Andrew,

We did not change the behavior of this routine from threading point of view. We need to check the problem on 

our side. Is that 64 bit code? 

--Gennady

Hi Gennady,

Its 64-bit.

The issue is 100% reproducible when running our regression testing, but I expect, of course, it will likely be very difficult to reproduce in a test example. As I noted, changing the code to use zgemm, causes the issue to go away. Change it back to zgemm3m, and the issue returns.

If I break when the problematic code is running I see only one active thread , stopped in mkl_avx.dll. The other omp threads are present but sleeping. I don't see any other problems like this when calling other BLAS/LAPACK functions.

Andrew

Ok, Thanks Andrew.

1. I am not sure I understand reason  /DMKL_DIRECT_CALL option for such problem sizes. May you try don't use this option and then set MKL_VERBOSE to check how many threads would e used by zgemm3m? 

2. you said -- MKL 2015. it seem you mentioned MKL v 11.3. Could you please have a look at the mkl_version.h file and let me know the exact version from there? 

regards, Gennady

We use MKL_DIRECT=1 in our code because problem sizes vary from 4x4 matrices to 11,000x11,000 matrices. When I say MKL 2015, I mean the version shipped with Intel Parallel Studio 2015.

Gennady

Here are some interesting results

With MKL_DIRECT=1, MKL_VERBOSE=1 MKL_DIRECT_CALL_SEQ is not defined.

I do not see any output from calls to 'zgemm3m' ( though I do see output from some other MKL routines). I am assuming this means zgemm3m_direct does not print anything with MKL_VERBOSE=1

With MKL_DIRECT undefined, MKL_VERBOSE=1

• The issue I was seeing goes away ( all threads are used in all calls to zgemm3m)
• Sample output below

MKL_VERBOSE ZGEMM3M(N,N,4122,4122,4122,000000000012E150,00000000A6740040,4122,00
00000160700040,4122,000000000012E1B8,0000000140060040,4122) 5.08s CNR:OFF Dyn:1
FastMM:1 TID:0  NThr:4 WDiv:HOST:+0.000

So my conclusion would be that 'something' in zgemm3m_direct that turns off threading even for large matrices - but not always?

Obviously the workaround is to turn off MKL_DIRECT, this is acceptable for some small loss of performance for some cases.

You are right, MKL_VERBOSE does not work when MKL_DIRECT_CALL or MKL_DIRECT_CALL_SEQ is defined.

MKL_DIRECT_CALL_SEQ tells MKL to run sequentially. If you have large matrices where threading can help, then we need to define MKL_DIRECT_CALL only. If we also define MKL_DIRECT_CALL_SEQ, then MKL will run all GEMMs in single thread.

Looking at the dll file above, you saw this on 4-core Windows AVX system, is this correct?

Processor   Intel(R) Xeon(R) CPU E5-1620 v2 @ 3.70GHz, 3701 Mhz, 4 Core(s), 8 Logical Processor(s)

Just to be clear

• I do not #define MKL_DIRECT_CALL_SEQ
• And the issue is that the threading behaviour of zgemm3m(_direct) seems to change during the execution of a running program  when passed the same matrix structure (square 4122x4122). Looking at mkl_direct_call.h I understand the mkl_direct_call_flag is passed as either 1,0 to indicate sequential or parallel operation, but I can't see any issue there as it's a local variable.

I see, you observe this issue when you define MKL_DIRECT_CALL only? Yes, this is a local variable and its value only depends on whether MKL_DIRECT_CALL_SEQ or MKL_DIRECT_CALL is defined. The value should remain the same for each call.

You only observe 1-thread execution when MKL_DIRECT_CALL is defined. If you undefine it, everything works as expected, is this correct? And, zgemm doesn't suffer from the same problem, right?

Murat Efe Guney (Intel) wrote:

I see, you observe this issue when you define MKL_DIRECT_CALL only? Yes, this is a local variable and its value only depends on whether MKL_DIRECT_CALL_SEQ or MKL_DIRECT_CALL is defined. The value should remain the same for each call.

You only observe 1-thread execution when MKL_DIRECT_CALL is defined. If you undefine it, everything works as expected, is this correct? And, zgemm doesn't suffer from the same problem, right?

 

Correct. There are two separate workarounds

- #undefine MKL_DIRECT

OR

- Replace zgemm3m by zgemm

Andrew,

Do you have enough free RAM available on the system when execute this case? We asking because of MKL allocated different memory pool depends of #of threads. For example specifically with your case, zgemm3m, 4122x4122,

MKL 2018 allocates (this is easy to check by using mkl_mem_stat() routine:

1 thr:  883.356850 MB or 926266792 bytes in 7 buffers

2 thr:  894.398720 MB or 937845032 bytes in 11 buffers

4 thr:  916.482460 MB or 961001512 bytes in 19 buffers

8 thr:  960.649940 MB or 1007314472 bytes in 35 buffers

Many gigabytes of free RAM

The only way I found around this issue was to change my code that calls zgemm3m by "expanding" the zgemm3m macro myself and making sure that the 'real' zgemm3m is called , not zgemm3m_direct

#ifdef MKL_DIRECT_CALL
#undef zgemm3m
		if (MKL_DC_GEMM3M_CHECKSIZE(&m, &n, &k)) {
			mkl_dc_zgemm((char *)&transa, (char *)&transb, (int *)&m, (int *)&n, (int *)&k, (MKL_Complex16 *)&alpha, (MKL_Complex16 *)a, (int *)&lda, (MKL_Complex16 *)b, (int *)&ldb, (MKL_Complex16 *)&beta, (MKL_Complex16 *)c, (int *)&ldc);
		}
		else {
			zgemm3m((char *)&transa, (char *)&transb, (int *)&m, (int *)&n, (int *)&k, (MKL_Complex16 *)&alpha, (MKL_Complex16 *)a, (int *)&lda, (MKL_Complex16 *)b, (int *)&ldb, (MKL_Complex16 *)&beta, (MKL_Complex16 *)c, (int *)&ldc);
		}
#else
		zgemm3m((char *)&transa, (char *)&transb, (int *)&m, (int *)&n, (int *)&k, (MKL_Complex16 *)&alpha, (MKL_Complex16 *)a, (int *)&lda, (MKL_Complex16 *)b, (int *)&ldb, (MKL_Complex16 *)&beta, (MKL_Complex16 *)c, (int *)&ldc);
#endif