Power Systems General Performance Report

Power Systems General Performance Report

IBM Power Systems
Performance Report
POWER8 and previous generation
Results
October 06, 2014
Table of Contents
Performance of IBM UNIX, IBM i and Linux Operating System Servers ................................ 3
Section 1 - AIX SPEC CPU2006 Performance........................................................................... 4
Section 1a - AIX SPEC CPU2000 Performance......................................................................... 4
Section 2 - AIX Multiuser Performance (rPerf, SPEC CPU2006) ............................................. 5
Section 2a - AIX Multiuser Performance (rPerf, SPEC CPU2000, SPECweb99) .................. 10
Section 2b - Power Sytems Multiuser Performance using AIX 5L V5.2 ............................... 12
Section 2c - AIX Capacity Upgrade on Demand Relative Performance Guidelines ............ 14
Section 2d - POWER8 CPW Published Results …..……………………………………………..23
Section 2e - POWER 7 and POWER7+ CPW Published Results ………………………………23
Section 3- TPC-C Version 5 Published Results ……………………..………………………….28
Section 4 – TPC-H Published Results ..................................................................................... 28
Section 5 – AIX SPECsfs97_R1 Benchmark Results ............................................................. 28
Section 5a – AIX NotesBench Published Results .................................................................. 28
Section 6 – AIX Java Benchmarks (SPECjbb2013) Results ................................................... 29
Section 6a – AIX Java Benchmarks (SPECjvm98, SPECjbb2000, SPECjbb2005) Results . 29
Section 6b - IBM i Java Benchmarks (SPECjbb2005) Published Results………..…………..30
Section 6c - AIX SPECjAppServer2010 Published Results…………………………………….31
Section 6d - AIX SPECjAppServer2004 Published Results…………………………………….31
Section 7 – SAP Standard Application Benchmarks Published Results ............................. 32
Section 8 – AIX PeopleSoft Benchmarks Published Results................................................ 33
Section 9 – AIX Oracle e-Business Suite (eBS) Benchmarks Published Results ............... 33
Section 10 – AIX Siebel Benchmarks Published Results ...................................................... 34
Section 11 – AIX Sybase Benchmarks Published Results .................................................... 35
Section 12 – AIX Manugistics Benchmarks Published Results ............................................ 35
Section 13 – Linux Published Benchmark Results ................................................................ 35
Section 14 – Historical Multiuser Performance ...................................................................... 40
Notes on Performance Benchmarks and Values ................................................................... 46
Page 2
Performance of IBM UNIX, IBM i and Linux Operating System Servers
October, 2014
This document contains performance and benchmark results for IBM servers and workstations running the UNIX®
(AIX®), IBM i and Linux® operating systems. This includes the IBM Power™ Systems servers, IBM PowerLinux
(System p™, System p5™, eServer™ p5, pSeries®, OpenPower® and IBM RS/6000®; BladeCenter® Power
Architecture® technology-based blades) and IntelliStation® POWER™ workstations.
This document contains performance results for systems based on the POWER processor through Oct. 2014.
Section One of this report includes the SPEC CPU2006 results. SPEC CPU2000 results are presented in Section
1a.
Section Two is multiuser performance. The rPerf, CPW and SPEC_rate2006 are presented in this section.
Multiuser Performance of SPEC CPU2000 along with rPerf and SPECweb99 are presented in Section 2a.
Multiuser performance using AIX® V5.2 is presented in Section 2b. Capacity Upgrade on Demand relative
performance guidelines are presented in Section 2c. Section 2d of this report includes CPW benchmark
information provided for new POWER6 processor-based servers running the IBM i operating system.
Section Three presents the TPC-C version 5 results.
Section Four provides published TPC-H results.
Section Five reflects the published SPECsfs97 benchmark results. The NotesBench results to date are presented
in Section 5a.
Section Six reflects the published SPECjvm98, SPECjbb2000 and SPECjbb2005 Java™ benchmarks.
Section Seven through Twelve include published application performance benchmarks for SAP, PeopleSoft, Oracle
Applications, Seibel, Sybase and Manugistics.
Section Thirteen contains Linux operating system performance results.
Section Fourteen is a historical list of commercial performance estimates for IBM System p™, RS/6000 models and
RS/6000 SP™ nodes that have been withdrawn from marketing. IBM has discontinued Relative OLTP results.
All performance measurements for the IBM Power™ Systems, IBM PowerLinux, IBM System p, IBM System p5,
IBM eServer p5, IBM eServer pSeries, IBM RS/6000 servers, IntelliStation POWER workstations and BladeCenter
blades were made with systems running the AIX operating system unless otherwise indicated to have used Linux.
For new and upgraded systems, AIX Version 4.3, AIX 5 or AIX 6 were used. All other systems used previous
versions of AIX.
Footnotes used in following tables:
# - System has been announced as withdrawn from marketing; * - Submitted to SPEC, waiting review; e – estimate;
n – new; u – upgrade; N/A – not available; P5 – IBM POWER5™; P5+ – IBM POWER5+™; P6 – IBM POWER6™;
P6+ – IBM POWER6+™; P7 – POWER7™, IS – IntelliStation, OP – OpenPower, PPC – PowerPC®
Changes from September version are highlighted in yellow
Page 3
Section 1 – AIX SPEC CPU2006 Performance
Model
520
520
550
550
570
570
570
570
575
575
595
595
780
780
Processor
/ # Cores
P6/1
P6/4
P6/1
P6/8
P6/1
P6/4
P6/8
P6/16
P6/1
P6/32
P6/1
P6/64
P7/16
P7/16
GHz
4.2
4.2
4.2
4.2
4.7
4.7
4.7
4.7
4.7
4.7
5.0
5.0
3.86
4.14
L1
Cache
(KB)
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
32/32
32/32
L2/L3
Cache
(MB)
8/16/8/32
32/128
8/32
16/64
32/128
64/256
32/128
128/512
32/128
256/1024
4/64
4/128
SPEC
int
2006
----21.6
--------44.0
SPEC
int_
base
2006
----17.8
--------29.3
SPEC
fp
2006
----22.3
-----24.9
-71.5
--
SPEC
fp_
base
2006
----18.7
-----20.1
-44.5
--
Section 1a – AIX SPEC CPU2000 Performance
Model
JS20
JS20
JS21
JS21
JS21
JS21
#IS-285
#IS-285
IS-285
IS-285
#p5-505
#p5-505
p5-505
p5-505Q
#p5-510
#p5-510
#p5-510
p5-510
#p5-510Q
p5-510Q
#p5-520
#p5-520
#p5-520
#p5-520
#p5-520
#p5-520
#p5-520
p5-520
p5-520Q
Processor
/ # Cores
MHz
PPC970/1 2200
PPC970/2 2200
PPC970+/1 2500
PPC970+/4 2500
PPC970+/1 2700
PPC970+/2 2700
P5+/1
1900
P5+/2
1900
P5+/1
2100
P5+/2
2100
P5/1
1650
P5/2
1650
P5+/1
2100
P5+/1
1650
P5/1
1650
P5/2
1650
P5+/1
1900
P5+/1
2100
P5+/1
1500
P5+/1
1650
P5/1
1500
P5/2
1500
P5/1
1650
P5/2
1650
P5+/1
1650
P5+/1
1900
P5+/2
1900
P5+/1
2100
P5+/1
1650
L1
Cache
(KB)
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
L2/L3
Cache
(MB)
0.5/1.0/1.0/4.0/1.0/2.0/1.9/36
1.9/36
1.9/36
1.9/36
1.9/0
1.9/36
1.9/36
1.9/72
1.9/36
1.9/36
1.9/36
1.9/36
1.9/72
1.9/72
1.9/0
1.9/36
1.9/36
1.9/36
1.9/0
1.9/36
1.9/36
1.9/36
1.9/72
SPEC
int
2000
1,040
-1,587
-1,706
-1,512
-1,747
-1,297
-1,704
1,371
1,260
-1,536
1,704
1,231
1,371
--1,248
-1,337
1,513
-1,704
1,371
SPEC
int_
base
2000
986
-1,509
-1,623
-1,469
-1,670
-1,259
-1,617
1,311
1,203
-1,479
1,617
1,164
1,311
--1,201
-1,288
1,470
-1,617
1,311
SPEC
Fp
2000
1,241
-2,119
-2,259
-3,027
-3,324
-2,528
-3,301
2,610
2,236
-3,048
3,301
2,377
2,610
2,041
-2,138
-2,676
3,030
-3,301
2,610
SPEC
fp_
Base
2000
1,178
-1,936
-2,060
-2,838
-3,100
-2,390
-3,057
2,442
2,071
-2,850
3,057
2,217
2,442
1,909
-2,034
-2,502
2,839
-3,057
2,442
Page 4
Model
#p5-550
#p5-550
#p5-550
#p5-550
#p5-550
p5-550
p5-550
p5-550
p5-550
#p5-550Q
#p5-550Q
p5-550Q
p5-550Q
p5-560Q
p5-560Q
p5-560Q
p5-560Q
#p5-570
#p5-570
#p5-570
#p5-570
#p5-575
#p5-575
#p5-575
#p5-575
p5-575
p5-575
p5-575
p5-575
#p5-590
#p5-590
#p5-595
#p5-595
p5-595
Processor
/ # Cores
