Difference between revisions of "Pet5"
(Improved last layer step) Tag: mobile edit 

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5. Solve five more edges with [[edge orientation]], using the unsolved face to allow more flexibility when solving edges.  5. Solve five more edges with [[edge orientation]], using the unsolved face to allow more flexibility when solving edges.  
−  6. Finish the centers while pairing the remaining edge wings, forming a  +  6. Finish the centers while pairing the remaining edge wings, forming a Petrus block, and finish the last two edges 
−  7. Solve  +  7. Solve F2L, then use COLL and EPLL for last layer. PLL parity is included for EPLL 
== Pros ==  == Pros == 
Revision as of 22:37, 13 September 2017

Just Use Petrus, or JUP for short, was created by Will Schmidt. It was designed with cubes like the 6x6 and 7x7 in mind, and is not suited for 4x4.
The Steps
1. Build two opposite centers
2. Solve three half centers connected with partial edges
3. Solve three edges and two corners, forming a block
4. Solve remaining center pieces with bars, ignoring color
5. Solve five more edges with edge orientation, using the unsolved face to allow more flexibility when solving edges.
6. Finish the centers while pairing the remaining edge wings, forming a Petrus block, and finish the last two edges
7. Solve F2L, then use COLL and EPLL for last layer. PLL parity is included for EPLL
Pros
 Start 3x3 stage with edge orientation and a 2x2x3 Petrus block formed.
 Designed with 6x6 and 7x7 in mind
 Also prevents OLL parity on even layered puzzles
Cons
 Finding edges to connect half centers can be tricky
Petrus variations
There are several other substeps that can be used WV, COLL, and ZBLL which completes the entire last layer in a single algorithm.