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Added initial scripts and configs to get HPL compiled on
raspberry pi4 and get reasonable performance
This commit is contained in:
Arif Ali 2020-06-10 11:53:11 +00:00
commit c6a6912094
10 changed files with 326 additions and 0 deletions
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16
README.md Normal file
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This is a collection of scripts and configuration that would
allow to compile and run the benchmark in a consistent way
The following will clone, and compile all the stuff
```bash
git clone https://gitlab.arif-ali.co.uk:8543/arif/raspberrypi-hpl
cd raspberrypi-hpl/scripts
./compile_all.sh
```
Then we can run the benchmark using the following script
```bash
./run_job.sh
```

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configs/HPL.dat Normal file
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HPLinpack benchmark input file
Innovative Computing Laboratory, University of Tennessee
HPL.out output file name (if any)
6 device out (6=stdout,7=stderr,file)
2 # of problems sizes (N)
17280 17280 Ns
5 # of NBs
192 192 192 192 192 NBs
0 PMAP process mapping (0=Row-,1=Column-major)
1 # of process grids (P x Q)
1 1 1 1 1 Ps
1 1 1 1 1 Qs
16.0 threshold
1 # of panel fact
2 PFACTs (0=left, 1=Crout, 2=Right)
1 # of recursive stopping criterium
4 NBMINs (>= 1)
1 # of panels in recursion
2 NDIVs
1 # of recursive panel fact.
1 RFACTs (0=left, 1=Crout, 2=Right)
1 # of broadcast
1 BCASTs (0=1rg,1=1rM,2=2rg,3=2rM,4=Lng,5=LnM)
1 # of lookahead depth
1 DEPTHs (>=0)
2 SWAP (0=bin-exch,1=long,2=mix)
64 swapping threshold
0 L1 in (0=transposed,1=no-transposed) form
0 U in (0=transposed,1=no-transposed) form
1 Equilibration (0=no,1=yes)
8 memory alignment in double (> 0)
##### This line (no. 32) is ignored (it serves as a separator). ######
0 Number of additional problem sizes for PTRANS
1200 10000 30000 values of N
0 number of additional blocking sizes for PTRANS
40 9 8 13 13 20 16 32 64 values of NB