P5/1
P5/4
P5/1
P5/4
P5+/1
P5+/1
P5+/4
P5+/1
P5+/4
P5+/1
P5+/8
P5+/1
P5+/8
P5+/1
P5+/16
P5+/1
P5+/16
P5/1
P5/4
P5/8
P5/16
P5/1
P5/16
P5/1
P5/8
P5+/1
P5+/16
P5+/1
P5+/8
P5/1
P5/32
P5/1
P5/64
P5+/1
MHz
1500
1500
1650
1650
1650
1900
1900
2100
2100
1500
1500
1650
1650
1500
1500
1800
1800
1900
1900
1900
1900
1500
1500
1900
1900
1900
1900
2200
2200
1650
1650
1900
1900
2300
L1
L2/L3 SPEC
Cache
Cache
int
(KB)
(MB)
2000
64/32
3.8/72
-64/32
3.8/72
-64/32
1.9/36
1,248
64/32
3.8/72
-64/32
1.9/36
1,336
64/32
1.9/36
1,510
64/32
3.8/72
-64/32
1.9/36
1,743
64/32
3.8/72
-64/32
1.9/72
1,187
64/32
7.6/144
-64/32
1.9/72
1,367
64/32
7.6/144
-64/32
1.9/72
1,204
64/32 15.2/288
-64/32
1.9/72
-64/32 15.2/288
-64/32
1.9/36
1,452
64/32
3.8/72
-64/32
7.6/144
-64/32 15.2/288
-64/32
1.9/36
1,143
64/32 15.2/288
-64/32
1.9/36
1,456
64/32 15.2/288
-64/32
1.9/36
1,526
64/32 15.2/288
-64/32
1.9/36
1,765
64/32 15.2/288
-64/32
1.9/144 1,259
64/32 30.4/576
-64/32
1.9/144 1,452
64/32 60.8/1152
-64/32
1.9/144 1,900
SPEC
int_
base
2000
--1,200
-1,288
1,467
-1,669
-1,156
-1,307
-1,160
---1,398
---1,087
-1,385
-1,473
-1,705
-1,200
-1,392
-1,820
SPEC
Fp
2000
2,072
-2,221
-2,657
3,007
-3,321
4,051
2,263
-2,612
-2,360
---2,702
---2,185
-2,600
-3,042
-3,513
-2,450
-2,796
-3,642
SPEC
fp_
Base
2000
1,914
-2,121
-2,483
2,815
-3,125
3,210
2,179
-2,458
-2,197
---2,576
---2,050
-2,413
-2,830
-3,271
-2,276
-2,585
-3,369
Section 2 – AIX Multiuser Performance (rPerf, SPEC CPU2006)
Note : up to 5% additional rPerf with Intelligent Energy Optimization enabled depending on the system
Model
JS12
JS22
JS23
JS43
PS700
PS701
PS702
PS703
PS704
PFlex260
PFlex260
PFlex260
PFlex260
PFlex260
Processor
/ # Cores GHz
P6/2
3.8
P6/4
4.0
P6+/4
4.2
P6+/8
4.2
P7/4
3.0
P7/8
3.0
P7/16
3.0
P7/16
2.4
P7/32
2.4
P7/8 (2x4c) 3.3
P7/16
3.22
P7/16
3.55
P7+/4 (2x2c) 4.08
P7+/8
4.08
(2x4c)
Cache
L1
(KB)
64/64
64/64
64/64
64/64
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
Cache
L2/L3/L4
(MB)
8/8/16/64
32/128
1/16
2/32
4/64
4/64
8/128
2/32
4/64
4/64
1/40
2/80
rPerf
LPAR
Size
#
cores
rPerf
ST
rPerf
SMT2
14.71
30.26
36.28
68.20
rPerf
SMT4
45.13
81.24
154.36
134.11
251.45
92.8
163.8
176.6
61.2
115.5
SPECint_
rPerf
rate
SMT8
2006
-84.7
----520
--------
SPECint_
SPECfp_
rate_ SPECfp_ rate_
base
rate
base
2006
2006
2006
---77.8
75.6
67.8
------------456
434
417
----778
710
----------------
Page 5
Model
PFlex260
PFlex260
PFlex270
PFlex270
PFlex460
PFlex460
PFlex460
PFlex460
PFlex460
PFlex460
710
710
710
710
710
710
710
520
520
520
520
520
720
720
720
720
720
720
730
730
730
730
730
730
730
730
730
730
730
730
S822
S822
S822
S822
740
740
740
740
740
740
740
740
740
740
740
740
740
740
S814
S814
S814
S824
S824
S824
S824
S824
550
Processor
/ # Cores
P7+/16
P7+/16
P7+/24
P7+/24
GHz
3.61
4.11
3.13
3.41
P7/16 (4x4c)
3.3
P7/32
3.22
P7/32
3.55
P7+/16 (4x4c) 4.08
P7+/32
3.61
P7+/32
4.11
P7/4
3.0
P7/4
3.7
P7/6
3.7
P7/8
3.55
P7+/4
3.6
P7+/6
4.2
P7+/8
4.2
P6/1
4.2
P6/2
4.2
P6/4
4.2
P6+/2
4.7
P6+/4
4.7
P7/4
3.0
P7/6
3.0
P7/8
3.0
P7+/4
3.6
P7+/6
3.6
P7+/8
3.6
P7/8
3.0
P7/8
3.7
P7/12
3.7
P7/16
3.55
P7+/4
4.3
P7+/8
4.3
P7+/6
4.2
P7+/12
4.2
P7+/8
3.6
P7+/16
3.6
P7+/8
4.2
P7+/16
4.2
P8/6
3.8
P8/10
3.4
P8/12
3.8
P8/20
3.4
P7/4
3.3
P7/4
3.7
P7/6
3.7
P7/8
3.3
P7/8
3.55
P7/8
3.7
P7/12
3.7
P7/16
3.55
P7+/6
4.2
P7+/12
4.2
P7+/8
3.6
P7+/16
3.6
P7+/8
4.2
P7+/16
4.2
P8/4
3.0
P8/6
3.0
P8/8
3.7
P8/6
3.8
P8/8
4.1
P8/12
3.8
P8/16
4.1
P8/24
3.5
P6/2
3.5
Cache
L1
(KB)
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
64/64
64/64
64/64
64/64
64/64
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/64
32/64
32/64
32/64
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/64
32/64
32/64
32/64
32/64
32/64
32/64
32/64
64/64
Cache
L2/L3/L4
(MB)
4/160
4/160
6/240
6/240
4/64
8/128
8/128
4/160
8/320
8/320
1/16
1/16
1.5/24
2/32
1/40
1.5/60
2/80
8/8/16/8/32
16/64
1/16
1.5/24
2/32
1/40
1.5/60
2/80
2/32
2/32
3/48
4/64
1/40
2/80
1.5/60
3/120
2/80
4/160
2/80
4/160
3/48/128
5/80/128
6/96/256
10/160/256
1/16
1/16
1.5/24
2/32
2/32
2/32
3/48
4/64
1.5/60
3/120
2/80
4/160
2/80
4/160
2/32/128
3/48/128
4/64/128
3/48/128
4/64/128
6/96/256
8/128/256
12/192/256
8/32
rPerf
LPAR
Size
#
cores
rPerf
ST
rPerf
SMT2
rPerf
SMT4
197.7
218.5
251.6
268.0
174.0
307.0
331.1
225.0
372.6
411.7
45.13
52.93
76.69
91.96
53.9
90.6
115.5
rPerf
SMT8
8.39
15.95
31.48
20.13
39.73
59.9
88.2
116.8
171.9
86.9
127.8
169.4
249.3
33.2
48.3
71.4
59.9
82.3
116.8
160.4
209.1
48.1
70.1
103.5
86.9
119.3
169.4
232.7
303.2
15.85
45.13
65.52
81.24
53.9
79.5
102.4
86.66
101.62
147.24
176.57
61.7
120.4
90.6
176.6
102.4
197.7
115.5
223.1
112.9
166.2
220.2
324.0
48.33
52.93
76.69
92.79
91.96
101.62
147.24
176.57
90.6
176.6
102.4
197.7
115.5
223.1
62.5
91.1
134.5
112.9
155.1
220.2
302.4
394.2
120.8
177.8
235.6
346.7
66.9
97.5
143.9
120.8
166.0
235.6
323.6
421.8
SPECint_
rate
2006
-856
-------1,720
--239
289
-----90.6
-124
--------476
575
-------874
-----------577
-----884
-------1,750
--
SPECint_
SPECfp_
rate_ SPECfp_ rate_
base
rate
base
2006
2006
2006
---607
586
480
---------------------1,230
1,150
946
------210
213
198
255
248
229
---------------82.3
80.8
71.4
---101
105
88.7
------------------------418
423
395
507
482
448
---------------------615
591
483
---------------------------------510
481
450
---------------626
602
491
---------------------1,280
1,370
1,180
----
Page 6
Model
550
550
550
550
550
550
550
550
550
550
550
560
560
560
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
755
755
760
760
760
760
760
760
760
760
570
570
570
Processor
/ # Cores
P6/4
P6/6
P6/8
P6/2
P6/4
P6/6
P6/8
P6+/2
P6+/4
P6+/6
P6+/8
P6+/4
P6+/8
P6+/16
P7/6
P7/12
P7/18
P7/24
P7/8
P7/16
P7/24
P7/32
P7/8
P7/16
P7/24
P7/32
P7/8
P7/16
P7/24
P7/32
P7/8
P7/16
P7/24
P7/32
P7/8
P7/16
P7/24
P7/32
P7/4
P7/8
P7/12(3x4c)
P7/16
P7/6
P7/12(2x6c)
P7/18
P7/24
P7+/8
P7+/16
P7+/24
P7+/32
P7+/8
P7+/16
P7+/24
P7+/32
P7/32
P7/32
P7+/12
P7+/24
P7+/36
P7+/48
P7+/12
P7+/24
P7+/36
P7+/48
P6/2
P6/4
P6/8
GHz
3.5
3.5
3.5
4.2
4.2
4.2
4.2
5.0
5.0
5.0
5.0
3.6
3.6
3.6
3.30
3.30
3.30
3.30
3.00
3.00
3.00
3.00
3.30
3.30
3.30
3.30
3.55
3.55
3.55
3.55
3.20
3.20
3.20
3.20
3.60
3.60
3.60
3.60
3.70
3.70
3.70
3.70
3.70
3.70
3.70
3.70
3.5
3.5
3.5
3.5
4.0
4.0
4.0
4.0
3.30
3.60
3.1
3.1
3.1
3.1
3.4
3.4
3.4
3.4
3.5
3.5
3.5
Cache
L1
(KB)
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
64/64
64/64
64/64
Cache
L2/L3/L4
(MB)
16/64
24/96
32/128
8/32
16/64
24/96
32/128
8/32
16/64
24/96
32/128
16/64
32/128
64/256
1.5/24
3/48
4.5/72
6/96
2/32
4/64
6/96
8/128
2/32
4/64
6/96
8/128
2/32
4/64
6/96
8/128
2/32
4/64
6/96
8/128
2/32
4/64
6/96
8/128
1/16
2/32
3/48
4/64
1.5/24
3/48
4.5/72
6/96
2/80
4/160
6/240
8/320
2/80
4/160
6/240
8/320
8/128
8/128
3/120
6/240
9/360
12/480
3/120
6/240
9/360
12/480
8/32
16/64
32/128
rPerf
LPAR
Size
#
cores
rPerf
ST
rPerf
SMT2
31.27
45.04
58.80
18.38
36.28
52.24
68.20
21.18
41.81
60.20
78.60
31.32
57.32
100.30
rPerf
SMT4
70.07
134.54
193.40
252.26
81.24
155.99
224.23
292.47
86.99
167.01
240.08
313.15
91.96
176.57
253.82
331.06
85.29
163.75
235.39
307.03
93.05
178.65
256.81
334.97
52.90
101.57
146.00
190.44
76.71
147.27
211.71
276.14
104.5
197.0
275.9
354.9
117.1
220.7
309.2
397.7
142.1
264.8
370.7
476.7
151.4
282.1
395.0
507.8
15.85
31.69
58.95
SPECint_
rPerf
rate
SMT8
2006
--179
---212
---263
--363
-----------1010
---1060
-------1,150
----------1,600
---1740
1010
1,150
-------2,170
----
SPECint_
SPECfp_
rate_ SPECfp_ rate_
base
rate
base
2006
2006
2006
------152
154
135
---------179
178
156
---------215
222
188
------289
263
226
---------------------------------911
825
750
---------949
851
776
---------------------1,010
985
909
----------------1,150
---1230
911
1,010
-------1,480
----
-------1,130
---1,200
825
985
-------1,400
----
-------946
---995
750
909
-------1,130
----
Page 7
Model
570
570
570
570
570
570
570
570/32
570/32
570/32
570/32
570/32
570
570
570
570
570
570
570
570
570
570
570
570
570
570
570
575
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
E870
E870
E870
E870
780
780
780
780
780
Processor
/ # Cores
P6/12
P6/16
P6/2
P6/4
P6/8
P6/12
P6/16
