SPEC® MPIM2007 Result

SGI

SGI Altix ICE 8400EX
(Intel Xeon X5690, 3.46 GHz)

SPECmpiM_peak2007 = 76.1

SPECmpiM_base2007 = 73.1

MPI2007 license:	4	Test date:	Jun-2011
Test sponsor:	SGI	Hardware Availability:	Feb-2011
Tested by:	SGI	Software Availability:	Aug-2011

Results Table

Benchmark	Base							Peak
Benchmark	Ranks	Seconds	Ratio	Seconds	Ratio	Seconds	Ratio	Ranks	Seconds	Ratio	Seconds	Ratio	Seconds	Ratio
Results appear in the order in which they were run. Bold underlined text indicates a median measurement.
104.milc	768	18.7	83.6	15.8	98.9	15.9	98.6	768	18.7	83.6	15.8	98.9	15.9	98.6
107.leslie3d	768	53.8	96.9	53.9	96.8	53.6	97.5	768	53.8	96.9	53.9	96.8	53.6	97.5
113.GemsFDTD	768	360	17.5	358	17.6	359	17.6	192	238	26.5	238	26.5	238	26.5
115.fds4	768	14.9	131	15.7	124	15.1	129	696	14.6	133	20.7	94.0	14.8	132
121.pop2	768	114	36.3	114	36.3	114	36.2	768	114	36.3	114	36.3	114	36.2
122.tachyon	768	28.2	99.1	28.3	99.0	28.3	98.9	768	28.2	99.1	28.3	99.0	28.3	98.9
126.lammps	768	130	22.4	130	22.4	129	22.5	192	127	22.9	127	22.9	127	22.9
127.wrf2	768	53.9	145	53.8	145	54.0	144	768	53.9	145	53.8	145	54.0	144
128.GAPgeofem	768	15.2	136	15.0	137	15.0	138	768	15.2	136	15.0	137	15.0	138
129.tera_tf	768	32.2	86.0	32.2	86.0	32.2	85.9	768	32.2	86.0	32.2	86.0	32.2	85.9
130.socorro	768	63.8	59.8	64.1	59.6	64.6	59.1	768	63.8	59.8	64.1	59.6	64.6	59.1
132.zeusmp2	768	33.3	93.1	33.3	93.1	33.4	92.8	528	32.4	95.6	32.4	95.7	32.3	96.1
137.lu	768	35.9	102	35.9	102	35.9	102	504	34.1	108	34.1	108	34.1	108

Hardware Summary
Type of System:	Homogeneous
Compute Node:	SGI Altix ICE 8400EX Compute Node
Interconnect:	InfiniBand (MPI and I/O)
File Server Node:	SGI InfiniteStorage Nexis 2000 NAS
Total Compute Nodes:	64
Total Chips:	128
Total Cores:	768
Total Threads:	1536
Total Memory:	1536 GB
Base Ranks Run:	768
Minimum Peak Ranks:	192
Maximum Peak Ranks:	768

Software Summary
C Compiler:	Intel C++ Composer XE 2011 for Linux, Version 12.0.3.174 Build 20110309
C++ Compiler:	Intel C++ Composer XE 2011 for Linux, Version 12.0.3.174 Build 20110309
Fortran Compiler:	Intel Fortran Composer XE 2011 for Linux, Version 12.0.3.174 Build 20110309
Base Pointers:	64-bit
Peak Pointers:	64-bit
MPI Library:	SGI MPT 2.04 Patch 10789
Other MPI Info:	OFED 1.4.2
Pre-processors:	None
Other Software:	None

Node Description: SGI Altix ICE 8400EX Compute Node

Hardware
Number of nodes:	64
Uses of the node:	compute
Vendor:	SGI
Model:	SGI Altix ICE 8400EX (Intel Xeon X5690, 3.46 GHz)
CPU Name:	Intel Xeon X5690
CPU(s) orderable:	1-2 chips
Chips enabled:	2
Cores enabled:	12
Cores per chip:	6
Threads per core:	2
CPU Characteristics:	Six Core, 3.46 GHz, 6.4 GT/s QPI Intel Turbo Boost Technology up to 3.73 GHz Hyper-Threading Technology enabled
CPU MHz:	3467
Primary Cache:	32 KB I + 32 KB D on chip per core
Secondary Cache:	256 KB I+D on chip per core
L3 Cache:	12 MB I+D on chip per chip
Other Cache:	None
Memory:	24 GB (6 x 4 GB 2Rx4 PC3-10600R-9, ECC)
Disk Subsystem:	None
Other Hardware:	None
Adapter:	Mellanox MT26428 ConnectX IB QDR (PCIe x8 Gen2 5 GT/s)
Number of Adapters:	2
Slot Type:	PCIe x8 Gen2
Data Rate:	InfiniBand 4x QDR
Ports Used:	1
Interconnect Type:	InfiniBand

Software
Adapter:	Mellanox MT26428 ConnectX IB QDR (PCIe x8 Gen2 5 GT/s)
Adapter Driver:	OFED-1.4.2
Adapter Firmware:	2.7.8200
Operating System:	SUSE Linux Enterprise Server 11 SP1, Kernel 2.6.32.13-0.4-default
Local File System:	NFSv3
Shared File System:	NFSv3 IPoIB
System State:	Multi-user, run level 3
Other Software:	SGI ProPack 7SP1 for Linux, Build 701r3.sles11-1005252113 SGI Tempo Compute Node 2.1, Build 701r3.sles11-1005252113

