# Difference between revisions of "Average"

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In an AoX, the best and worst times in an average are placed in brackets. Example: (5.43) 4.32 3.21 2.10 (1.00) | In an AoX, the best and worst times in an average are placed in brackets. Example: (5.43) 4.32 3.21 2.10 (1.00) | ||

− | If any counting time (a time that is averaged, not the highest or lowest) is a DNF or DNS, the average is a DNF. | + | If any counting time (a time that is averaged, not the highest or lowest) is a [[DNF]] or [[DNS]], the average is a DNF. |

==Types of Averages== | ==Types of Averages== | ||

===Average of X (AX, AoX)=== | ===Average of X (AX, AoX)=== | ||

− | Most speedcubers use averages of 12 to gauge their ability, because most view that averages of 5 contain too much luck. Averages of 100 can also be useful in determining consistency in puzzles such as the 2x2 and magic, where virtually all mistakes count towards the average. | + | Most speedcubers use averages of 12 to gauge their ability, because most view that averages of 5 contain too much luck. Averages of 100 can also be useful in determining consistency in puzzles such as the [[2x2]] and [[magic]], where virtually all mistakes count towards the average. |

===Rolling Averages=== | ===Rolling Averages=== | ||

− | A '''rolling average''' is when you do an average, then continue to do solves. The first solves are then removed from the average and replaced with the newer ones. For example, if you did an average of 5 with (15.32) 14.64 13.17 (11.22) 12.88, you can do another two solves to remove your two highest times. The times that are removed are considered "rolled". | + | A '''rolling average''' is when you do an average, then continue to do solves. The first solves are then removed from the average and replaced with the newer ones. For example, if you did an average of 5 with (15.32) 14.64 13.17 (11.22) 12.88, you can do another two solves to remove your two highest times and attempt to get faster times. The times that are removed are considered "rolled". |

===Mean=== | ===Mean=== | ||

− | A '''mean''' is very similar to an average, except the best and worst times are not removed. Means of 3 are usually used when a puzzle takes a long time. | + | A '''mean''' is very similar to an average, except the best and worst times are not removed. Means of 3 are usually used when a puzzle takes a long time, such as [[6x6]] and [[7x7]]. |

===Global Average=== | ===Global Average=== |

## Revision as of 18:27, 7 January 2015

An **average** is a set of consecutive solves, in which the best and worst times are removed. The remaining times are then averaged together. Most events use averages of 5. There are a few exceptions however, generally events which take longer, using means of 3.

In an AoX, the best and worst times in an average are placed in brackets. Example: (5.43) 4.32 3.21 2.10 (1.00)

If any counting time (a time that is averaged, not the highest or lowest) is a DNF or DNS, the average is a DNF.

## Contents

## Types of Averages

### Average of X (AX, AoX)

Most speedcubers use averages of 12 to gauge their ability, because most view that averages of 5 contain too much luck. Averages of 100 can also be useful in determining consistency in puzzles such as the 2x2 and magic, where virtually all mistakes count towards the average.

### Rolling Averages

A **rolling average** is when you do an average, then continue to do solves. The first solves are then removed from the average and replaced with the newer ones. For example, if you did an average of 5 with (15.32) 14.64 13.17 (11.22) 12.88, you can do another two solves to remove your two highest times and attempt to get faster times. The times that are removed are considered "rolled".

### Mean

A **mean** is very similar to an average, except the best and worst times are not removed. Means of 3 are usually used when a puzzle takes a long time, such as 6x6 and 7x7.

### Global Average

A **global average** could technically be calculated by - completely halting your improvement (as well as not getting worse) at your current point in your cubing progression, solve an infinite number of cubes, and take the average of all of them. Of course, times fluctuate from day to day, you never know if you're improving past a wall or not, or if its just a lucky day, etc. So global average is just taking a guess at what "infinite average" would be. A decent way is to figure this to graph out your best average of 1/5/12/100/1000, etc, and find a relatively accurate asymptote. Or you can just eyeball it. It usually won't be too much slower than your best average of 100.