P6+/4
P6+/8
P6+/16
P6+/24
P6+/32
P6+/2
P6+/4
P6+/8
P6+/12
P6+/16
P6/2
P6/4
P6/8
P6/12
P6/16
P6+/2
P6+/4
P6+/8
P6+/12
P6+/16
P6/32
P7/6
P7/12
P7/24
P7/36
P7/48
P7/6
P7/12
P7/24
P7/36
P7/48
P7/8
P7/16
P7/32
P7/48
P7/64
P7/8
P7/16
P7/32
P7/48
P7/64
P7+/6
P7+/12
P7+/24
P7+/36
P7+/48
P7+/8
P7+/16
P7+/32
P7+/48
P7+/64
p8/32
p8/64
p8/40
p8/80
P7/8
P7/16
P7/32
P7/48
P7/64
GHz
3.5
3.5
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.4
4.4
4.4
4.4
4.4
4.7
4.7
4.7
4.7
4.7
5.0
5.0
5.0
5.0
5.0
4.7
3.50
3.50
3.50
3.50
3.50
3.7
3.7
3.7
3.7
3.7
3.10
3.10
3.10
3.10
3.10
3.30
3.30
3.30
3.30
3.30
4.22
4.22
4.22
4.22
4.22
3.80
3.80
3.80
3.80
3.80
4.02
4.02
4.19
4.19
3.86
3.86
3.86
3.86
3.86
Cache
L1
(KB)
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/64
32/64
32/64
32/64
32/32
32/32
32/32
32/32
32/32
Cache
L2/L3/L4
(MB)
48/192
64/256
8/32
16/64
32/128
48/192
64/256
16/64
32/128
64/256
96/384
128/512
8/32
16/64
32/128
48/192
64/256
8/32
16/64
32/128
48/192
64/256
8/32
16/64
32/128
48/192
64/256
128/512
1.5/24
3/48
6/96
9/144
12/192
1.5/24
3/48
6/96
9/144
12/192
2/32
4/64
8/128
12/192
16/256
2/32
4/64
8/128
12/192
16/256
1.5/60
3/120
6/240
9/360
12/480
2/80
4/160
8/320
12/480
16/640
16/256/512
32/512/1024
20/320/512
40/640/1024
2/32
4/64
8/128
12/192
16/256
rPerf
LPAR
Size
#
cores
32
32
40
40
rPerf
ST
rPerf
SMT2
83.35
105.75
18.38
36.76
68.38
96.68
122.67
35.50
64.96
113.68
153.46
193.25
19.08
38.16
70.97
100.35
127.32
20.13
40.26
74.89
105.89
134.35
21.16
42.32
78.71
111.3
141.21
--
334.4
484.9
668.8
969.8
424.4 615.4
848.8 1,230.7
rPerf
SMT4
rPerf
SMT8
72.55
140.75
261.19
377.28
493.37
76.0
147.5
273.7
395.4
517.0
85.20
165.30
306.74
443.06
579.39
89.2
173.1
321.2
464.0
606.8
94.5
184.2
345.1
478.9
612.7
112.5
219.3
410.8
570.1
729.3
630.4
674.5
1,260.8 1,349.0
800.0 856.0
1,599.9 1,711.9
100.75
195.45
362.70
523.89
685.09
SPECint_
rate
2006
-----------832
-----60.9
122
240
-478
----542
934
----1,930
---------2,140
---------2,800
--------6,320
-652
--2,530
SPECint_
SPECfp_
rate_ SPECfp_ rate_
base
rate
base
2006
2006
2006
---------------------------------661
602
517
---------------53.2
58.0
51.5
106
115
102
206
213
189
---410
426
379
------------466
544
465
812
839
730
------------1,740
1,760
1,560
---------------------------1,930
1,900
1,710
---------------------------2,170
2,280
2,000
------------------------4,830
5,130
4,500
---586
586
531
------2,300
2,240
2,030
Page 8
GHz
3.92
3.92
3.92
3.92
3.92
4.14
4.14
4.14
4.14
3.44
3.44
3.44
3.44
3.44
4.42
4.42
4.42
4.42
4.42
3.72
3.72
3.72
3.72
3.72
4.35
4.35
4.2
4.2
4.2
4.2
4.2
5.0
5.0
5.0
5.0
5.0
3.7
3.7
3.7
3.7
3.7
3.7
3.7
3.7
Cache
L1
(KB)
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/64
32/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
Cache
L2/L3/L4
(MB)
2/32
4/64
8/128
12/192
16/256
4/64
8/128
12/192
16/256
3/48
6/96
12/192
18/288
24/384
2/80
4/160
8/320
12/480
16/640
4/160
8/320
16/640
24/960
32/1280
16/256/512
32/512/1024
32/128
64/256
128/512
192/768
256/1024
32/128
64/256
128/512
192/768
256/1024
6/96
12/192
18/288
24/384
30/480
36/576
42/672
48/768
rPerf
LPAR
Size
#
cores
Model
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
E880
E880
595
595
595
595
595
595
595
595
595
595
795
795
795
795
795
795
795
795
Processor
/ # Cores
P7/8
P7/16
P7/32
P7/48
P7/64
P7/8
P7/16
P7/24
P7/32
P7/12
P7/24
P7/48
P7/72
P7/96
P7+/8
P7+/16
P7+/32
P7+/48
P7+/64
P7+/16
P7+/32
P7+/64
P7+/96
P7+/128
p8/32
p8/64
P6/8
P6/16
P6/32
P6/48
P6/64
P6/8
P6/16
P6/32
P6/48
P6/64
P7/24
P7/48
P7/72
P7/96
P7/120
P7/144
P7/168
P7/192
795
795
795
795
795
795
795
795
P7/32
P7/64
P7/96
P7/128
P7/160
P7/192
P7/224
P7/256
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
8/128
16/256
24/384
32/512
40/640
48/768
56/896
64/1024
32
32
32
32
32
32
32
32
795
795
795
795
795
795
795
795
P7/24
P7/32
P7/48
P7/64
P7/80
P7/96
P7/112
P7/128
4.25
4.25
4.25
4.25
4.25
4.25
4.25
4.25
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
6/192
8/256
12/384
16/512
20/640
24/768
28/896
32/1024
795
795
795
795
P7/64
P7/128
P7/128
P7/256
4.25
4.0
4.25
4.0
32/32
32/32
32/32
32/32
16/512
32/512
32/1024
64/1024
rPerf
ST
SPECint_
rPerf
rate
SMT8
2006
----2,770
---1,460
rPerf
SMT2
rPerf
SMT4
101.8
197.6
366.6
529.6
692.5
115.86
226.97
326.24
425.50
138.4
253.3
443.3
696.6
886.6
126.1
245.7
460.3
638.7
817.1
207.0
383.9
690.1
1,151.6
1,380.2
355.1
514.9
669.4 716.3
710.2 1,029.8 1,338.8 1,432.5
75.58
142.90
266.51
373.60
479.89
87.10
164.67
307.12
430.53
553.01
273.51
547.02
820.53
1,094.04
1,367.55
1,641.06
1,914.57
2,188.08
SPECint_
SPECfp_
rate_ SPECfp_ rate_
base
rate
base
2006
2006
2006
------------2,420
2,640
2,410
---------1,300
1,300
1,190
---3,520
----3,730
----6,100
-5,400
----1650
----2083
---------
---3,070
----2,830
----4,390
-4,130
----1420
----1822
---------
---3,150
----2,880
----4,160
-4,470
---------2108
---------
---2,840
----2,500
----3,420
-3,960
---------1822
---------
372.27
744.54
1,116.81
1,489.08
1,861.35
2,233.62
2,605.89
2,978.16
---------
---------
---------
---------
16
16
16
16
16
16
16
16
347.36
463.14
694.71
926.28
1,157.85
1,389.42
1,620.99
1,852.56
---------
---------
---------
---------
64
64
64
64
777.09
1406.36
1,554.18
2,812.72
-----
-----
-----
-----
36
48
64
32
64
32
32
24
24
24
24
24
24
24
24
Page 9
Model
795
795
795
Cache
Processor
L1
/ # Cores GHz (KB)
P7/32
P7/256
P7/128
4.0
4.0
4.25
32/32
32/32
32/32
Cache
L2/L3/L4
(MB)
rPerf
LPAR
Size
#
cores
8/128
64/1024
32/1024
----
rPerf
ST
rPerf
SMT2
rPerf
SMT4
SPECint_
rPerf
rate
SMT8
2006
----
SPECint_
SPECfp_
rate_ SPECfp_ rate_
base
rate
base
2006
2006
2006
1,440
11,200
6,150
1,270
9,880
5,330
-10,500
5,870
-9730
5,450
Note : upto 5% additional rPerf with Intelligent Energy Optimzation enabled depending on the system
Section 2a – AIX Multiuser Performance (rPerf, SPEC CPU2000, SPECweb99)
Model
JS20
JS20
JS20
JS20
JS21
JS21
JS21
#IS-285
IS-285
#p5-505
#p5-505
#p5-505
p5-505
p5-505
p5-505
p5-505Q
#p5-510
#p5-510
#p5-510
#p5-510
#p5-510
#p5-510
p5-510
p5-510
#p5-510Q
p5-510Q
#p5-520
#p5-520
#p5-520
#p5-520
#p5-520
#p5-520
p5-520
p5-520
#p5-520Q
p5-520Q
#p5-550
#p5-550
#p5-550
#p5-550
Processor
/ # Cores
PPC970/1
PPC970/2
PPC970/1
PPC970/2
PPC970+/2
PPC970+/4
PPC970+/4
P5+/2
P5+/2
P5/2
P5/1
P5/2
P5+/1
P5+/2
P5+/2
P5+/4
P5/1
P5/2
P5/1
P5/2
P5+/1
P5+/2
P5+/1
P5+/2
P5+/4
P5+/4
P5/1
P5/2
P5/2
P5+/1
P5+/2
P5+/2
P5+/1
P5+/2
P5+/4
P5+/4
P5/1
P5/2
P5/4
P5/2
MHz
1600
1600
2200
2200
2700
2500
2300
1900
2100
1500
1650
1650
1900
1900
2100
1650
1500
1500
1650
1650
1900
1900
2100
2100
1500
1650
1500
1500
1650
1650
1650
1900
2100
2100
1500
1650
1500
1500
1500
1650
L1
Cache
(KB)
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
L2/L3
Cache
(MB)
0.5/1.0/0.5/1.0/2.0/4.0/4.0/1.9/36
1.9/36
1.9/36
1.9/0
1.9/36
1.9/0
1.9/36
1.9/36
1.9/72
1.9/0
1.9/36
1.9/36
1.9/36
1.9/36
1.9/36
1.9/36
1.9/36
1.9/72
1.9/72
1.9/0
1.9/36
1.9/36
1.9/0
1.9/36
1.9/36
1.9/36
1.9/36
1.9/72
1.9/72
1.9/0
1.9/36
3.8/72
1.9/36
rPerf
1.53
2.65
1.95
3.40
5.31
8.72
8.15
--9.13
3.51
9.86
4.10
11.49
12.46
20.25
3.25
9.13
5.24
9.86
6.11
11.49
6.63
12.46
18.75
20.25
3.25
9.13
9.86
3.62
10.15
11.16
6.63
12.46
18.75
20.25
3.25
9.13
18.20
9.86
SPEC
int_
rate
2000
---21.5
38.5
67.5
-39.6
45.0
--34.1
--44.6
70.0
---33.0
-39.9
-44.6
63.0
70.0
--32.9
-34.8
39.6
-44.6
63.0
70.0
-----
SPEC
int_ SPEC
rate_
fp_
base
rate
2000 2000
------20.2
20.0
36.6
43.9
64.2
58.8
--38.8
67.6
43.9
72.9
----33.5
59.4
----43.4
73.4
68.6
100
------31.6
43.2
--39.4
67.1
--43.4
73.4
61.4
95.5
68.6
100
---40.0
30.3
43.0
--34.4
61.5
38.9
67.6
--43.4
73.4
61.4
95.5
68.6
100
-----80.6
---
SPEC
fp_
rate_
base
2000
---19.2
40.9
56.1
-65.4
70.0
--57.0
--71.6
97.2
---41.5
-65.9
-71.6
89.8
97.2
-38.7
41.5
-59.0
65.4
-71.6
89.8
97.2
--77.4
--
SPEC
web99
-----------------------------------------
Page 10
Model
#p5-550
#p5-550
#p5-550
p5-550
p5-550
p5-550
p5-550
#p5-550Q
#p5-550Q
p5-550Q
p5-550Q
#p5-560Q
#p5-560Q
#p5-560Q
p5-560Q
p5-560Q
p5-560Q
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
#p5-575
#p5-575
p5-575
p5-575
#p5-590
#p5-590
#p5-590