Node Description: SGI InfiniteStorage Nexis 2000 NAS

Hardware
Number of nodes:	1
Uses of the node:	fileserver
Vendor:	SGI
Model:	SGI Altix XE 270 (Intel Xeon X5670, 2.93 GHz)
CPU Name:	Intel Xeon X5670
CPU(s) orderable:	1-2 chips
Chips enabled:	2
Cores enabled:	12
Cores per chip:	6
Threads per core:	2
CPU Characteristics:	Intel Turbo Boost Technology up to 3.33 GHz Hyper-Threading Technology enabled
CPU MHz:	2933
Primary Cache:	32 KB I + 32 KB D on chip per core
Secondary Cache:	256 KB I+D on chip per chip
L3 Cache:	12 MB I+D on chip per chip
Other Cache:	None
Memory:	96 GB (12*8 GB DDR3-1333 CL9 DIMMs)
Disk Subsystem:	8.8 TB RAID 5 60 x 146 GB SAS (Seagate Cheetah 15K.5)
Other Hardware:	None
Adapter:	Mellanox MT26428 ConnectX IB QDR (PCIe x8 Gen2 5 GT/s)
Number of Adapters:	2
Slot Type:	PCIe x8 Gen2
Data Rate:	InfiniBand 4x QDR
Ports Used:	2
Interconnect Type:	InfiniBand

Software
Adapter:	Mellanox MT26428 ConnectX IB QDR (PCIe x8 Gen2 5 GT/s)
Adapter Driver:	OFED-1.4.0
Adapter Firmware:	2.7.0
Operating System:	SUSE Linux Enterprise Server 11 (x86_64) Kernel 2.6.27.19-5-default
Local File System:	xfs
Shared File System:	--
System State:	Multi-user, run level 3
Other Software:	SGI Foundation Software 2, Build 700r3.sles11-1004061553

Interconnect Description: InfiniBand (MPI and I/O)

Hardware
Vendor:	Mellanox Technologies and SGI
Model:	None
Switch Model:	SGI QDR_1.5_HYPR_2454 with Mellanox Device 48438 (Infiniscale IV)
Number of Switches:	16
Number of Ports:	36
Data Rate:	InfiniBand 4x QDR
Firmware:	5040005
Topology:	Enhanced Hypercube
Primary Use:	MPI and I/O traffic

Submit Notes

The config file option 'submit' was used.

General Notes

 Software environment:
   export MPI_REQUEST_MAX=65536
   export MPI_TYPE_MAX=32768
   export MPI_BUFS_THRESHOLD=1
   export MPI_IB_RAILS=2
   ulimit -s unlimited

 BIOS settings:
   AMI BIOS version 080016
   Hyper-Threading Technology enabled (default)
   Intel Turbo Boost Technology enabled (default)
   Intel Turbo Boost Technology activated in the OS via
     /etc/init.d/acpid start
     /etc/init.d/powersaved start
     powersave -f

 Job Placement:
   Each MPI job was assigned to a topologically compact set
   of nodes, i.e. the minimal needed number of switches was
   used for each job: 2 switches for up to 96 ranks,
   4 switches for 192 ranks, 8 switches for 384 ranks,
   16 switches for 768 ranks.

 Additional notes regarding interconnect:
   The Infiniband network consists of two independent planes,
   with half the switches in the system allocated to each plane.
   I/O traffic is restricted to one plane, while MPI traffic can
   use both planes.

 Peak run:
   In the peak run, some benchmarks used different number of ranks
   from base. It is the only difference between base and peak.

Compiler Invocation

C benchmarks:

icc

C++ benchmarks:

126.lammps:

icpc

Fortran benchmarks:

ifort

Benchmarks using both Fortran and C:

icc ifort

Portability Flags

121.pop2:	-DSPEC_MPI_CASE_FLAG
127.wrf2:	-DSPEC_MPI_CASE_FLAG -DSPEC_MPI_LINUX

Base Optimization Flags

C benchmarks:

-O3 -xSSE4.2 -no-prec-div

C++ benchmarks:

126.lammps:

-O3 -xSSE4.2 -no-prec-div -ansi-alias

Fortran benchmarks:

-O3 -xSSE4.2 -no-prec-div

Benchmarks using both Fortran and C:

-O3 -xSSE4.2 -no-prec-div

Peak Optimization Flags

C benchmarks:

104.milc:	basepeak = yes
122.tachyon:	basepeak = yes

C++ benchmarks:

126.lammps:

-O3 -xSSE4.2 -no-prec-div -ansi-alias

Fortran benchmarks:

107.leslie3d:	basepeak = yes
113.GemsFDTD:	-O3 -xSSE4.2 -no-prec-div
129.tera_tf:	basepeak = yes
137.lu:	Same as 113.GemsFDTD

Benchmarks using both Fortran and C:

115.fds4:	-O3 -xSSE4.2 -no-prec-div
121.pop2:	basepeak = yes
127.wrf2:	basepeak = yes
128.GAPgeofem:	basepeak = yes
130.socorro:	basepeak = yes
132.zeusmp2:	Same as 115.fds4

Other Flags

C benchmarks:

-lmpi

C++ benchmarks:

126.lammps:

-lmpi

Fortran benchmarks:

-lmpi

Benchmarks using both Fortran and C:

-lmpi

The flags file that was used to format this result can be browsed at
http://www.spec.org/mpi2007/flags/SGI_x86_64_Intel12_flags.html.

You can also download the XML flags source by saving the following link:
http://www.spec.org/mpi2007/flags/SGI_x86_64_Intel12_flags.xml.