# Created by Octave 3.2.4, Tue Nov 23 12:53:00 2010 EST <mockbuild@jetta.math.Princeton.EDU.private>
# name: cache
# type: cell
# rows: 3
# columns: 28
# name: <cell-element>
# type: string
# elements: 1
# length: 6
addInt
# name: <cell-element>
# type: string
# elements: 1
# length: 71
 addInt adds a set of intervals returning 0 + int1 + int2 + ... + intn

# name: <cell-element>
# type: string
# elements: 1
# length: 61
 addInt adds a set of intervals returning 0 + int1 + int2 + .

# name: <cell-element>
# type: string
# elements: 1
# length: 12
dB10ToLinInt
# name: <cell-element>
# type: string
# elements: 1
# length: 54
 dB10ToLinInt returns 10 ^ (1 / 10th of the dB value)

# name: <cell-element>
# type: string
# elements: 1
# length: 54
 dB10ToLinInt returns 10 ^ (1 / 10th of the dB value)


# name: <cell-element>
# type: string
# elements: 1
# length: 12
dB20ToLinInt
# name: <cell-element>
# type: string
# elements: 1
# length: 54
 dB20ToLinInt returns 10 ^ (1 / 20th of the dB value)

# name: <cell-element>
# type: string
# elements: 1
# length: 54
 dB20ToLinInt returns 10 ^ (1 / 20th of the dB value)


# name: <cell-element>
# type: string
# elements: 1
# length: 6
divInt
# name: <cell-element>
# type: string
# elements: 1
# length: 65
 divSingleInt divides two set of intervals returning int1 / int2

# name: <cell-element>
# type: string
# elements: 1
# length: 65
 divSingleInt divides two set of intervals returning int1 / int2


# name: <cell-element>
# type: string
# elements: 1
# length: 10
engFormInt
# name: <cell-element>
# type: string
# elements: 1
# length: 50
 engFormInt print an interval in engineear format

# name: <cell-element>
# type: string
# elements: 1
# length: 50
 engFormInt print an interval in engineear format


# name: <cell-element>
# type: string
# elements: 1
# length: 11
errorBarInt
# name: <cell-element>
# type: string
# elements: 1
# length: 51
 plot x intervals center point versus y error bars

# name: <cell-element>
# type: string
# elements: 1
# length: 51
 plot x intervals center point versus y error bars


# name: <cell-element>
# type: string
# elements: 1
# length: 11
findRootInt
# name: <cell-element>
# type: string
# elements: 1
# length: 75
 findRootInt compute the incremental ration of f(x) in x0 with dx2/2 delta

# name: <cell-element>
# type: string
# elements: 1
# length: 75
 findRootInt compute the incremental ration of f(x) in x0 with dx2/2 delta


# name: <cell-element>
# type: string
# elements: 1
# length: 11
functionInt
# name: <cell-element>
# type: string
# elements: 1
# length: 165
 functionInt applies the given function f the required interval, it checks for monotonicitic. The user may set the minimum number of point to check on each interval

# name: <cell-element>
# type: string
# elements: 1
# length: 80
 functionInt applies the given function f the required interval, it checks for m

# name: <cell-element>
# type: string
# elements: 1
# length: 10
intFormInt
# name: <cell-element>
# type: string
# elements: 1
# length: 86
 intFormInt create an interval from a string or vector of strings in engineear format

# name: <cell-element>
# type: string
# elements: 1
# length: 80
 intFormInt create an interval from a string or vector of strings in engineear f

# name: <cell-element>
# type: string
# elements: 1
# length: 8
intToTol
# name: <cell-element>
# type: string
# elements: 1
# length: 75
 intToTol given an interval return its tolerance to get the given interval

# name: <cell-element>
# type: string
# elements: 1
# length: 75
 intToTol given an interval return its tolerance to get the given interval


# name: <cell-element>
# type: string
# elements: 1
# length: 11
intToTol100
# name: <cell-element>
# type: string
# elements: 1
# length: 78
 intToTol100 given an interval return its tolerance to get the given interval

# name: <cell-element>
# type: string
# elements: 1
# length: 78
 intToTol100 given an interval return its tolerance to get the given interval


# name: <cell-element>
# type: string
# elements: 1
# length: 8
intToVal
# name: <cell-element>
# type: string
# elements: 1
# length: 53
 intToVal given an interval return its central value

# name: <cell-element>
# type: string
# elements: 1
# length: 53
 intToVal given an interval return its central value


# name: <cell-element>
# type: string
# elements: 1
# length: 12
invertAddInt
# name: <cell-element>
# type: string
# elements: 1
# length: 116
 mInvertAddInt adds the inverse of a set of intervals returning their inverse: 1 /( 1/int1 + 1/int2 + ... + 1/intn)

# name: <cell-element>
# type: string
# elements: 1
# length: 80
 mInvertAddInt adds the inverse of a set of intervals returning their inverse: 1

# name: <cell-element>
# type: string
# elements: 1
# length: 9
invertInt
# name: <cell-element>
# type: string
# elements: 1
# length: 69
 invertInt return 1 / the given interval (which must not take the 0)

# name: <cell-element>
# type: string
# elements: 1
# length: 69
 invertInt return 1 / the given interval (which must not take the 0)


# name: <cell-element>
# type: string
# elements: 1
# length: 17
linSpaceTol100Int
# name: <cell-element>
# type: string
# elements: 1
# length: 130
 linSpaceTol100Int return column vector of intervals of N values equally spaced between base and limit, with the given tolerance.