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#
# -- High Performance Computing Linpack Benchmark (HPL)
# HPL - 2.3 - December 2, 2018
# Antoine P. Petitet
# University of Tennessee, Knoxville
# Innovative Computing Laboratory
# (C) Copyright 2000-2008 All Rights Reserved
#
# -- Copyright notice and Licensing terms:
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
#
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
#
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions, and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
#
# 3. All advertising materials mentioning features or use of this
# software must display the following acknowledgement:
# This product includes software developed at the University of
# Tennessee, Knoxville, Innovative Computing Laboratory.
#
# 4. The name of the University, the name of the Laboratory, or the
# names of its contributors may not be used to endorse or promote
# products derived from this software without specific written
# permission.
#
# -- Disclaimer:
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE UNIVERSITY
# OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
# ######################################################################
#
# ----------------------------------------------------------------------
# - shell --------------------------------------------------------------
# ----------------------------------------------------------------------
#
SHELL = /bin/sh
#
CD = cd
CP = cp
LN_S = ln -fs
MKDIR = mkdir -p
RM = /bin/rm -f
TOUCH = touch
#
# ----------------------------------------------------------------------
# - Platform identifier ------------------------------------------------
# ----------------------------------------------------------------------
#
ARCH = rpi4-mpich
#
# ----------------------------------------------------------------------
# - HPL Directory Structure / HPL library ------------------------------
# ----------------------------------------------------------------------
#
TOPdir = $(HOME)/rpi-hpl-workdir/hpl-2.3
INCdir = $(TOPdir)/include
BINdir = $(TOPdir)/bin/$(ARCH)
LIBdir = $(TOPdir)/lib/$(ARCH)
#
HPLlib = $(LIBdir)/libhpl.a
#
# ----------------------------------------------------------------------
# - Message Passing library (MPI) --------------------------------------
# ----------------------------------------------------------------------
# MPinc tells the C compiler where to find the Message Passing library
# header files, MPlib is defined to be the name of the library to be
# used. The variable MPdir is only used for defining MPinc and MPlib.
#
MPdir = /opt/mpich/3.3.2
MPinc = -I$(MPdir)/include
MPlib = $(MPdir)/lib/libmpi.a
#
# ----------------------------------------------------------------------
# - Linear Algebra library (BLAS or VSIPL) -----------------------------
# ----------------------------------------------------------------------
# LAinc tells the C compiler where to find the Linear Algebra library
# header files, LAlib is defined to be the name of the library to be
# used. The variable LAdir is only used for defining LAinc and LAlib.
#
LAdir = /opt/OpenBLAS
LAinc = $(LAdir)/include
LAlib = $(LAdir)/lib/libopenblas.a -lpthread
#
# ----------------------------------------------------------------------
# - F77 / C interface --------------------------------------------------
# ----------------------------------------------------------------------
# You can skip this section if and only if you are not planning to use
# a BLAS library featuring a Fortran 77 interface. Otherwise, it is
# necessary to fill out the F2CDEFS variable with the appropriate
# options. **One and only one** option should be chosen in **each** of
# the 3 following categories:
#
# 1) name space (How C calls a Fortran 77 routine)
#
# -DAdd_ : all lower case and a suffixed underscore (Suns,
# Intel, ...), [default]
# -DNoChange : all lower case (IBM RS6000),
# -DUpCase : all upper case (Cray),
# -DAdd__ : the FORTRAN compiler in use is f2c.
#
# 2) C and Fortran 77 integer mapping
#
# -DF77_INTEGER=int : Fortran 77 INTEGER is a C int, [default]
# -DF77_INTEGER=long : Fortran 77 INTEGER is a C long,
# -DF77_INTEGER=short : Fortran 77 INTEGER is a C short.
#
# 3) Fortran 77 string handling
#
# -DStringSunStyle : The string address is passed at the string loca-
# tion on the stack, and the string length is then
# passed as an F77_INTEGER after all explicit
# stack arguments, [default]
# -DStringStructPtr : The address of a structure is passed by a
# Fortran 77 string, and the structure is of the
# form: struct {char *cp; F77_INTEGER len;},
# -DStringStructVal : A structure is passed by value for each Fortran
# 77 string, and the structure is of the form:
# struct {char *cp; F77_INTEGER len;},
# -DStringCrayStyle : Special option for Cray machines, which uses
# Cray fcd (fortran character descriptor) for
# interoperation.
#
F2CDEFS =
#
# ----------------------------------------------------------------------
# - HPL includes / libraries / specifics -------------------------------
# ----------------------------------------------------------------------
#
HPL_INCLUDES = -I$(INCdir) -I$(INCdir)/$(ARCH) -I$(LAinc) $(MPinc)
HPL_LIBS = $(HPLlib) $(LAlib) $(MPlib) -lrt -lbacktrace
#
# - Compile time options -----------------------------------------------
#
# -DHPL_COPY_L force the copy of the panel L before bcast;
# -DHPL_CALL_CBLAS call the cblas interface;
# -DHPL_CALL_VSIPL call the vsip library;
# -DHPL_DETAILED_TIMING enable detailed timers;
#
# By default HPL will:
# *) not copy L before broadcast,
# *) call the BLAS Fortran 77 interface,
# *) not display detailed timing information.
#
HPL_OPTS = -DHPL_DETAILED_TIMING -DHPL_PROGRESS_REPORT -DHPL_CALL_CBLAS
#
# ----------------------------------------------------------------------
#
HPL_DEFS = $(F2CDEFS) $(HPL_OPTS) $(HPL_INCLUDES)
#
# ----------------------------------------------------------------------
# - Compilers / linkers - Optimization flags ---------------------------
# ----------------------------------------------------------------------
#
CC = gcc
CCNOOPT = $(HPL_DEFS)
CCFLAGS = $(HPL_DEFS) -fomit-frame-pointer -O3 -funroll-loops -W -Wall -mtune=cortex-a72
#
# On some platforms, it is necessary to use the Fortran linker to find
# the Fortran internals used in the BLAS library.
#
LINKER = $(CC)
LINKFLAGS = $(CCFLAGS)
#
ARCHIVER = ar
ARFLAGS = r
RANLIB = echo
#
# ----------------------------------------------------------------------

