Custom Data Type¶
This is simple example of RGB to HSV conversion to demonstrate Custom DATA Type usages in C Based Kernel. Xilinx HLS Compiler Supports Custom Data Type to use for operation as well as Memory Interface between Kernel and Global Memory.
KEY CONCEPTS: Custom Datatype
KEYWORDS: struct, #pragma HLS LOOP_TRIPCOUNT
Kernel ports can have custom datatypes.It is recommended that custom
datatype is a power of 2 and minimum 32 bits to allow burst transfer
thus using the AXI master bandwidth efficiently. Extra padding
can
be added in case not a multiple of 32 bits as shown below.
typedef struct RGBcolor_struct
{
unsigned char r;
unsigned char g;
unsigned char b;
unsigned char pad;
} RGBcolor;
typedef struct HSVcolor_struct
{
unsigned char h;
unsigned char s;
unsigned char v;
unsigned char pad;
}HSVcolor;
Kernel in this example uses the above structures as datatypes for its input and output ports.
void rgb_to_hsv(RGBcolor *in, // Access global memory as RGBcolor struct-wise
HSVcolor *out, // Access Global Memory as HSVcolor struct-wise
int size)
Custom datatypes can be used to reduce the number of
kernel arguments
thus reducing the number of interfaces between
kernels and memory. It can also help to reduce execution time to set
kernel arguments if number of kernel arguments is large.
EXCLUDED PLATFORMS¶
Platforms containing following strings in their names are not supported for this example :
nodma
DESIGN FILES¶
Application code is located in the src directory. Accelerator binary files will be compiled to the xclbin directory. The xclbin directory is required by the Makefile and its contents will be filled during compilation. A listing of all the files in this example is shown below
src/host.cpp
src/rgb_to_hsv.cpp
src/rgb_to_hsv.h
Access these files in the github repo by clicking here.
COMMAND LINE ARGUMENTS¶
Once the environment has been configured, the application can be executed by
./custom_datatype -x <rgb_to_hsv XCLBIN> -i REPO_DIR/common/data/xilinx_logo.bmp