Kurzweil K2600 Musician's Manual page 552

FUNS
The FUN Equations
warp2(a, b)
We call this equation Slant-square.ª Again, the value of Input a controls the mapping of values
for Input b. If Input b is a sawtooth wave, different values for Input a will turn it into a number
of variations on square waves.
output
values
+1
-1
-1
a = .1, b rising
from -1 to 1
Figure 17-10
warp3(a, b)
We call this one the Variable Inverter.ª It looks at the binary numbers that represent the values
of Inputs a and b, compares the corresponding bits in each number, and performs an XOR
operation on them (weÕll explain that below). The resulting number is converted into the output
value. This can produce some erratic results, but if variety is what youÕre after, this equation will
give it to you. YouÕll get your best results when Input b is an LFO with a slow rate.
The XOR operation is a subprogram that applies a truth table to each of the digits in the binary
numbers that represent the values of Inputs a and b. Each of these numbers is a string of 16
digits (bits); each bit is either a 0 or a 1. The subprogram looks at the Þrst bit of each number. If
theyÕre both 0s, the resulting value is 1. If one is a 0 and the other is a 1, the result is 1. If theyÕre
both 1s, the result is 0. This process is repeated for the remaining 15 bits of each number, and a
new 16-bit number is generated. This number represents the output value of the FUN.
17-12
output
values
+1
input
1 -1
values
a = .5, b rising
from -1 to 1
warp2(a, b)
input
1
values
-1
output
values
+1
-1
-1
a =.9, b rising
from -1 to 1
input
1
values