valgrind to one of my open-source OpenCL codes (https://github.com/fangq/mmc), and it detected a lot of memory leaks in the OpenCL host code. Most of those pointed back to the line where I created the context object using
I double checked all my OpenCL variables, command queues, kernels and programs, and made sure that they are all properly released, but still, when testing on sample programs, every call to the
mmc_run_cl() function bumps up memory by 300MB-400MB and won't release at return.
you can reproduce the valgrind report by running the below commands in a terminal:
git clone https://github.com/fangq/mmc.git cd mmc/src make clean make all cd ../examples/validation valgrind --show-leak-kinds=all --leak-check=full ../../src/bin/mmc -f cube2.inp -G 1 -s cube2 -n 1e4 -b 0 -D TP -M G -F bin
assuming you system has gcc/git/libOpenCL and valgrind installed. Change the
-G 1 input to a different number if you want to run it on other OpenCL devices (add
-L to list).
In the below table, I list the repeated count of each valgrind detected leaks on an NVIDIA GPU (TitanV) on a Linux box (Ubuntu 16.04) with the latest driver+cuda 9.
Again, most leaks are associated with the
clCreateContextFromType line, which I assume some GPU memories are not released, but I did released all GPU resources at the end of the host code.
do you notice anything that I missed in my host code? your input is much appreciated
counts | error message ------------------------------------------------------------------------------------ 380 ==27828== by 0x402C77: main (mmc.c:67) Code: entry point to the below errors 64 ==27828== by 0x41CF02: mcx_list_gpu (mmc_cl_utils.c:135) Code: OCL_ASSERT((clGetPlatformIDs(0, NULL, &numPlatforms))); 4 ==27828== by 0x41D032: mcx_list_gpu (mmc_cl_utils.c:154) Code: context=clCreateContextFromType(cps,devtype[j],NULL,NULL,&status); 58 ==27828== by 0x41DF8A: mmc_run_cl (mmc_cl_host.c:111) Code: entry point to the below errors 438 ==27828== by 0x41E006: mmc_run_cl (mmc_cl_host.c:124) Code: OCL_ASSERT(((mcxcontext=clCreateContextFromType(cprops,CL_DEVICE_TYPE_ALL,...)); 13 ==27828== by 0x41E238: mmc_run_cl (mmc_cl_host.c:144) Code: OCL_ASSERT(((mcxqueue[i]=clCreateCommandQueue(mcxcontext,devices[i],prop,&status),status))); 1 ==27828== by 0x41E7A6: mmc_run_cl (mmc_cl_host.c:224) Code: OCL_ASSERT(((gprogress=clCreateBufferNV(mcxcontext,CL_MEM_READ_WRITE, NV_PIN, ...); 1 ==27828== by 0x41E7F9: mmc_run_cl (mmc_cl_host.c:225) Code: progress = (cl_uint *)clEnqueueMapBuffer(mcxqueue, gprogress, CL_TRUE, ...); 10 ==27828== by 0x41EDFA: mmc_run_cl (mmc_cl_host.c:290) Code: status=clBuildProgram(mcxprogram, 0, NULL, opt, NULL, NULL); 7 ==27828== by 0x41F95C: mmc_run_cl (mmc_cl_host.c:417) Code: OCL_ASSERT((clEnqueueReadBuffer(mcxqueue[devid],greporter[devid],CL_TRUE,0,...));
Reading @doqtor's comment, I did the following test on 5 difference devices, 2 NVIDIA GPUs, 2 AMD GPUs and 1 Intel CPU. What he said was correct - the memory leak does not happen on the Intel OpenCL library, I also found that AMD OpenCL driver is fine too. The only problem is that NVIDIA OpenCL library seems to have a leak on both GPUs I tested (Titan V and RTX2080).
My test results are below. Memory/CPU profiling using psrecord introduced in this post.
I will open a new question and bounty on how to reduce this memory leak with NVIDIA OpenCL. If you have any experience in this, please share. will post the link below. thanks