#p5-590
p5-590
p5-590
p5-590
p5-590
#p5-595
Processor
/ # Cores
P5/4
P5+/2
P5+/4
P5+/2
P5+/4
P5+/2
P5+/4
P5+/4
P5+/8
P5+/4
P5+/8
P5+/4
P5+/8
P5+/16
P5+/4
P5+/8
P5+/16
P5/2
P5/4
P5/8
P5/2
P5/4
P5/8
P5/12
P5/16
P5/2
P5/4
P5/8
P5/12
P5/16
P5+/2
P5+/4
P5+/8
P5+/12
P5+/16
P5+2
P5+/4
P5+/8
P5+/12
P5+/16
P5/16
P5/8
P5+/16
P5+/8
P5/8
P5/16
P5/24
P5/32
P5+/8
P5+/16
P5+/24
P5+/32
P5/16
MHz
1650
1650
1650
1900
1900
2100
2100
1500
1500
1650
1650
1500
1500
1500
1800
1800
1800
1500
1500
1500
1650
1650
1650
1650
1650
1900
1900
1900
1900
1900
1900
1900
1900
1900
1900
2200
2200
2200
2200
2200
1500
1900
1900
2200
1650
1650
1650
1650
2100
2100
2100
2100
1650
L1
Cache
(KB)
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
L2/L3
Cache
(MB)
3.8/72
1.9/36
3.8/72
1.9/36
3.8/72
1.9/36
3.8/72
3.8/72
7.6/144
3.8/72
7.6/144
3.8/72
7.6/144
7.6/288
3.8/72
7.6/144
7.6/288
1.9/36
3.8/72
7.6/144
1.9/36
3.8/72
7.6/144
11.4/216
15.2/288
1.9/36
3.8/72
7.6/144
11.4/216
15.2/288
1.9/36
3.8/72
7.6/144
11.4/216
15.2/288
1.9/36
3.8/72
7.6/144
11.4/216
15.2/288
15.2/288
15.2/288
15.2/288
15.2/288
7.6/144
15.2/288
22.8/432
30.4/576
7.6/144
15.2/288
22.8/432
30.4/576
15.2/288
rPerf
19.66
10.15
20.25
11.16
22.26
12.46
24.86
18.20
34.46
20.25
38.34
18.75
35.50
65.24
21.72
41.12
75.58
9.13
18.20
34.46
9.86
19.66
37.22
53.43
68.40
11.16
22.26
42.14
60.50
77.45
12.27
24.48
46.36
66.55
85.20
13.83
27.58
52.21
74.95
95.96
----41.68
80.86
116.29
151.72
55.74
108.13
155.51
202.88
80.86
SPEC
int_
rate
2000
65.5
-69.0
-78.5
-90.0
-124
-140
--248
------------76.3
147
-294
----------238
167
314
200
---529
------
SPEC
int_ SPEC
rate_
fp_
base
rate
2000 2000
60.4
84.8
--68.1
119
--77.1
133
--87.5
149
--122
178
--137
202
----243
368
----;;
-------------------74.4
130
141
249
--273
460
--------------------230
385
159
282
310
571
196
382
------503
870
-----------
SPEC
fp_
rate_
base
2000
82.1
-117
-129
-139
-174
-189
--360
------------125
241
-438
----------359
266
541
355
---824
------
SPEC
web99
------------------------------------------------------
Page 11
Model
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
Processor
/ # Cores
P5/24
P5/32
P5/40
P5/48
P5/56
P5/64
P5/16
P5/24
P5/32
P5/40
P5/48
P5/56
P5/64
P5+/16
P5+/24
P5+/32
P5+/40
P5+/48
P5+/56
P5+/64
P5+/16
P5+/24
P5+/32
P5+/40
P5+/48
P5+/56
P5+/64
MHz
1650
1650
1650
1650
1650
1650
1900
1900
1900
1900
1900
1900
1900
2100
2100
2100
2100
2100
2100
2100
2300
2300
2300
2300
2300
2300
2300
L1
Cache
(KB)
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
L2/L3
Cache
(MB)
22.8/432
30.4/576
38.0/720
45.6/864
53.2/1008
60.8/1152
15.2/288
22.8/432
30.4/576
38.0/720
45.6/864
53.2/1008
60.8/1152
15.2/288
22.8/432
30.4/576
38.0/720
45.6/864
53.2/1008
60.8/1152
15.2/288
22.8/432
30.4/576
38.0/720
45.6/864
53.2/1008
60.8/1152
rPerf
116.29
151.72
182.07
212.41
242.76
273.10
90.67
130.39
170.11
204.14
238.16
272.18
306.21
108.13
155.51
202.88
243.46
284.04
324.61
365.19
116.53
167.58
218.64
262.37
306.10
349.83
393.55
SPEC
int_
rate
2000
------------1,147
-------------1,513
SPEC
int_ SPEC
rate_
fp_
base
rate
2000 2000
------------------------1,063 1,752
--------------------------1,488 2,406
SPEC
fp_
rate_
base
2000
------------1,684
-------------2,215
SPEC
web99
----------------------------
Section 2b – Power Systems Multiuser Performance using AIX 5L V5.2
Model
#p5-505
#p5-505
#p5-505
p5-505
p5-505
p5-505
p5-505Q
#p5-510
#p5-510
#p5-510
#p5-510
#p5-510
#p5-510
p5-510
p5-510
#p5-510Q
p5-510Q
#p5-520
#p5-520
#p5-520
Processor
/ # Cores
P5/2
P5/1
P5/2
P5+/1
P5+/2
P5+/2
P5+/4
P5/1
P5/2
P5/1
P5/2
P5+/1
P5+/2
P5+/1
P5+/2
P5+/4
P5+/4
P5/1
P5/2
P5/2
MHz
1500
1650
1650
1900
1900
2100
1650
1500
1500
1650
1650
1900
1900
2100
2100
1500
1650
1500
1500
1650
L1 Cache
(KB)
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
L2/L3 Cache
(MB)
1.9/36
1.9/0
1.9/36
1.9/0
1.9/36
1.9/36
1.9/72
1.9/0
1.9/36
1.9/36
1.9/36
1.9/36
1.9/36
1.9/0
1.9/36
1.9/72
1.9/72
1.9/0
1.9/36
1.9/36
rPerf
7.02
2.70
7.58
3.15
8.84
9.59
15.57
2.50
7.02
4.03
7.58
4.70
8.83
5.10
9.59
14.42
15.57
2.50
7.02
7.58
Page 12
Model
#p5-520
#p5-520
#p5-520
p5-520
p5-520
#p5-520Q
p5-520Q
#p5-550
#p5-550
#p5-550
#p5-550
#p5-550
#p5-550
#p5-550
p5-550
p5-550
p5-550
p5-550
#p5-550Q
#p5-550Q
p5-550Q
p5-550Q
p5-560Q
p5-560Q
p5-560Q
p5-560Q
p5-560Q
p5-560Q
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
#p5-590
#p5-590
#p5-590
#p5-590
p5-590
Processor
/ # Cores
P5+/1
P5+/2
P5+/2
P5+/1
P5+/2
P5+/4
P5+/4
P5/1
P5/2
P5/4
P5/2
P5/4
P5+/2
P5+/4
P5+/2
P5+/4
P5+/2
P5+/4
P5+/4
P5+/8
P5+/4
P5+/8
P5+/4
P5+/8
P5+/16
P5+/4
P5+/8
P5+/16
P5/2
P5/4
P5/8
P5/2
P5/4
P5/8
P5/12
P5/16
P5/2
P5/4
P5/8
P5/12
P5/16
P5+/2
P5+/4
P5+/8
P5+/12
P5+/16
P5+/2
P5+/4
P5+/8
P5+/12
P5+/16
P5/8
P5/16
P5/24
P5/32
P5+/8
MHz
1650
1650
1900
2100
2100
1500
1650
1500
1500
1500
1650
1650
1650
1650
1900
1900
2100
2100
1500
1500
1650
1650
1500
1500
1500
1800
1800
1800
1500
1500
1500
1650
1650
1650
1650
1650
1900
1900
1900
1900
1900
1900
1900
1900
1900
1900
2200
2200
2200
2200
2200
1650
1650
1650
1650
2100
L1 Cache
(KB)
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
L2/L3 Cache
(MB)
1.9/0
1.9/36
1.9/36
1.9/36
1.9/36
1.9/72
1.9/72
1.9/0
1.9/36
3.8/72
1.9/36
3.8/72
1.9/36
3.8/72
1.9/36
3.8/72
1.9/36
3.8/72
3.8/72
7.6/144
3.8/72
7.6/144
3.8/72
7.6/144
15.2/288
3.8/72
7.6/144
15.2/288
1.9/36
3.8/72
7.6/144
1.9/36
3.8/72
7.6/144
11.4/216
15.2/288
1.9/36
3.8/72
7.6/144
11.4/216
15.2/288
1.9/36
3.8/72
7.6/144
11.4/216
15.2/288
1.9/36
3.8/72
7.6/144
11.4/216
15.2/288
7.6/144
15.2/288
22.8/432
30.4/576
7.6/144
rPerf
2.78
7.80
8.58
5.10
9.59
14.42
15.57
2.50
7.02
14.00
7.58
15.12
7.80
15.57
8.58
17.12
9.59
19.12
14.00
26.50
15.57
29.49
14.42
27.30
50.18
16.71
31.63
58.14
7.02
14.00
26.50
7.58
15.12
28.63
41.10
52.61
8.58
17.12
32.41
46.53
59.57
9.43
18.83
35.66
51.19
65.53
10.63
21.21
40.16
57.65
73.81
32.06
62.20
89.46
116.71
42.87
Page 13
Processor
/ # Cores
P5+/16
P5+/24
P5+/32
P5/16
P5/24
P5/32
P5/40
P5/48
P5/56
P5/64
P5/16
P5/24
P5/32
P5/40
P5/48
P5/56
P5/64
p5+/16
P5+/24
P5+/32
P5+/40
P5+/48
P5+/56
P5+/64
P5+/16
P5+/24
P5+/32
P5+/40
P5+/48
P5+/56
P5+/64
Model
p5-590
p5-590
p5-590
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
MHz
2100
2100
2100
1650
1650
1650
1650
1650
1650
1650
1900
1900
1900
1900
1900
1900
1900
2100
2100
2100
2100
2100
2100
2100
2300
2300
2300
2300
2300
2300
2300
L1 Cache
(KB)
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
L2/L3 Cache
(MB)
15.2/288
22.8/432
30.4/576
15.2/288
22.8/432
30.4/576
38.0/720
45.6/864
53.2/1008
60.8/1152
15.2/288
22.8/432
30.4/576
38.0/720
45.6/864
53.2/1008
60.8/1152
15.2/288
22.8/432
30.4/576
38.0/720
45.6/864
53.2/1008
60.8/1152
15.2/288
22.8/432
30.4/576
38.0/720
45.6/864
53.2/1008
60.8/1152
rPerf
83.18
119.62
156.06
62.20
89.46
116.71
140.05
163.39
186.74
210.08
69.74
100.30
130.86
157.03
183.20
209.37
235.54
83.18
119.62
156.06
187.28
218.49
249.70
280.92
89.64
128.91
168.19
201.82
235.46
269.10
302.73
Section 2c – AIX Capacity Upgrade on Demand Relative Performance Guidelines
Model
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
Proc. / #
Cores
P5/4
P5/6
P5/8
P5/10
P5/12
P5/14
P5/16
P5/4
P5/6
P5/8
P5/10
P5/12
P5/14
P5/16
p5-570
p5-570
p5-570
P5+/4
P5+/6
P5+/8
GHz
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
LPAR
Max size
rPerf
ST
rPerf
SMT2
19.66
28.44
37.22
45.33
53.43
60.92
68.40
22.26
32.20
42.14
51.32
60.50
68.98
77.45
rPerf
SMT4
rPerf
SMT8
24.48
35.42
46.36
Page 14
Model
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
p5-570
Proc. / #
Cores
P5+/10
P5+/12
P5+/14
P5+/16
P5+/4
P5+/6
P5+/8
P5+/10
P5+/12
P5+/14
P5+/16
570
570
570
570
570
570
570
570
570
570
570
570
570
570
570/32
570/32
570/32
570/32
570/32
570/32
570/32
570/32
570/32
570/32
570/32
570/32
570/32
570/32
570/32
P6/4
P6/6
P6/8
P6/10
P6/12
P6/14
P6/16
P6/4
P6/6
P6/8
P6/10
P6/12
P6/14
P6/16
P6+/4
P6+/6
p6+/8
p6+/10
p6+/12
p6+/14
p6+/16
p6+/18
p6+/20
p6+/22
p6+/24
p6+/26
p6+/28
p6+/30
p6+/32
3.5
3.5
3.5
3.5
3.5
3.5
3.5
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
31.69
45.32
58.95
71.15
83.35
94.55
