Testbench for floating point model-hdl coder
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My design consists of floating point test generator and the algorithmic model. I could generate verilog code for algorithmic model . However I need the procedure to convert the test generator as a verilog testbench so that I could check it in modelsim
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Kiran Kintali
el 12 de Mayo de 2021
you can try one of the basic example models with floating point and try to generte code and testbench. check documentation for floating point code generation and testbench related options.
>> sfir_single
% Generate HDL Coder for floating point model <================
>> makehdl('sfir_single/symmetric_fir')
### Generating HDL for 'sfir_single/symmetric_fir'.
### Using the config set for model sfir_single for HDL code generation parameters.
### Running HDL checks on the model 'sfir_single'.
### Begin compilation of the model 'sfir_single'...
### Applying HDL optimizations on the model 'sfir_single'...
### The code generation and optimization options you have chosen have introduced additional pipeline delays.
### The delay balancing feature has automatically inserted matching delays for compensation.
### The DUT requires an initial pipeline setup latency. Each output port experiences these additional delays.
### Output port 1: 42 cycles.
### Output port 2: 42 cycles.
### Begin model generation.
### Model generation complete.
### Begin VHDL Code Generation for 'sfir_single'.
### Working on sfir_single/symmetric_fir/nfp_add_single as hdlsrc\sfir_single\nfp_add_single.vhd.
### Working on sfir_single/symmetric_fir/nfp_mul_single as hdlsrc\sfir_single\nfp_mul_single.vhd.
### Working on sfir_single/symmetric_fir as hdlsrc\sfir_single\symmetric_fir.vhd.
### Generating package file hdlsrc\sfir_single\symmetric_fir_pkg.vhd.
### Code Generation for 'sfir_single' completed.
### Creating HDL Code Generation Check Report symmetric_fir_report.html
### HDL check for 'sfir_single' complete with 0 errors, 0 warnings, and 0 messages.
### HDL code generation complete.
% Generate Test Bench <================
>> makehdltb('sfir_single/symmetric_fir')
### Begin TestBench generation.
### Generating HDL TestBench for 'sfir_single/symmetric_fir'.
### Begin compilation of the model 'sfir_single'...
### Begin compilation of the model 'gm_sfir_single'...
### Begin simulation of the model 'gm_sfir_single'...
### Collecting data...
### Generating test bench data file: hdlsrc\sfir_single\x_in.dat.
### Generating test bench data file: hdlsrc\sfir_single\y_out_expected.dat.
### Generating test bench data file: hdlsrc\sfir_single\delayed_xout_expected.dat.
### Working on symmetric_fir_tb as hdlsrc\sfir_single\symmetric_fir_tb.vhd.
### Generating package file hdlsrc\sfir_single\symmetric_fir_tb_pkg.vhd.
### HDL TestBench generation complete.
>>
Kiran Kintali
el 13 de Mayo de 2021
You can use the HDL Coder toolstrip or configset to generate code and testbench from the UI.
HDL Coder generates code for the design shown here. If you have sources (waveform generators, constants...) and sinks (display, log to workspace or plots), HDLCoder can detect data flowing into the design (stimulus) and out of design (response) and generate a HDL testbench. The testbench can be run to ensure generated HDL code matches the simulation results in Simulink.
check this page for details on how HDL Coder testbench runs
web(fullfile(docroot, 'hdlcoder/ug/test-bench-generation.html'))
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