pow2
Base 2 exponentiation and scaling of floating-point numbers
Syntax
Description
Examples
Exponentiation
Raise 2 to the power of E
.
E = [1 -2 4 -4 3 9]; Y = pow2(E)
Y = 1×6
2.0000 0.2500 16.0000 0.0625 8.0000 512.0000
Scale Significands by 2 Raised to Power of Exponents
In this example, compare the standard IEEE® arithmetic results of scaling significands by 2 raised to the power of exponents and the pow2
results.
Create a cell array of character vectors to represent the exact values of several significands. Specify the exponents.
Xcell = {'1/2','pi/4','-3/4','1/2','1-eps/2','1/2'}'; E = [1 2 2 -51 1024 -1021]';
Specify Ycell
as the standard IEEE arithmetic results of scaling Xcell
by 2
raised to the power of E
. Show these results in a table.
Ycell = {'1','pi','-3','eps','realmax','realmin'}'; table(Xcell,E,Ycell,'VariableNames',["Significand" "Exponent" "Value"])
ans=6×3 table
Significand Exponent Value
___________ ________ ___________
{'1/2' } 1 {'1' }
{'pi/4' } 2 {'pi' }
{'-3/4' } 2 {'-3' }
{'1/2' } -51 {'eps' }
{'1-eps/2'} 1024 {'realmax'}
{'1/2' } -1021 {'realmin'}
Next, compare the results in the table to pow2
.
Convert Xcell
to floating-point numbers X
. Scale X
by 2
raised to the power of E
by using pow2(X,E)
.
X = str2num(char(Xcell)); Y = pow2(X,E)
Y = 6×1
10308 ×
0.0000
0.0000
-0.0000
0.0000
1.7977
0.0000
Convert Ycell
to floating-point numbers Ynum
. Show that pow2
follows the standard IEEE arithmetic operations by comparing Y
and Ynum
using isequal
.
Ynum = str2num(char(Ycell))
Ynum = 6×1
10308 ×
0.0000
0.0000
-0.0000
0.0000
1.7977
0.0000
isequal(Y,Ynum)
ans = logical
1
Input Arguments
E
— Exponent values
scalar | vector | matrix | multidimensional array | table | timetable
Exponent values, specified as a scalar, vector, matrix, multidimensional array, table, or timetable.
Data Types: single
| double
| table
| timetable
X
— Significand values
scalar | vector | matrix | multidimensional array | table | timetable
Significand values, specified as a scalar, vector, matrix, or multidimensional array
of the same size as E
.
Data Types: single
| double
| table
| timetable
Tips
The syntax Y = pow2(X,E)
corresponds to the ANSI® C function ldexp()
and the IEEE® floating-point standard function scalbn()
. The result
Y
is computed quickly by simply adding E
to the
floating-point exponent of X
.
Extended Capabilities
Tall Arrays
Calculate with arrays that have more rows than fit in memory.
The
pow2
function fully supports tall arrays. For more information,
see Tall Arrays.
Thread-Based Environment
Run code in the background using MATLAB® backgroundPool
or accelerate code with Parallel Computing Toolbox™ ThreadPool
.
This function fully supports thread-based environments. For more information, see Run MATLAB Functions in Thread-Based Environment.
GPU Arrays
Accelerate code by running on a graphics processing unit (GPU) using Parallel Computing Toolbox™.
The pow2
function
fully supports GPU arrays. To run the function on a GPU, specify the input data as a gpuArray
(Parallel Computing Toolbox). For more information, see Run MATLAB Functions on a GPU (Parallel Computing Toolbox).
Distributed Arrays
Partition large arrays across the combined memory of your cluster using Parallel Computing Toolbox™.
This function fully supports distributed arrays. For more information, see Run MATLAB Functions with Distributed Arrays (Parallel Computing Toolbox).
Version History
Introduced before R2006aR2023a: Perform calculations directly on tables and timetables
The pow2
function can calculate on all variables within a table or
timetable without indexing to access those variables. All variables must have data types
that support the calculation. For more information, see Direct Calculations on Tables and Timetables.
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