105.75
36.76
52.57
68.38
82.53
96.68
109.67
122.67
35.50
50.23
64.96
77.14
89.32
101.50
113.68
123.62
133.57
143.52
153.46
163.41
173.36
183.30
193.25
570
570
570
570
570
570
570
P6+/4
P6+/6
p6+/8
p6+/10
p6+/12
p6+/14
p6+/16
4.4
4.4
4.4
4.4
4.4
4.4
4.4
38.16
54.56
70.97
85.66
100.35
113.84
127.32
570
570
P6/4
P6/6
4.7
4.7
40.26
57.58
GHz
1.9
1.9
1.9
1.9
2.2
2.2
2.2
2.2
2.2
2.2
2.2
LPAR
Max size
rPerf
ST
rPerf
SMT2
56.45
66.55
75.87
85.20
27.58
39.90
52.21
63.58
74.95
85.46
95.96
rPerf
SMT4
rPerf
SMT8
Page 15
Model
570
570
570
570
570
Proc. / #
Cores
P6/8
P6/10
P6/12
P6/14
P6/16
570
570
570
570
570
570
570
P6+/4
P6+/6
p6+/8
p6+/10
p6+/12
p6+/14
p6+/16
5.0
5.0
5.0
5.0
5.0
5.0
5.0
770
770
770
770
770
770
770
770
770
770
770
770
770
P7/4
P7/6
P7/8
P7/12
P7/16
P7/20
P7/24
P7/28
P7/32
P7/36
P7/40
P7/44
P7/48
3.50
3.50
3.50
3.50
3.50
3.50
3.50
3.50
3.50
3.50
3.50
3.50
3.50
49.19
72.55
95.29
140.75
180.90
221.05
261.19
299.89
338.58
377.28
415.97
454.67
493.37
770
770
770
770
770
770
770
770
770
770
770
770
770
P7/4
P7/6
P7/8
P7/12
P7/16
P7/20
P7/24
P7/28
P7/32
P7/36
P7/40
P7/44
P7/48
3.7
3.7
3.7
3.7
3.7
3.7
3.7
3.7
3.7
3.7
3.7
3.7
3.7
51.6
76.0
99.9
147.5
189.6
231.7
273.7
314.3
354.8
395.4
435.9
476.5
517.0
770
770
770
770
770
770
770
770
770
770
P7/4
P7/8
P7/12
P7/16
P7/20
P7/24
P7/28
P7/32
P7/36
P7/40
3.10
3.10
3.10
3.10
3.10
3.10
3.10
3.10
3.10
3.10
44.84
85.20
125.25
165.30
200.66
236.02
271.38
306.74
340.82
374.90
GHz
4.7
4.7
4.7
4.7
4.7
LPAR
Max size
rPerf
ST
rPerf
SMT2
74.89
90.39
105.89
120.12
134.35
rPerf
SMT4
rPerf
SMT8
42.32
60.52
78.71
95.01
111.30
126.25
141.21
Page 16
Model
770
770
770
770
770
770
Proc. / #
Cores
P7/44
P7/48
P7/52
P7/56
P7/60
P7/64
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
P7/4
P7/8
P7/12
P7/16
P7/20
P7/24
P7/28
P7/32
P7/36
P7/40
P7/44
P7/48
P7/52
P7/56
P7/60
P7/64
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
47.0
89.2
131.2
173.1
210.1
247.2
284.2
321.2
356.9
392.6
428.3
464.0
499.7
535.4
571.1
606.8
770
770
770
770
770
770
770
770
770
770
770
770
770
P7+/4
P7+/6
P7+/8
P7+/12
P7+/16
P7+/20
P7+/24
P7+/28
P7+/32
P7+/36
P7+/40
P7+/44
P7+/48
4.22
4.22
4.22
4.22
4.22
4.22
4.22
4.22
4.22
4.22
4.22
4.22
4.22
64.1
94.5
124.4
184.2
237.8
291.5
345.1
389.7
434.3
478.9
523.5
568.1
612.7
770
770
770
770
770
770
770
770
770
770
770
770
770
770
P7+/4
P7+/8
P7+/12
P7+/16
P7+/20
P7+/24
P7+/28
P7+/32
P7+/36
P7+/40
P7+/44
P7+/48
P7+/52
P7+/56
3.80
3.80
3.80
3.80
3.80
3.80
3.80
3.80
3.80
3.80
3.80
3.80
3.80
3.80
59.2
112.5
165.9
219.3
267.1
315.0
362.9
410.8
450.6
490.4
530.3
570.1
609.9
649.7
GHz
3.10
3.10
3.10
3.10
3.10
3.10
LPAR
Max size
rPerf
ST
rPerf
SMT2
rPerf
SMT4
408.98
443.06
477.15
511.23
545.31
579.39
rPerf
SMT8
Page 17
Model
770
770
Proc. / #
Cores
P7+/60
P7+/64
GHz
3.80
3.80
LPAR
Max size
rPerf
ST
rPerf
SMT2
rPerf
SMT4
689.5
729.3
rPerf
SMT8
E870
E870
E870
E870
E870
E870
E870
p8/8
p8/12
p8/16
p8/20
p8/24
p8/28
p8/32
4.02
4.02
4.02
4.02
4.02
4.02
4.02
87.9
129.7
171.5
212.2
253.0
293.7
334.4
127.5
188.1
248.7
307.7
366.8
425.9
484.9
165.8
244.5
323.3
400.1
476.8
553.6
630.4
177.4
261.6
345.9
428.1
510.2
592.4
674.5
E870
E870
E870
E870
E870
E870
E870
E870
E870
p8/8
p8/12
p8/16
p8/20
p8/24
p8/28
p8/32
p8/36
p8/40
4.19
4.19
4.19
4.19
4.19
4.19
4.19
4.19
4.19
90.4
132.8
175.2
217.6
259.0
300.3
341.7
383.0
424.4
131.1
192.6
254.1
315.6
375.5
435.5
495.4
555.4
615.4
170.4
250.4
330.3
410.2
488.2
566.1
644.1
722.0
800.0
182.4
267.9
353.4
439.0
522.4
605.8
689.2
772.6
856.0
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
P7/4
P7/8
P7/12
P7/16
P7/20
P7/24
P7/28
P7/32
P7/36
P7/40
P7/44
P7/48
P7/52
P7/56
P7/60
P7/64
3.86
3.86
3.86
3.86
3.86
3.86
3.86
3.86
3.86
3.86
3.86
3.86
3.86
3.86
3.86
3.86
53.03
100.75
148.10
195.45
237.26
279.07
320.88
362.70
403.00
443.29
483.59
523.89
564.19
604.49
644.79
685.09
780
780
780
780
780
780
780
780
780
780
780
780
780
780
P7/4
P7/8
P7/12
P7/16
P7/20
P7/24
P7/28
P7/32
P7/36
P7/40
P7/44
P7/48
P7/52
P7/56
3.92
3.92
3.92
3.92
3.92
3.92
3.92
3.92
3.92
3.92
3.92
3.92
3.92
3.92
53.6
101.8
149.7
197.6
239.8
282.1
324.4
366.6
407.4
448.1
488.9
529.6
570.3
611.1
32 core
40 core
Page 18
Model
780
780
Proc. / #
Cores
P7/60
P7/64
GHz
3.92
3.92
LPAR
Max size
rPerf
ST
rPerf
SMT2
rPerf
SMT4
651.8
692.5
780
780
780
780
780
780
780
780
P7/4
P7/8
P7/12
P7/16
P7/20
P7/24
P7/28
P7/32
4.14
4.14
4.14
4.14
4.14
4.14
4.14
4.14
780
780
780
780
780
780
780
780
780
780
780
780
780
P7/4
P7/6
P7/8
P7/12
P7/16
P7/20
P7/24
P7/28
P7/32
P7/36
P7/40
P7/44
P7/48
3.44
3.44
3.44
3.44
3.44
3.44
3.44
3.44
3.44
3.44
3.44
3.44
3.44
48.6
71.7
93.9
138.4
176.7
215.0
253.3
285.0
316.6
348.3
380.0
411.6
443.3
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
P7+/4
P7+/8
P7+/12
P7+/16
P7+/20
P7+/24
P7+/28
P7+/32
P7+/36
P7+/40
P7+/44
P7+/48
P7+/52
P7+/56
P7+/60
P7+/64
4.42
4.42
4.42
4.42
4.42
4.42
4.42
4.42
4.42
4.42
4.42
4.42
4.42
4.42
4.42
4.42
66.3
126.1
185.9
245.7
299.3
353.0
406.6
460.3
504.9
549.5
594.1
638.7
683.3
727.9
772.5
817.1
780
780
780
780
780
780
780
780
780
P7+/4
P7+/8
P7+/12
P7+/16
P7+/20
P7+/24
P7+/28
P7+/32
P7+/36
3.72
3.72
3.72
3.72
3.72
3.72
3.72
3.72
3.72
56.8
107.8
157.4
207.0
251.2
295.4
339.7
383.9
422.1
rPerf
SMT8
59.26
115.86
171.42
226.97
276.61
326.24
375.87
425.50
48 core
Page 19
Model
780
780
780
780
780
780
780
Proc. / #
Cores
P7+/40
P7+/44
P7+/48
P7+/52
P7+/56
P7+/60
P7+/64
GHz
3.72
3.72
3.72
3.72
3.72
3.72
3.72
LPAR
Max size
rPerf
ST
rPerf
SMT2
rPerf
SMT4
460.4
498.7
537.0
575.3
613.5
651.8
690.1
rPerf
SMT8
E880
E880
E880
E880
E880
E880
E880
p8/8
p8/12
p8/16
p8/20
p8/24
p8/28
p8/32
4.35
4.35
4.35
4.35
4.35
4.35
4.35
93.4
137.8
182.1
225.4
268.6
311.9
355.1
135.4
199.7
264.1
326.8
389.5
452.2
514.9
176.0
259.7
343.3
424.8
506.3
587.9
669.4
188.4
277.8
367.3
454.5
541.8
629.0
716.3
#p5-590
#p5-590
#p5-590
#p5-590
#p5-590
#p5-590
#p5-590
#p5-590
#p5-590
#p5-590
#p5-590
#p5-590
#p5-590
P5/8
P5/10
P5/12
P5/14
P5/16
P5/18
P5/20
P5/22
P5/24
P5/26
P5/28
P5/30
P5/32
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
41.68
51.48
61.27
71.07
80.86
89.72
98.58
107.44
116.29
125.15
134.01
142.87
151.72
p5-590
p5-590
p5-590
p5-590
p5-590
p5-590
p5-590
p5-590
p5-590
p5-590
p5-590
p5-590
p5-590
P5+/8
P5+/10
P5+/12
P5+/14
P5+/16
P5+/18
P5+/20
P5+/22
P5+/24
P5+/26
P5+/28
P5+/30
P5+/32
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
55.74
68.84
81.93
95.03
108.13
119.98
131.82
143.67
155.51
167.35
179.20
191.04
202.88
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
P5/16
P5/18
P5/20
P5/22
P5/24
P5/26
P5/28
P5/30
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
80.86
89.72
98.58
107.44
116.29
125.15
134.01
142.87
32 core
Page 20
Model
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
Proc. / #
Cores
P5/32
P5/34
P5/36
P5/38
P5/40
P5/42
P5/44
P5/46
P5/48
P5/50
P5/52
P5/54
P5/56
P5/58
P5/60
P5/62
P5/64
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
#p5-595
P5/16
P5/18
P5/20
P5/22
P5/24
P5/26
P5/28
P5/30
P5/32
P5/34
P5/36
P5/38
P5/40
P5/42
P5/44
P5/46
P5/48
P5/50
P5/52
P5/54
P5/56
P5/58
P5/60
P5/62
P5/64
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
90.67
100.60
110.53
120.46
130.39
140.32
150.25
160.18
170.11
178.62
187.13
195.63
204.14
212.64
221.15
229.65
238.16
246.67
255.17
263.68
272.18
280.69
289.19
297.70
306.21
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
P5+/16
P5+/18
P5+/20
P5+/22
P5+/24
P5+/26
P5+/28
P5+/30
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
108.13
119.98
131.82
143.67
155.51
167.35
179.20
191.04
GHz
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.65
LPAR
Max size
rPerf
ST
rPerf
SMT2
151.72
159.31
166.90
174.48
182.07
189.65
197.24
204.83
212.41
220.00
227.58
235.17
242.76
250.34
257.93
265.52
273.10
rPerf
SMT4
rPerf
SMT8
Page 21
Model
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
p5-595
Proc. / #
Cores
P5+/32
P5+/34
P5+/36
P5+/38
P5+/40
P5+/42
P5+/44
P5+/46
P5+/48
P5+/50
P5+/52
P5+/54
P5+/56
P5+/58
P5+/60
P5+/62
P5+/64
P5+/16
P5+/18
P5+/20
P5+/22
P5+/24
P5+/26
P5+/28
P5+/30
P5+/32
P5+/34
P5+/36
P5+/38
P5+/40
P5+/42
