Difference between revisions of "User:Manoj"

From UFRC
Jump to navigation Jump to search
Line 144: Line 144:
 
|-
 
|-
 
|Naive||158||174||399||274
 
|Naive||158||174||399||274
 +
|-
 +
|MKL||97||174||399||274
 +
 
|}
 
|}

Revision as of 22:21, 13 December 2012

VASP BENCHMARKING

Performance on Intel Machine ( E5-2643 @ 3.30GHz)

VASP Naive FFT Library

Following library and flags were used:

MKLDIR    = $(HPC_MKL_DIR)
MKLLIBS   = -lmkl_intel_lp64 -lmkl_sequential -lmkl_core
MKLLIBDIR = $(HPC_MKL_DIR)/lib/intel64
FFTLIB = -lfftw3xf
INCS = -I$(MKLDIR)/include/fftw
FFT_OBJS = fftmpi.o fftmpi_map.o fftw3d.o fft3dlib.o
FFLAGS =  -free -names lowercase -assume byterecl
OFLAG  = -O2 -xsse2 -unroll-aggressive -warn general

As a first check, SIMD were changed and following is the result for MgMOS (For input file, please ask Charles Taylor or Manoj Srivastava):

SIMD Instruction Time(s)
sse2 158
sse4.1 156
sse4.2 155
avx 155
ssse3 156

MKL FFTs (via FFTW wrappers)

Upon profiling the code, we found that the code spends most of its time in the FFT libraries, so the next step is to change FFTW libraries. Following changes were made:

FFT_OBJS = fftmpi_map.o fftmpiw.o fftw3d.o fft3dlib.o

(The change here is replacement of "fftmpi.o" of the original VASP makefile with "fftmpiw.o")

MKLDIR    = $(HPC_MKL_DIR)
MKLLIBS   = -lmkl_intel_lp64 -lmkl_sequential -lmkl_core
MKLLIBDIR = $(HPC_MKL_DIR)/lib/intel64
FFTLIB = -lfftw3xf
INCS = -I$(MKLDIR)/include/fftw
FFLAGS = -free -names lowercase -assume byterecl
OFLAG  = -O2 -xsse2 -unroll-aggressive -warn general

Upon making above changes, about 60% improvement on the run time of the code was found on the Intel machine (E5-2643 @ 3.30GHz). Following table depicts the run time variation with SIMD instruction sets:

SIMD Instruction Time(s)
sse2 97
sse4.1 95
sse4.2 94
avx 94
ssse3 94

FFTW FFTs

We further compiled VASP by using FFT library from FFTW with following flags:

MKLDIR    = $(HPC_MKL_DIR)
MKLLIBS   = -lmkl_intel_lp64 -lmkl_sequential -lmkl_core
MKLLIBDIR = $(HPC_MKL_DIR)/lib/intel64
FFTWDIR = /apps/fftw/3.3.2
FFTLIB  = -L$(FFTWDIR)/lib -lfftw3
INCS = -I$(FFTWDIR)/include
FFT_OBJS = fftmpi_map.o fftmpiw.o fftw3d.o fft3dlib.o
FFLAGS =  -free -names lowercase -assume byterecl
OFLAG  = -O2 -xsse2 -unroll-aggressive -warn general

From our previous experience, we conclude that the performance of VASP does not depend substantially on the SIMD instruction sets, so for FFTW library, we only tried one set. Following is the result:

SIMD Instruction Time(s)
sse2 118

Performance on AMD Machine (Opteron 6220 @ 3.0 GHz)

This machine has 16 cores, in numactl terminology numanodes with 4 cores on each nodes. As the result of VASP depends heavily on the choice of FFT libraries, we checked various performance of this machine with different FFTs, namely, FFT provided by VASP package, MKL, and FFTW. We build FFTW libraries with various flags to see if we could find a better choice for FFTs. The libraries and flags used to compile VASP are as follows (FFT libraries were changed depending on which FFT we want to use):

MKLDIR    = $(HPC_MKL_DIR)
MKLLIBS   = -lmkl_intel_lp64 -lmkl_sequential -lmkl_core
MKLLIBDIR = $(HPC_MKL_DIR)/lib/intel64
FFTWDIR = /apps/fftw/3.3.2
FFTLIB  = -L$(FFTWDIR)/lib -lfftw3
INCS = -I$(FFTWDIR)/include
FFT_OBJS = fftmpi_map.o fftmpiw.o fftw3d.o fft3dlib.o
FFLAGS =  -free -names lowercase -assume byterecl
OFLAG  = -O2 -xsse2 -unroll-aggressive -warn general

The results are summarized in the following table:

FFT Library Shared L2-Cached time(s) Exclusive L2-Cache time (s) Notes
Naive (VASP) 399
MKL 261 159
FFTW 333 217 1
FFTW - 203 2
FFTW - 210 3
FFTW - 217 4
FFTW - 213 5

1 No Flags were used to build FFT.
2 CFLAG=-O3, FFLAG=-O3, -enable sse2
3 enable-mpi CFLAG=-O3, FFLAG=-O3, -enable sse2
4 CC='opencc -march=bdver1' F77='openf90 -march=bdver1' CFLAGS='-msse3 -msse4.1 -msse4.2 -msse4a -mfma4 -O2'  FFLAGS='-msse3 -msse4.1 -msse4.2 -msse4a -mfma4 -O2' --enable-fma --enable-mpi
5 FFLAGS/ CFLAGS="-OPT:Ofast -mavx -mfma4 -march=bdver1 -O3 -fomit-frame-pointer -LNO:simd=2 -WOPT:sib=on -LNO:prefetch=2:pf2=0 -CG:use_prefetchnta=on -LNO:prefetch_ahead=4-malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math"

Performance Comparison of Intel ( E5-2643 @ 3.30GHz) and AMD (Opteron 6220 @ 3.0 GHz) machine

Following is a summary of results for the test case of MgMOS ran on the machines with 8 threads.

FFT Library Intel (No Clock Scaling) Intel (Scaled Clock) AMD (Shared Cache) AMD (Exclusive Cache)
Naive 158 174 399 274
MKL 97 174 399 274