Code Generation for dlarray
A deep learning array stores data with optional data format labels for custom training loops, and enables functions to compute and use derivatives through automatic differentiation. To learn more about custom training loops, automatic differentiation, and deep learning arrays, see Deep Learning Custom Training Loops (Deep Learning Toolbox).
Code generation supports both formatted and unformatted deep learning arrays.
dlarray
objects containing gpuArrays
are also
supported for code generation. When you use deep learning arrays with CPU and GPU code
generation, adhere to these restrictions:
Define dlarray
for Code Generation
For code generation, use the dlarray
(Deep Learning Toolbox)
function to create deep learning arrays. For example, suppose you have a pretrained
dlnetwork
(Deep Learning Toolbox) network object in the
mynet.mat
MATfile. To predict the responses for this network,
create an entrypoint function in MATLAB^{®}.
There are two possibilities:
Note
For code generation, the dlarray
input to the
predict
method of the dlnetwork
object must
be single
data type.
Design 1 (Not recommended)
In this design example, the input and output to the entrypoint function,
foo
are of dlarray
types. This type of
entrypoint function is not recommended for code generation because in MATLAB, dlarray
enforces the order of labels
'SCBTU'
. This behavior is replicated for MEX code generation.
However, for standalone code generation such as static, dynamic libraries, or
executables, the data format follows the specification of the fmt
argument of the dlarray
object. As a result, if the input or output
of an entrypoint function is a dlarray
object and its order of
labels is not 'SCBTU'
, then the data layout will be different
between the MATLAB environment and standalone code.
function dlOut = foo(dlIn) persistent dlnet; if isempty(dlnet) dlnet = coder.loadDeepLearningNetwork('mynet.mat'); end dlOut = predict(dlnet, dlIn); end
Design 2 (Recommended)
In this design example, the input and output to foo
are of
primitive datatypes and the dlarray
object is created within the
function. The extractdata
(Deep Learning Toolbox) method of the dlarray
object returns
the data in the dlarray
dlA
as the output of foo
. The output
a
has the same data type as the underlying data type in
dlA
.
When compared to Design 1
, this entrypoint design has the
following advantages:
Easier integration with standalone code generation workflows such as static, dynamic libraries, or executables.
The data format of the output from the
extractdata
function has the same order ('SCBTU'
) in both the MATLAB environment and the generated code.Improves performance for MEX workflows.
Simplifies Simulink^{®} workflows using MATLAB Function blocks as Simulink does not natively support
dlarray
objects.
function a = foo(in) dlIn = dlarray(in, 'SSC'); persistent dlnet; if isempty(dlnet) dlnet = coder.loadDeepLearningNetwork('mynet.mat'); end dlA = predict(dlnet, dlIn); a = extractdata(dlA); end
To see an example of dlnetwork
and
dlarray
usage with GPU Coder™, see Generate Digit Images on NVIDIA GPU Using Variational Autoencoder.
dlarray
Object Functions with Code Generation Support
For code generation, you are restricted to the deep learning array object functions listed in this table.
 Dimension labels for 
 Extract data from 
 Find dimensions with specified label 
 Remove 
Deep Learning Toolbox Functions with dlarray
Code Generation Support
Deep Learning Operations
Function  Description 

fullyconnect (Deep Learning Toolbox)  The fully connect operation multiplies the input by a weight matrix and then adds a bias vector. 
sigmoid (Deep Learning Toolbox)  The sigmoid activation operation applies the sigmoid function to the input data. 
softmax (Deep Learning Toolbox)  The softmax activation operation applies the softmax function to the channel dimension of the input data. 
MATLAB Functions with dlarray
Code Generation Support
Unary Elementwise Functions
Function  Notes and Limitations 

abs  The output

atan2  The output

cos  
cosh  
cot  
csc  
exp  
log 

sec  The output

sign  
sin  
sinh  
sqrt 

tan  The output

tanh  
uplus ,
+  
uminus ,
  
erf 
Binary Elementwise Operators
Function  Notes and Limitations 

minus ,
  If the two

plus ,
+  
power ,
.^  
rdivide ,
./  
times ,
.* 
Reduction Functions
Function  Notes and Limitations 

mean 

prod 

sum 
Extrema Functions
Function  Notes and Limitations 

ceil  The output

eps 

fix  The output

floor  The output

max 

min  
round 

Other Math Operations
Function  Notes and Limitations 

colon ,
: 

mtimes ,
* 

pagemtimes 

Logical Operations
Function  Notes and Limitations 

and ,
&  If the two

eq ,
==  If the two

ge ,
>=  
gt ,
>  
le ,
<=  
lt ,
<  
ne ,
~=  
or ,
  If the two

xor 
Size Manipulation Functions
Function  Notes and Limitations 

reshape  The output For code generation, the size dimensions must be fixed size. 
squeeze  Twodimensional 
repelem  If you use the If you
use the 
repmat  The output 
Transposition Operations
Function  Notes and Limitations 

ctranspose ,
'  If the input

permute  If the input For code generation, the dimension order must be fixed size. 
ipermute  If the input For code generation, the dimension order must be fixed size. 
transpose ,
.'  If the input

Concatenation Functions
Function  Notes and Limitations 

cat  The
For code generation, the dimension
order to 
horzcat  
vertcat 
Conversion Functions
Function  Notes and Limitations 

cast 

double  The output is a 
logical  The output is a dlarray that contains data of
type logical . 
single  The output is a dlarray that contains data of
type single . 
Comparison Functions
Function  Notes and Limitations 

isequal 

isequaln 

Data Type and Value Identification Functions
Size Identification Functions
Function  Notes and Limitations 

iscolumn  This function returns true for a
dlarray that is a column vector, where each
dimension except the first is a singleton. For example, a
3by1by1 dlarray is a column vector. 
ismatrix  This function returns true for
dlarray objects with only two dimensions and
for dlarray objects where each dimension except the
first two is a singleton. For example, a 3by4by1
dlarray is a matrix. 
isrow  This function returns true for a
dlarray that is a row vector, where each
dimension except the second is a singleton. For example, a
1by3by1 dlarray is a row vector. 
isscalar  N/A 
isvector  This function returns true for a
dlarray that is a row vector or column vector.
Note that isvector does not consider a
1by1by3 dlarray to be a vector. 
length  N/A 
ndims  If the input 
numel  N/A 
size  If the input 
Creator Functions
Indexing
Code generation supports indexing dlarray
objects and exhibits
the following behaviors:
If you set
dlY(idx1,...,idxn) = dlX
, thendlY
anddlX
must be assignment compatible.Size of the data must not change. Outofbounds assignment operation is not supported.
The assignment statement cannot add or drop
U
labels.
Code generation does not support deleting of parts of a
dlarray
object by usingdlX(idx1,…,idxn) = []
.
See Also
Objects
Related Examples
More About
 dlarray Limitations for Code Generation
 Define Custom Training Loops, Loss Functions, and Networks (Deep Learning Toolbox)
 Train Network Using Custom Training Loop (Deep Learning Toolbox)
 Make Predictions Using dlnetwork Object (Deep Learning Toolbox)