P5+/44
P5+/46
P5+/48
P5+/50
P5+/52
P5+/54
P5+/56
P5+/58
P5+/60
P5+/62
P5+/64
595
595
595
595
595
595
595
595
595
P6/8
P6/10
P6/12
P6/14
P6/16
P6/18
P6/20
P6/22
P6/24
GHz
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.3
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
LPAR
Max size
rPerf
ST
rPerf
SMT2
202.88
213.03
223.17
233.32
243.46
253.61
263.75
273.90
284.04
294.18
304.33
314.47
324.61
334.76
344.90
355.05
365.19
116.53
129.29
142.06
154.82
167.58
180.35
193.11
205.88
218.64
229.57
240.51
251.44
262.37
273.30
284.24
295.17
306.10
317.03
327.97
338.90
349.83
360.76
371.69
382.62
393.55
rPerf
SMT4
rPerf
SMT8
75.58
92.41
109.24
126.07
142.90
158.35
173.80
189.25
204.70
Page 22
Model
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
595
Proc. / #
Cores
P6/26
P6/28
P6/30
P6/32
P6/34
P6/36
P6/38
P6/40
P6/42
P6/44
P6/46
P6/48
P6/50
P6/52
P6/54
P6/56
P6/58
P6/60
P6/62
P6/64
P6/8
P6/10
P6/12
P6/14
P6/16
P6/18
P6/20
P6/22
P6/24
P6/26
P6/28
P6/30
P6/32
P6/34
P6/36
P6/38
P6/40
P6/42
P6/44
P6/46
P6/48
P6/50
P6/52
P6/54
P6/56
P6/58
P6/60
P6/62
P6/64
GHz
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
795
795
P7/6
P7/8
3.70
3.70
LPAR
Max size
rPerf
ST
rPerf
SMT2
220.15
235.60
251.06
266.51
279.89
293.28
306.67
320.05
333.44
346.83
360.21
373.60
386.89
400.17
413.46
426.74
440.03
453.32
466.60
479.89
87.10
106.49
125.88
145.28
164.67
182.48
200.28
218.09
235.90
253.70
271.51
289.31
307.12
322.54
337.97
353.40
368.82
384.25
399.68
415.10
430.53
445.84
461.15
476.46
491.77
507.08
522.39
537.70
553.01
rPerf
SMT4
rPerf
SMT8
64 core
75.97
99.78
Page 23
Model
795
795
795
795
795
795
795
795
795
795
795
795
795
795
Proc. / #
Cores
P7/12
P7/16
P7/20
P7/24
P7/28
P7/32
P7/36
P7/40
P7/44
P7/48
P7/52
P7/56
P7/60
P7/64
GHz
3.70
3.70
3.70
3.70
3.70
3.70
3.70
3.70
3.70
3.70
3.70
3.70
3.70
3.70
795
795
795
795
795
795
795
795
795
795
795
795
795
795
795
P7/8
P7/12
P7/16
P7/20
P7/24
P7/28
P7/32
P7/36
P7/40
P7/44
P7/48
P7/52
P7/56
P7/60
P7/64
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
4.00
795
795
795
795
795
795
795
795
795
795
795
795
795
795
795
795
P7/4
P7/8
P7/12
P7/16
P7/20
P7/24
P7/28
P7/32
P7/36
P7/40
P7/44
P7/48
P7/52
P7/56
P7/60
P7/64
4.25
4.25
4.25
4.25
4.25
4.25
4.25
4.25
4.25
4.25
4.25
4.25
4.25
4.25
4.25
4.25
LPAR
Max size
rPerf
ST
rPerf
SMT2
rPerf
SMT4
147.39
189.43
231.47
273.51
314.03
354.55
395.07
435.58
476.10
516.62
548.91
581.20
613.49
645.78
rPerf
SMT8
64 core
103.41
152.01
200.61
243.53
286.44
329.36
372.27
413.63
455.00
496.36
537.72
579.09
620.45
661.81
703.18
64 core
60.46
118.21
174.89
231.57
282.21
332.85
383.49
434.13
477.00
519.87
562.74
605.61
648.48
691.35
734.22
777.09
Section 2d – POWER8 CPW Published Results
Model
# Cores
GHz
# x LPARs
CPW
Formatted: Centered
Page 24
S814
S814
S814
S824
S824
S824
S824
S824
E870
E870
E870
E870
E880
E880
4
6
8
6
12
8
16
24
32
64
40
80
32
64
3.02
3.02
3.72
3.89
3.89
4.15
4.15
3.52
4.02
4.02
4.19
4.19
4.35
4.35
1x32
2x32
1x40
2x40
1x32
2x32
39,500
59,500
85,500
72,000
130,000
94,500
173,500
230,500
359,000
711,000
460,000
911,000
381,000
755,000
Section 2e – POWER 7 and POWER7+ CPW Published Results
Model
JS12
JS22
JS23
JS43
PS700
PS701
PS702
PS703
PS704
PFlex260
PFlex260
PFlex260
PFlex260
PFlex260
PFlex260
PFlex260
PFlex270
PFlex270
PFlex460
PFlex460
PFlex460
PFlex460
PFlex460
PFlex460
710
710
710
710
710
710
520
520
520
520
520
720
720
720
720
# Cores
2
4
4
8
4
8
16
16
32
4
8 (2x4c)
16
16
8 (2x4c)
16
16
24
24
16 (4x4c)
32
32
16
32
32
4
6
8
4
6
8
1
2
4
2
4
4
6
8
4
GHz
3.8
4.0
4.2
4.2
3.0
3.0
3.0
2.4
2.4
4.0
3.3
3.22
3.55
4.0
3.6
4.1
3.1
3.4
3.3
3.22
3.55
4.0
3.6
4.1
3.0
3.7
3.55
3.6
4.2
4.2
4.2
4.2
4.2
4.7
4.7
3.0
3.0
3.0
3.6
CPW
7100@
13800%
14400%
24050#
21100%
42100%%
76300##
64,000##
110,000###
25400 %%%
38,500#
80,500##
87,000##
51400#
99500##
110000##
123500 &&
131500 &&
80,500##
150,000###
162,000###
109500 &
198900 &&&
219900 &&&
23,800
40,900
51,800
28400
49400
64500
4300
8300
15600
9500
18300
23,800
34,900
46,300
28400
Page 25
720
720
730
730
730
730
730
730
730
730
740
740
740
740
740
740
740
740
740
740
740
740
740
550
550
550
550
550
550
550
550
550
550
550
550
560
560
560
570
570
570
570
570
570
570
570
570
570
570
570
570
570
570
570
570
570
570
570
6
8
8
8
12
16
8
12
16
16
4
4
6
8
8
12
16
6
12
8
16
8
16
2
4
6
8
2
4
6
8
2
4
6
8
4
8
16
2
4
8
12
16
2
4
8
16
2
4
8
12
16
2
4
8
16
2
4
3.6
3.6
3.0
3.7
3.7
3.55
4.3
4.2
3.6
4.2
3.3
3.7
3.7
3.3
3.7
3.7
3.55
4.2
4.2
3.6
3.6
4.2
4.2
3.5
3.5
3.5
3.5
4.2
4.2
4.2
4.2
5.0
5.0
5.0
5.0
3.6
3.6
3.6
3.5
3.5
3.5
3.5
3.5
4.2
4.2
4.2
4.2
4.4
4.4
4.4
4.4
4.4
4.7
4.7
4.7
4.7
5.0
5.0
42400
56300
44,600
51,900
77,200
97,700
59700
89200
104700
117600
25,500
27,900
41,600
47,800
52,200
77,200
97,700
49000
91700
56300
106500
64500
120000
7750
15000
20300
27600
9200
18000
23850
32650
10600
20550
28800
37950
14100
27600
48500
8150
16100
30100
43100
57600
9650
19200
35500
68600
9850
19400
36200
51500
70000
10800
21200
40100
76900
11000
21600
Page 26
570
570
570
570
570
570
570
570
595
595
595
595
595
595
595
595
595
595
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
750
8
12
16
4 (32)
8 (32)
16(32)
24(32)
32(32)
8
16
24
32
64
8
16
24
32
64
8
16
24
32
6
12
18
24
8
16
24
32
8
16
24
32
8
16
24
32
8
16
24
32
4
8
12
16
6
12
18
24
8
16
24
32
8
16
24
32
5.0
5.0
5.0
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
5.0
5.0
5.0
5.0
5.0
3.0
3.0
3.0
3.0
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.3
3.55
3.55
3.55
3.55
3.20
3.20
3.20
3.20
3.60
3.60
3.60
3.60
3.70
3.70
3.70
3.70
3.70
3.70
3.70
3.55
4.0
4.0
4.0
4.0
3.5
3.5
3.5
3.5
40300
56800
77600
16200
31900
56400
81600
104800
35,500
66,400
93,800
128,000
256,200*
41,000
77,000
108,100
147,900
294,700*
44600
82600
122500
158300
37200
69200
94900
135300
47800
88700
129700
168800
52,200
95,700
138,500
181000
47,800
89,600
131,500
171,400
52,700
97,000
141,400
183,200
27,300
51,000
74,700
97,700
40,800
75,500
109,100
145,600
59000
108000
158000
208000
52000
96000
141500
185000
Page 27
760
760
760
760
760
760
760*
760*
12
24
36
48
12
24
36
48
3.1
3.1
3.1
3.1
3.4
3.4
3.4
3.4
69800
129000
195700
258000
75200
137000
209000
274000
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
770
4
8
16
32
48
64
4
6
12
18
24
48
4
6
9
12
24
36
48
3.1
3.1
3.1
3.1
3.1
3.1
3.5
3.5
3.5
3.5
3.5
3.5
4.22
4.22
4.22
4.22
4.22
4.22
4.22
22750
45000
88800
155850
229800*
292700*
24900
37400
73100
99000
131050
248550*
30700
45800
68200
90000
154800
242600*
306600*
770
770
770
770
770
770
770
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
780
4
8
16
24
32
48
64
4
8
16
32
48
64
8
16
24
32
4
8
16
24
32
48
64
4
8
16
24
32
3.8
3.8
3.8
3.8
3.8
3.8
3.8
3.8
3.8
3.8
3.8
3.8
3.8
4.1
4.1
4.1
4.1
4.42
4.42
4.42
4.42
4.42
4.42
4.42
3.72
3.72
3.72
3.72
3.72
28700
56100
110000
146700
191500
290500*
379300*
26600
54400
105200
177400
265200*
343050*
57450
114850**
172450**
229650**
32400
63200
123500
164700
214000
326100*
424400*
28500
56000
108500
159600
209500
Page 28
780
64
3.72
414900*
780
96
3.72
622300*
780
128
3.72
829800*
795
24
3.7
149,100
795
48
3.7
288,500*
795
32
4.0
204,300
795
64
4.0
399,200*
795
24
4.25
162,100
795
32
4.25
218,400***
* CPW is limited to 32 core partition sizes. Larger core configurations were measured with two partitions.
** CPW values for the Power 780 with TurboCore enabled were measured with 8 core partitions.
*** CPW value for the 32 core Power 795 with TurboCore enabled was measured with 16 core partitions
@ CPW value for 1.8 cores of 2 total cores. 0.2 core is allocated for VIOS
% CPW value for 3.7 cores of 4 total cores. 0.3 core is allocated for VIOS
%% CPW value for 7.5 cores of 8 total cores. 0.5 core is allocated for VIOS
%%% CPW value for 3.5 cores of 4 cores. 0.5 core is allocated for VIOS
# CPW value for 7 cores of 8 total cores. 1 core is allocated for VIOS.
## CPW value for 15 cores of 16 total cores. 1 core is allocated for VIOS.
### CPW value for 30 cores of 32 total cores. 2 cores are allocated for VIOS.
& CPW value for 15 cores of 16 total cores. 1 core is allocated for VIOS.