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export DOWNLOADS=~/Downloads
export WORKDIR=~/rpi-hpl-workdir
export SCRIPTSDIR=${PWD}
export SERVICES="snap.lxd.daemon snap.lxd.daemon.unix.socket postfix systemd-timesyncd wpa_supplicant snapd snapd.apparmor.service systemd-resolved snapd.service snapd.socket"
# Flags based on https://en.wikichip.org/wiki/arm_holdings/microarchitectures/cortex-a72
export COMMON_FLAGS="-mtune=cortex-a72"

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scripts/compile_all.sh Executable file
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#!/bin/bash
. CONFIG
mkdir -p ${DOWNLOADS}
mkdir -p ${WORKDIR}
./install_deps.sh
./make_mpich.sh
./make_openblas.sh
./make_hpl.sh

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scripts/install_deps.sh Executable file
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#!/bin/bash
sudo apt update
sudo apt -y upgrade
dep_pkgs="gcc g++ gfortran make"
sudo apt -y install ${dep_pkgs}

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scripts/make_hpl.sh Executable file
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#!/bin/bash
. CONFIG
version=2.3
package=hpl
rm -rf ${package}-${version}
rm -rf ${WORKDIR}/${package}-${version}
wget https://www.netlib.org/benchmark/hpl/${package}-${version}.tar.gz -O ${DOWNLOADS}/${package}-${version}.tar.gz
cd ${WORKDIR}
tar xfz ${DOWNLOADS}/${package}-${version}.tar.gz
cd ${package}-${version}
cp ${SCRIPTSDIR}/../configs/Make.rpi4-mpich .
make arch=rpi4-mpich -j 3 cleab_arch
make arch=rpi4-mpich -j 3 install

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scripts/make_mpich.sh Executable file
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#!/bin/bash
version=3.3.2
package=mpich
rm -rf ${package}-${version}
rm -rf ${WORKDIR}/${package}-${version}
wget http://www.mpich.org/static/downloads/${version}/${package}-${version}.tar.gz -O ${DOWNLOADS}/${package}-${version}.tar.gz
cd ${WORKDIR}
tar xfz ${DOWNLOADS}/${package}-${version}.tar.gz
cd ${package}-${version}
export CFLAGS=${COMMON_FLAGS}
export FCFLAGS=${COMMON_FLAGS}
export LDFLAGS=${COMMON_FLAGS}
./configure --prefix=/opt/${package}/${version}
make -j 3
sudo make -j 3 install

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scripts/make_openblas.sh Executable file
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#!/bin/bash
. CONFIG
version=develop
package=OpenBLAS
rm -rf ${package}-${version}
rm -rf ${WORKDIR}/${package}-${version}
wget https://github.com/xianyi/OpenBLAS/archive/develop.tar.gz -O ${DOWNLOADS}/${package}-${version}.tar.gz
cd ${WORKDIR}
tar xfz ${DOWNLOADS}/${package}-${version}.tar.gz
cd ${package}-${version}
make -j 3
sudo make -j 3 install

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scripts/run_job.sh Executable file
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#!/bin/bash
. CONFIG
sudo systemctl stop ${SERVICES}
cd ${SCRIPTSDIR}/../configs
${WORKDIR}/hpl-2.3/bin/rpi4-mpich/xhpl