# name: <cell-element>
# type: string
# elements: 1
# length: 80
 linSpaceTol100Int return column vector of intervals of N values equally spaced 

# name: <cell-element>
# type: string
# elements: 1
# length: 12
linToDB10Int
# name: <cell-element>
# type: string
# elements: 1
# length: 60
 linToDB10Int returns 10 log10 of the interval linear value

# name: <cell-element>
# type: string
# elements: 1
# length: 60
 linToDB10Int returns 10 log10 of the interval linear value


# name: <cell-element>
# type: string
# elements: 1
# length: 12
linToDB20Int
# name: <cell-element>
# type: string
# elements: 1
# length: 60
 linToDB20Int returns 20 log10 of the interval linear value

# name: <cell-element>
# type: string
# elements: 1
# length: 60
 linToDB20Int returns 20 log10 of the interval linear value


# name: <cell-element>
# type: string
# elements: 1
# length: 17
logSpaceTol100Int
# name: <cell-element>
# type: string
# elements: 1
# length: 143
 logSpaceTol100Int return column vector of intervals of N values logaritmically spaced between 10^base and 10^limit, with the given tolerance.

# name: <cell-element>
# type: string
# elements: 1
# length: 80
 logSpaceTol100Int return column vector of intervals of N values logaritmically 

# name: <cell-element>
# type: string
# elements: 1
# length: 20
monotonicFunctionInt
# name: <cell-element>
# type: string
# elements: 1
# length: 131
 monotonicFunctionInt applies the given monotonic function f the required interval (if f is not monotonic the result may be wrong)

# name: <cell-element>
# type: string
# elements: 1
# length: 80
 monotonicFunctionInt applies the given monotonic function f the required interv

# name: <cell-element>
# type: string
# elements: 1
# length: 6
mulInt
# name: <cell-element>
# type: string
# elements: 1
# length: 77
 mulInt multiplies a set of intervals returning 1 * int1 * int2 * ... * intn

# name: <cell-element>
# type: string
# elements: 1
# length: 67
 mulInt multiplies a set of intervals returning 1 * int1 * int2 * .

# name: <cell-element>
# type: string
# elements: 1
# length: 9
negateInt
# name: <cell-element>
# type: string
# elements: 1
# length: 58
 negateInt return the negative of the given interval set 

# name: <cell-element>
# type: string
# elements: 1
# length: 58
 negateInt return the negative of the given interval set 


# name: <cell-element>
# type: string
# elements: 1
# length: 7
plotInt
# name: <cell-element>
# type: string
# elements: 1
# length: 50
 plot x intervals center point versus y intervals

# name: <cell-element>
# type: string
# elements: 1
# length: 50
 plot x intervals center point versus y intervals


# name: <cell-element>
# type: string
# elements: 1
# length: 8
powerInt
# name: <cell-element>
# type: string
# elements: 1
# length: 97
 powerInt rises the given interval to the power required returning the new interval interval ^ n

# name: <cell-element>
# type: string
# elements: 1
# length: 80
 powerInt rises the given interval to the power required returning the new inter

# name: <cell-element>
# type: string
# elements: 1
# length: 9
sqrAddInt
# name: <cell-element>
# type: string
# elements: 1
# length: 88
 sqrAddInt returns the square root of the addition of the square of the given intervals

# name: <cell-element>
# type: string
# elements: 1
# length: 80
 sqrAddInt returns the square root of the addition of the square of the given in

# name: <cell-element>
# type: string
# elements: 1
# length: 6
sqrInt
# name: <cell-element>
# type: string
# elements: 1
# length: 47
 sqrInt returns the square of a given interval

# name: <cell-element>
# type: string
# elements: 1
# length: 47
 sqrInt returns the square of a given interval


# name: <cell-element>
# type: string
# elements: 1
# length: 7
sqrtInt
# name: <cell-element>
# type: string
# elements: 1
# length: 53
 sqrtInt returns the square root of a given interval

# name: <cell-element>
# type: string
# elements: 1
# length: 53
 sqrtInt returns the square root of a given interval


# name: <cell-element>
# type: string
# elements: 1
# length: 6
subInt
# name: <cell-element>
# type: string
# elements: 1
# length: 47
 subInt subtract intervals returning int1-int2

# name: <cell-element>
# type: string
# elements: 1
# length: 47
 subInt subtract intervals returning int1-int2


# name: <cell-element>
# type: string
# elements: 1
# length: 14
valtol100ToInt
# name: <cell-element>
# type: string
# elements: 1
# length: 199
 valtol100ToInt return an interval given a value with its tolerance expressed in percentage (optionally also a negative tolerance). I.E. 10+-5% is tolToInt (10, 5); 10+20%-5% is tolToInt (10,20,-5).

# name: <cell-element>
# type: string
# elements: 1
# length: 80
 valtol100ToInt return an interval given a value with its tolerance expressed in