&& CPW value for 23 cores of 24 total cores. 1 core is allocated for VIOS.
&&& CPW value for 31 cores of 32 total cores. 1 core is allocated for VIOS.
CPW values for non-POWER6 System i™ models may be obtained from
http://www.ibm.com/systems/i/solutions/perfmgmt/resource.html .
Section 3 - TPC-C Version 5 Published Results
Model
550
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
P5-570
570
570
#p5-595
#p5-595
p5-595
595
780
780
Proc Chip
.
/Core
/Thread
p6 4/8/16
p5 2/4/8
p5 2/4/8
p5 4/8/16
p5 4/8/16
p5 8/16/32
p5+
p6
p6
p5
p5
p5+
p6
p7
p7
8/16/32
2/4/8
8/16/32
16/32/64
32/64/128
32/64/128
32/64/128
2/8/32
8/64/256
#
Nodes
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3
GHz
4.2
1.9
1.9
1.9
1.9
1.9
L2/L3
Cache
(MB)
32/128
3.8/72
3.8/72
7.6/144
7.6/144
15.2/288
tpmC
629,159.00
194,391.43
203,439.87
371,044.22
429,899.7
809,144.09
$/tmpC
2.49
5.62
3.93
5.26
4.99
4.95
2.2
4.7
4.7
1.9
1.9
2.3
5.0
4.1
3.8
15.2/288
16/64
64/256
30.4/576
60.8/1152
60.8/1152
256/1024
2/64
16/256
1,025,169.69
404,462.54
1,616,162.84
1,601,784.98
3,210,540.63
4,033,378.00
6,085,166.00
1,200,011
10,366,254
4.42
3.50
3.54
5.05
5.07
2.97
2.81
0.69
1.38
Section 4 – TPC-H Published Results
TPC-H 1000 GB (1 TB):
Processor Chip
/Core
#
Proc.
/Thread
Nodes
MHz
QphH
$/
QphH
Database
DB2 9.5
Oracle DB 10g
Oracle DB 10g
Oracle DB 10g
DB2® UDB V8.1
DB2 UDB V8.1
AIX
Avail.
Date
5.3.0
5.3.0
5.3.0
5.3.0
5.3.0
09/30/04
10/17/05
09/30/04
09/30/04
09/30/04
DB2 UDB V8.2
Oracle DB 10g
DB2 9.1
Oracle DB 10g
DB2 UDB V8.2
DB2 9.1
DB2 9.5
DB2 9.5
DB2 9.7
5.3.0
5.3.0
5.3.0
5.3.0
5.3.0
5.3.0
5.3.0
6.1
6.1
05/31/06
11/26/07
11/21/07
04/20/05
05/14/05
12/20/06
12/10/08
10/13/10
10/13/10
AIX
Database
Avail.
Date
Page 29
#p5-570
P5
2/4/8
TPC-H 3000 GB (3 TB):
Proc. Chip
/Core
Model
/Thread
p5
#p5-595
32/64/128
p6
595
32/64/128
1900
4
#
Nodes
1
1
TPC-H 10000 GB (10 TB):
Proc. Chip
/Core
#
Model
/Thread Nodes MHz
p570
p6
2/4/8
32
4700
#p5-575 p5
4/8/16
8
1900
p5-575 p5+ 4/8/16
16
2200
MHz
1900
5000
26,156
$/
QphH
53.00
20.60
QphH
100,512
156.537
QphH
343,551.2
104,100.1
180,108
53
$/
QphH
32.89
61
47.00
AIX
5.3.0
5.3.0
5.3.0
5.3.0
AIX
5.3.0
6.1.0
DB2 UDB V8.2
12/15/04
Avail.
Date
03/01/06
11/24/09
Database
Oracle DB 10g
Sybase IQ v.15.1
Database
DB2 Warehouse 9.5
DB2 UDB V8.2
DB2 UDB V8.2
Avail.
Date
04/15/08
08/15/05
08/30/06
Section 5 – AIX SPECsfs97_R1 Benchmark Results
Model
#p5-510
#p5-550
#p5-550Q
#p5-570
p5-570
Proc./
# Cores
P5/2
P5/4
P5+/8
P5/8
P5+/8
MHz
1650
1650
1500
1900
2200
L1
Cache
(KB)
64/32
64/32
64/32
64/32
64/32
L2/L3
Cache
(MB)
1.9/36
3.8/72
7.6/144
7.6/144
7.6/144
SPEC
SPEC
SPEC
sfs97_R1.v2 sfs97_R1.v2 sfs97_R1.v3
UDP
TCP
UDP
----------------
Section 5a – AIX NotesBench Published Results
L2/L3
Processor
Cache
Model
/ # Cores
MHz
(MB)
Users
#p5-570
P5/8
1500 1.9/36
17,400
TPM
14,740
Response
Time
0.270
$/User
10.19
SPEC
sfs97_R1.v3
TCP
42,033
75,839
118,391
145,362
169,786
Domin
oVers.
6.5.3
Work
Load
R6iNotes
R7iNotes
Model
#p5-550Q
p5-560Q
Proc.
P5+
P5+
MHz
1500
1800
Work
Load
DWA7
DWA7
# Notes
Bench
Users
24,000
55,000
Notes
Mark
(TPM)
20,108
46,193
Resp.
Time
(ms.)
932
848
$/User
5.97
4.89
$/Notes
Mark
7.13
5.82
#
Cores
8
16
#
Users/
Core
3,000
3,438
Section 6 – AIX Java Benchmarks (SPECjbb2013) Published Results
Model
S824
Proc /
# Cores
P8/24
GHz
3.52
L1
Cache
(KB)
32/64
L2/L3/L4
Cache
(MB)
12/192/256
SPECjbb2013
Max-JOPS
critical-JOPS.
167,958
27,041
Section 6a – AIX Java Benchmarks (SPECjvm98, SPECjbb2000, SPECjbb2005) Published Results
Page 30
2.2
3.0
4.11
3.41
4.11
2.1
1.65
1.5
1.65
1.9
1.5
3.55
1.65
1.9
3.55
4.2
3.55
4.2
1.65
1.9
1.5
1.65
4.2
3.55
3.60
3.5
4.0
1.5
1.8
3.6
3.4
L1
L2/L3
SPEC
Cache Cache
jvm98
(KB)
(MB)
(256MB)
64/32
1.0/-32/32
4/64
-32/32
4/160
-32/32
6/240
-32/32
8/320
-64/32
1.9/36
-64/32
1.9/72
-64/32
1.9/36
-64/32
1.9/36
-64/32
1.9/36
-64/32
1.9/72
-32/32
2/32
-64/32
1.9/36
-64/32
1.9/36
-32/32
4/64
-32/32
4/160
-32/32
4/64
-32/32
4/160
-64/32
3.8/72
-64/32
3.8/72
-64/32
7.6/144
-64/32
7.6/144
-64/64
32/128
-32/32
8/128
-32/32
8/128
-32/32
8/320
-32/32
8/320
-64/32 15.2/288
-64/32 15.2/288
-64/64
64/256
-32/32
12/480
SPEC
jbb2000
ops/sec
39,605
------68,029
76,040
---75,607
99,844
-----190,445
294,315
----------
1.9
1.9
1.9
1.9
1.9
2.2
4.2
4.7
4.7
4.7
4.7
4.7
4.7
4.7
5.0
3.1
4.22
3.8
4.1
3.8
3.44
4.42
64/32
64/32
64/32
64/32
64/32
64/32
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
32/32
32/32
32/32
32/32
32/32
32/32
32/32
86,267
170,127
328,996
633,106
-------------------
GHz
Model
JS20
PS702
PFlex260
PFlex270
PFlex460
p5-505
p5-505Q
#p5-510
#p5-510
#p5-510
#p5-510Q
710
#p5-520
#p5-520
730
730
740
740
#p5-550
p5-550
#p5-550Q
p5-550Q
550
750
750
750
750
#p5-560Q
p5-560Q
560
760
Proc /
# Cores
PPC970/2
P7/16
P7+/16
P7+/24
P7+/32
P5+/2
P5+/4
P5/2
P5/2
P5+/2
P5+/4
P7/8
P5/2
P5+/2
P7/16
P7+/16
P7/16
P7+/16
P5+/4
P5+/4
P5+/8
P5+/8
P6/8
P7/32
P7/32
P7+/32
P7+/32
P5+/16
P5+/16
P6+/16
P7+/48
#p5-570
#p5-570
#p5-570
#p5-570
#p5-570
p5-570
570/32
570
570
570
570
570
570
570
570
770
770
780
780
780
780
780
P5/2
P5/4
P5/8
P5/16
P5/16
P5+/16
P6+/32
P6/2
P6/4
P6/8
P6/16
P6/4
P6/8
P6/16
P6+/16
P7/64
P7+/48
P7/16
P7/32
P7/64
P7/96
P7+/64
1.9/36
3.8/72
7.6/144
15.2/288
15.2/288
15.2/288
128/512
8/32
16/64
32/128
64/256
16/64
32/128
64/256
64/256
16/256
12/480
4/64
8/256
16/256
24/384
16/640
-----------------------
SPECjbb2005
bops
JVM inst. Bops/JVM
---1,119,946
16
69,997
1,877,581
16
117,349
2,495,770
24
103,990
3,663,756
32
114,492
41,751
1
41,751
63,544
2
31,772
------36,039
1
36,039
54,785
1
54,785
607,514
8
75,939
---32,820
1
32,820
1,216,983
16
76,061
1,889,298
16
118,081
1,212,466
26
75,779
1,919,456
16
119,966
60,419
1
60,419
61,789
1
61,789
91,806
1
91,806
127,851
8
15,981
333,779
4
83,445
2,478,929
32
77,467
2,491,323
32
77,854
3,625,947
32
113,311
3,983,153
32
124,474
226,291
8
28,286
278,384
8
34,798
593,904
8
74,238
5,032,254
48
104,839
---224,200
244,361
326,651
1,390,087
88,089
175,474
346,742
691,975
205.917
402,923
798,752
867,989
4,604,894
5,130,786
1,331,641
3,031,184
5,210,501
7,242,788
6,884,200
---1
8
8
16
1
2
4
8
2
4
8
8
64
48
16
32
64
96
64
---224,200
30,545
40,831
86,880
88,089
87,737
86,686
86,497
102,959
100,731
99,844
108,499
71,951
106,891
83,228
94,725
81,414
75,446
107,566
Page 31
780
#p5-595
#p5-595
595
795
Proc /
P7+/128
P5/64
P5/64
P6/64
P7/256
GHz
3.72
1.9
1.9
5.0
4.0
L1
L2/L3
Cache Cache
32/32 32/1280
64/32 60.8/1152
64/32 60.8/1152
64/64 256/1024
32/32 64/1024
SPEC
jvm98
------
SPEC
jbb2000
-2,200,162
2,505,245
---
SPECjbb2005
12,560,858
128
98,132
------3,435,485
32*
107,359
21,058,767
256
82,261
/
Section 6b – IBM i Java Benchmarks (SPECjbb2005) Published Results
Model
750
570
595
780
Proc /
# Cores
P7/16
P6/8
P6/32
P7/32
GHz
3.30
4.7
5.0
4.1
L1
Cache
(KB)
32/32
64/64
64/64
32/32
L2/L3
Cache
(MB)
4/64
32/128
128/512
8/256
SPECjbb2005
Bops
JVM inst. Bops/JVM
976,223
16
61,014
--345,809
--1,530,343
2,514,313
32
78,572
Section 6c – AIX SPECjEnterprise 2010 Benchmark Published
JEE Server
Power 730
Power S824
Power 750
Power 780
Power 780
GHz
3.55
3.52
3.55
3.86
4.42
JEE AppServer
WebSphere 7.0
WebSphere 8.5
WebSphere 7.0
WebSphere 7.0
WebSphere 8.5
JEE
Nodes /
Cores DB Server GHz
1/16
pS701
3.0
1/24 Power S824 3.52
1/32
pS702
3.0
1/64
P750
3.55
1/16
Power 780 4.42
Database
DB2 9.7
DB2 10.5
DB2 9.7
DB2 9.7
DB2 10.1
DB
Nodes /
Cores
1/8
1/24
1/16
1/32
1/16
EjOPS
4,062.38
22,543.34
7,172.93
16,646.34
10,902.30
Database
DB2 9.5
DB2 UDB V8.2
DB2 UDB V8.2
DB2 UDB V8.2
DB2 9.1
DB
Nodes /
Cores
1/40
1/2
1/4
1/4
1/4
JOPS
14,004.42
349.11
404.88
618.38
1,197.51
Section 6d – AIX SPECjAppServer2004 Benchmark Published
J2EE Server
JS22
p5-505
p5-505
p5-505Q
570
GHz
4.0
2.1
2.1
1.65
4.7
J2EE
Nodes /
J2EE AppServer Cores DB Server
WebSphere 6.1
26/4
P5-595
WebSphere® 6.0
1/2
p5-505
WebSphere 6.1
1/2
p5-505Q
WebSphere 6.1
1/4
p5-550
WebSphere 6.1
1/4
p5-550
GHz
2.1
1.65
1.65
2.1
2.1
Section 7 – SAP Standard Application Benchmarks Published Results
Sales and Distribution – SD 2-Tier – AIX
Model (GHz)
550 P6 5.0 GHz
#
Core
(Proc/
Thread)
8 (4/16)
730 p7+, 4,2
12 (2/48)
Users
3752
Avg.
