24 algorithms (hence the name). Due to the nature of the method, a [[2LLL]] version would have at least 98 algs, which is a 74 algorithm step up from 3LLL.
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'''BLL''' (Bauer Last Layer, a reference to Jack Bauer from the show '24') is an edges first LL method developed by [[User:danegraphics|Steven Mortensen]] in 2010-2011, and [http://www.speedsolving.com/forum/showthread.php?47809-BLL-3-Look-25alg posted to the forums] in 2014. The method was developed overtime, first starting as a LL method with only 4 [[algorithm]]s, then going on to become a [[4LLL]] and finally a [[3LLL]] with 24 algorithms (hence the name). If used in combination with with a method that orients the LL edges ([[ZZ]], others), it only has 11 algorithms in total for the lowest algorithm count of any 3LLL.
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Due to the nature of the method, a [[2LLL]] version would have at least 98 algs, which is a 74 algorithm step up from 3LLL. But in combination with a method that orients the LL edges, this method can be modified to have a 39 algorithm 2LLL.
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The novelty of the method is the reduced number of algorithms required to achieve a 3LLL.
  
 
==Method Description==
 
==Method Description==
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*3 - Permutation of corners
 
*3 - Permutation of corners
 
*4 - Orientation of corners
 
*4 - Orientation of corners
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===The beginner method===
  
 
'''The beginner method''' gives only one algorithm for each of these steps which are to be used intuitively. One algorithm is reused with it's mirror for the corners giving 3 algs excluding reuse:
 
'''The beginner method''' gives only one algorithm for each of these steps which are to be used intuitively. One algorithm is reused with it's mirror for the corners giving 3 algs excluding reuse:
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*3 CP - R’ U L U’ R U L’ U’
 
*3 CP - R’ U L U’ R U L’ U’
 
*4 CO - [R U R’ U R U2 R’] + [L’ U’ L U’ L’ U2 L](mirror of the bracketed alg)
 
*4 CO - [R U R’ U R U2 R’] + [L’ U’ L U’ L’ U2 L](mirror of the bracketed alg)
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===The 4LLL method===
  
 
'''The 4LLL method''' adds 2 algorithms to be able to solve the edges in at most 2-Looks, and 8 algorithms (6 excluding a mirror and a reuse) to solve the corners in 2-Looks.
 
'''The 4LLL method''' adds 2 algorithms to be able to solve the edges in at most 2-Looks, and 8 algorithms (6 excluding a mirror and a reuse) to solve the corners in 2-Looks.
  
'''The 3LLL method''' combines the two edge steps into 1-Look with only 16 algorithms making for a total of 24 algorithms for [[3LLL]].
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===The 3LLL method===
  
The algorithms given by Steven can be found [http://www.speedsolving.com/forum/showthread.php?47809-BLL-3-Look-25alg in his thread]. Alternate algorithms can be found on the wiki ('''1 - ELL''': [[LLEF]], '''2 - CO''': [[Corner Orientation|OCLL-EPP]], '''3 - CP''': [[CPLL]]).  
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'''The 3LLL method''' combines the two edge steps into 1 step that uses only 16 algorithms making for a total of 24 algorithms for [[3LLL]].
  
For a 2LLL version of this method, the corners can be done in one step with the addition of 74 algs from [[L4C]] making a total of 98 algs.
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===The 2LLL method===
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'''For a 2LLL''' the corners can be done in one step with the addition of 74 algs from [[L4C]] making a total of 98 algs. This brings the average move count down to ~19.5, which is 2 moves less than OLL/PLL.
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==The Algorithms==
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The algorithms given by Steven can be found [http://www.speedsolving.com/forum/showthread.php?47809-BLL-3-Look-25alg in his thread]. Alternate algorithms can be found on the wiki ('''1 - ELL''': [[LLEF]], '''2 - CO''': [[Corner Orientation#OCLL-EPP|OCLL-EPP]], '''3 - CP''': [[CPLL]]).  
  
 
==Links==
 
==Links==
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*[[3LLL]]
 
*[[3LLL]]
 
*[[4LLL]]
 
*[[4LLL]]
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[[Category:3x3x3 last layer methods]]
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[[Category:3x3x3 last layer substeps]]

Revision as of 14:42, 28 October 2014

BLL (Bauer Last Layer)
LLEF.png
Information
Proposer(s): Steven Mortensen
Proposed: 2011
Alt Names: none
Variants: none
Subgroup: unknown
No. Algs: 24
Avg Moves: 27
Purpose(s):


BLL (Bauer Last Layer, a reference to Jack Bauer from the show '24') is an edges first LL method developed by Steven Mortensen in 2010-2011, and posted to the forums in 2014. The method was developed overtime, first starting as a LL method with only 4 algorithms, then going on to become a 4LLL and finally a 3LLL with 24 algorithms (hence the name). If used in combination with with a method that orients the LL edges (ZZ, others), it only has 11 algorithms in total for the lowest algorithm count of any 3LLL.

Due to the nature of the method, a 2LLL version would have at least 98 algs, which is a 74 algorithm step up from 3LLL. But in combination with a method that orients the LL edges, this method can be modified to have a 39 algorithm 2LLL.

The novelty of the method is the reduced number of algorithms required to achieve a 3LLL.

Method Description

The order of operations for this method is:

  • 1 - Orientation of edges
  • 2 - Permutation of edges
  • 3 - Permutation of corners
  • 4 - Orientation of corners

The beginner method

The beginner method gives only one algorithm for each of these steps which are to be used intuitively. One algorithm is reused with it's mirror for the corners giving 3 algs excluding reuse:

  • 1 EO - M’ U’ M U2 M’ U’ M
  • 2 EP - U [R U R’ U R U2 R’](bracketed part will be used in corners as well)
  • 3 CP - R’ U L U’ R U L’ U’
  • 4 CO - [R U R’ U R U2 R’] + [L’ U’ L U’ L’ U2 L](mirror of the bracketed alg)

The 4LLL method

The 4LLL method adds 2 algorithms to be able to solve the edges in at most 2-Looks, and 8 algorithms (6 excluding a mirror and a reuse) to solve the corners in 2-Looks.

The 3LLL method

The 3LLL method combines the two edge steps into 1 step that uses only 16 algorithms making for a total of 24 algorithms for 3LLL.

The 2LLL method

For a 2LLL the corners can be done in one step with the addition of 74 algs from L4C making a total of 98 algs. This brings the average move count down to ~19.5, which is 2 moves less than OLL/PLL.

The Algorithms

The algorithms given by Steven can be found in his thread. Alternate algorithms can be found on the wiki (1 - ELL: LLEF, 2 - CO: OCLL-EPP, 3 - CP: CPLL).

Links