Visible to Intel only — GUID: GUID-52AC6678-B845-4309-A0B1-3ED1B92321D8
Visible to Intel only — GUID: GUID-52AC6678-B845-4309-A0B1-3ED1B92321D8
Inspecting JIT Code
oneDNN uses just-in-time compilation (JIT) to generate optimal code for some functions based on input parameters and the instruction set supported by the system. The library provides a mechanism to save the generated code into a file for inspection.
This behavior can be enabled with the ONEDNN_JIT_DUMP environment variable or dnnl_set_jit_dump function.
Value |
Behavior |
---|---|
0 |
JIT dump is disabled (default) |
any other value |
JIT dump is enabled |
The function setting takes precedence over the environment variable.
Example (CPU)
$ ONEDNN_JIT_DUMP=1 ./cnn-inference-f32-cpp
This will produce the following output files if running on a CPU supporting Intel(R) Advanced Vector Extensions 2 (Intel AVX2):
dnnl_dump_cpu_jit_avx2_conv_fwd_kernel_f32.1.bin
...
dnnl_dump_cpu_jit_avx_gemv_t_f32_kern.30.bin
Use any disassembler to view the code. For example:
objdump -D -b binary -mi386:x86-64 file.bin;
xed -64 -ir file.bin
XED is a decoder tool available as part as Intel Software Development Emulator (Intel SDE).
Example (GPU)
$ ONEDNN_JIT_DUMP=1 ./simple-net-cpp gpu
This will produce the following output files if running on Intel Processor Graphics Gen9:
dnnl_dump_gpu_simple_reorder.0.bin
dnnl_dump_gpu_gen9_conv_fwd.1.bin
...
Use Intel GPU ISA disassembler to disassemble a kernel:
iga64 -d -p=9 file.bin (usage: -p=<PLATFORM>)
Links: