MATLAB Design
function [yOut,validOut] = HDLFFT128(yIn,validIn)
persistent fft128;
if isempty(fft128)
fft128 = dsp.HDLFFT('FFTLength',128);
end
[yOut,validOut] = fft128(yIn,validIn);
end
Instructions to generate HDL code from above MATLAB code
yIn = fi(complex(0,0), 1, 32, 24, hdlfimath); % compelx signed 32bit input with 24bit fraction length
validIn = true;
c = coder.config('hdl');
codegen -config c -args {yIn, validIn} HDLFFT128 -report
### Begin VHDL Code Generation
### Generating HDL Conformance Report HDLFFT128_hdl_conformance_report.html.
### HDL Conformance check complete with 0 errors, 0 warnings, and 0 messages.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF1_1/SimpleDualPortRAM_generic as SimpleDualPortRAM_generic.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF1_1/SDFCommutator1 as SDFCommutator1.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF1_1 as RADIX22FFT_SDF1_1.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_CTRL1_1 as RADIX22FFT_CTRL1_1.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF2_2/SDFCommutator2 as SDFCommutator2.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF2_2 as RADIX22FFT_SDF2_2.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_CTRL1_2 as RADIX22FFT_CTRL1_2.vhd.
### Working on HDLFFT128/dsp.HDLFFT/TWDLROM_3_1 as TWDLROM_3_1.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF1_3/Complex4Multiply as Complex4Multiply.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF1_3/SDFCommutator3 as SDFCommutator3.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF1_3 as RADIX22FFT_SDF1_3.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_CTRL1_3 as RADIX22FFT_CTRL1_3.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF2_4/SDFCommutator4 as SDFCommutator4.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF2_4 as RADIX22FFT_SDF2_4.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_CTRL1_4 as RADIX22FFT_CTRL1_4.vhd.
### Working on HDLFFT128/dsp.HDLFFT/TWDLROM_5_1 as TWDLROM_5_1.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF1_5/Complex4Multiply as Complex4Multiply_block.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF1_5/SDFCommutator5 as SDFCommutator5.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF1_5 as RADIX22FFT_SDF1_5.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_CTRL1_5 as RADIX22FFT_CTRL1_5.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF2_6/SDFCommutator6 as SDFCommutator6.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF2_6 as RADIX22FFT_SDF2_6.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_CTRL1_6 as RADIX22FFT_CTRL1_6.vhd.
### Working on HDLFFT128/dsp.HDLFFT/TWDLROM_7_1 as TWDLROM_7_1.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF1_7/Complex4Multiply as Complex4Multiply_block1.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF1_7/SDFCommutator7 as SDFCommutator7.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_SDF1_7 as RADIX22FFT_SDF1_7.vhd.
### Working on HDLFFT128/dsp.HDLFFT/RADIX22FFT_CTRL1_1 as RADIX22FFT_CTRL1_1_block.vhd.
### Working on HDLFFT128/dsp.HDLFFT as dsp_HDLFFT.vhd.
### Working on HDLFFT128 as HDLFFT128.vhd.
### Generating package file HDLFFT128_pkg.vhd.
### Generating Resource Utilization Report resource_report.html.
### Code generation successful: View report
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