Resp.
Time
.97
Dialog
Steps
Per
Hour
(K)
1,231
Fully
Proc.
Line
Items
Per Hour
410,330
7,000
.91
2,311
770,330
SAPS
(K)
OS
20.52 AIX 6.1
38.52
AIX 7.1
Database
DB2 9.5
CPU
Util.
%
99%
SAP
ECC
Ver.
EHP4
Cert. #
2009023
Sybase ASE 15.7
99%
EHP5
2013024
Page 32
Users
8,704
Avg.
Resp.
Time
.97
Dialog
Steps
Per
Hour
(K)
2,856
Fully
Proc.
Line
Items
Per Hour
952,000
16 (2/64)
10,000
.97
3,282
1,094,000
54.7
24 (2/96)
12,528
.99
4,103
1,367,670
68.38
S824 P8 3.52
24 (4/192)
21,212
.98
750 P7 3.55
32 (4/128)
15,600
PFlex460 P7 3.55
32 (4/128
750 P7 3.55
Model (GHz)
730 P7 3.55
#
Core
(Proc/
Thread)
16 (2/64)
PFlex260 p7+ 4.11
PFlex270 p7+ 3.4
Database
DB2 9.7
CPU
Util.
%
99%
SAP
ECC
Ver.
EHP4
Cert. #
2011011
AIX 7.1
DB2 10
99%
EHP5
2012035
AIX 7.1
DB2 10.5
99%
EHP5
2013019
6,952
2,317,330 115.87 AIX 7.1
DB2 10.5
99%
EHP5
2014016
.99
5,113
1,704,330
85.22
AIX 6.1
DB2 9.7
99%
EHP4
2010004
17,000
.96
5,585
1,861,670
93.08
AIX 7.1
DB2 9.7
99%
EHP4
2012015
32 (4/128)
17,312
.96
5,684
1,894,670
94.73
AIX 7.1
DB2 9.7
99%
EHP4
2011043
760 P7+ 3.4
48 (8/192)
25,488
.99
8,353
2,784,330 139.22 AIX 7.1
DB2 10
99%
EHP5
2013004
E870 P8 4.19
80 (8/640)
79,750
.97
26,166
8,722,000
AIX 7.1
DB2 10.5
99%
EHP5
*
780 P7 3.8
64 (8/256)
37,000
.98
12,131
4,043,670 202.18 AIX 6.1
DB2 9.7
99%
EHP4
2010013
780 P7+ 3.7
96 (12/384)
57,024
.98
18,703
6,234,330 311.72 AIX 7.1
DB2 10
99%
EHP5
2012033
795 P7 4.0
128 (16/512)
70,032
.93
23,060
7,686,670 384.33 AIX 7.1
DB2 9.7
99%
EHP4
2010042
96%
EHP4
2010046
SAPS
(K)
OS
47.60 AIX 7.1
436.1
795 P7 4.0
256 (32/1024) 126,063 .98 41,318 13,772,670 688.63 AIX 7.1
DB2 9.7
* The SAP certification number was not available at press time and can be found at www.sap.com/benchmark.
Historical (2008 and older) results: Sales and Distribution – SD 2-Tier – AIX
Model (GHz)
#p5-520 P5 1.65
p5-505 P5+ 2.1
p5-505Q P5+
1.65
#p5-570 P5 1.9
#p5-570 P5 1.9
#p5-570 P5 1.9
p5-570 P5+ 2.2
570 P6 4.7 (2 Virt
CPU)
570 P6 4.7
570 P6 4.7
570 P6 4.7
570/32 P6+ 4.2
#p5-595 P5 1.9
p5-595 P5+ 2.3
595 P6 5.0
Dialog Fully
#
Steps Proc.
Core
Avg.
Per
Line
(Proc/
Resp. Hour
Items SAPS
Thread) Users Time
(K) Per Hour (K)
OS
Database
CPU
Util.
%
SAP
ECC
Ver.
Cert. #
4.70
5.0
2004061
2006047
2 (2/4)
2 (2/4)
572
680
1.96
1.98
172
204
57,330
68,000
2.87
3.4
AIX 5.3 DB2 UDB V8.1
DB2 9.1
AIX 5.3
98%
98%
4 (1/8)
1,100
1.97
331
110,330
5.52
AIX 5.3
DB2 9.1
99%
5.0
2006046
4 (4/8)
8 (8/16)
16 (16/32)
16 (16/32)
1,313
2,600
5,056
5,520
1.97
1.99
1.99
1.97
395
781
1,518
1,660
131,670
260,330
506,000
553,330
6.58
13.02
25.3
27.67
AIX 5.3
AIX 5.3
AIX 5.3
AIX 5.3
DB2 UDB V8.1
DB2 UDB V8.2
99%
99%
99%
99%
4.70
4.70
4.70
5.0
2004042
2004041
2004040
2006044
2 (1/4)
1,020
1.99
306
102000
5.1
AIX 6.1
DB2 9.5
99%
6.0
2008080
1.99
1.96
1.98
1.99
1.92
1.98
611
1,207
2,404
4,335
6,042
7,051
203,670 10.18
402,330 20.12
801,330 40.07
1,445,000 72.25
2,014,000 100.7
2,350,330 117.52
99%
99%
99%
99%
97%
99%
6.0
6.0
6.0
6.0
4.70
5.0
2007037
2007038
2007039
2008057
2004062
2006045
64 (32/128) 35,400 1.94
10,67
7
3,559,00
177.95 AIX 6.1
0
99%
6.0
2008019
4 (2/8)
2,035
8 (4/16) 4,010
16 (8/32) 8,000
32 (16/64) 14,432
64 (64/128) 20,000
64 (64/128) 23,456
DB2 UDB V8.1
DB2 UDB V8.1
AIX 5.3 Oracle DB 10g
AIX 5.3 Oracle DB 10g
DB2 9.5
AIX 5.3
DB2 9.5
AIX 6.1
AIX 5.3 DB2 UDB V8.1
DB2 9.1
AIX 5.3
DB2 9.5
* The SAP certification number was not available at press time and can be found at www.sap.com/benchmark.
Sales and Distribution – SD 2-Tier Parallel
Page 33
# of
Nodes x
Cores
(Proc/
Model (GHz)
Threads)
p5-570 P5 1.9
2 x 4c (4/8)
570 P6 4.7
5 x 16c (8/32)
570 P6 4.7
2 x 16c (8/32)
570 P6 4.7
3 x 16c (8/32)
570 P6 4.7
4 x 16c (8/32)
570 P6 4.7
5 x 16c (8/32)
Users
S&D
Avg.
Res
p.
Time
2,400
36,000
15,520
22,416
30,016
37,040
1.95
1.76
1.94
1.94
1.86
1.86
Dialog
Fully
Steps
Proc.
Per
Line Items
Hour
Per Hour
(K)
(K)
SAPS
723
11,021
1,559.33
2,252.33
3,036
3,749
241
3,673.67
4,678
6,757
9,108
11,247
12050
183680
77,970
112,620
151,800
187,450
OS
Database
AIX 5.3
AIX.5.3
AIX 5.3
AIX 5.3
AIX 5.3
AIX 5.3
Oracle 9i
Oracle 10g r2
Oracle 10g r2
Oracle 10g r2
Oracle 10g r2
Oracle 10g r2
Avg.
CPU
Util.
%
99%
99%
98%
99%
99%
99%
SAP
ECC
Ver. Cert. #
4.7
6.0
6.0
6.0
6.0
6.0
2005033
2007066
2008010
2008011
2008012
2008013
Sales and Distribution – SD 3-Tier
Model
(GHz)
#
Cores
(Proc/
Thread)
Users
Fully
Avg.
Proc.
Dialog
Res Line Items
Steps
p. Per Hour Per Hour
Time
(K)
(K)
JS12 (3.8)
550 P6 (4.2)
#p5-570 P5
2 (1/4)
4 (2/8)
4 (4/8)
14,000
32,000
21,712
1.95
1.89
1.96
1,406.33
3,230.33
2,178.67
4,219
9,691
6,536
#p5-595 P5
32 (32/64)
168,300
1.95
16,896.67
50,690
780 P7+ 3.7
64 (8/128)
266,000
.84
29,433.67
88,301
SAPS
70,320
161,520
108,930
844,330
OS
Database
AIX 6.1
DB2 9.5
AIX.5.3
DB2 9.5
AIX 5.3 DB2 UDB V8.2
DB2 UDB
AIX 5.3
1,471,680 AIX 7.1
CPU
Util.
DB
(%)
SAP
ECC
Ver.
Cert. #
97
99
97
6.0
6.0
4.70
2008031
2008001
2004076
V8.2.2
99
4.70
2005021
DB2 10.5
97
EHP 5
2013010
BI Data Mart
#
Core
(Proc/
Thread)
Query
Steps/
Hour
CPU
Util.
(%)
OS
2 (2/4)
2 (1/4)
4 (4/8)
8 (8/16)
4 (2/8)
26,224
41,297
51,875
114,687
92,716
97%
96%
98%
95%
98%
BI Mixed Load (MXL)
#Core
(Proc/
Model
Thread)
Query
Steps/
Hour
CPU
Util.
(%)
520 P6 4.7 GHz
2 (1/4)
550 P6 5.0 GHz
4 (2/8)
550 P6 5.0 GHz
4 (2/8)
570 P6 5.0 GHz
4 (2/8)
570 P6 5.0 GHz
8 (4/16)
740 P7 3.3 GHz
4 (1/16)
750 P7 3.30 Ghz 8 1/16)
750 P7 3.30 GHz 8 1/16)
780 P7 4.10 GHz 16 (4/64)
41,090
90,492
90,634
93,468
154,447
151,426
241,526
278,462
625,646
94%
97%
98%
98%
97%
99%
99%
99%
99%
Model
#i5-520 1.9 GHz
520 P6 4.2 GHz
#i5-570 2.2 GHz
#i5-570 2.2 GHz
570 P6 4.7 GHz
Database
Platform
Release
Cert. #
i5/OS V5R4
i 6.1
i5/OS V5R4
i5/OS V5R4
i5/OS V5R4M5
DB2 for i5/OS V5R4
DB2 for IBM i 6.1
DB2 for i5/OS V5R4
DB2 for i5/OS V5R4
DB2 for i5/OS V5R4M5
NW 7.0 (2004s)
NW 7.0 (2004s)
NW 2004s
NW 2004s
NW 7.0 (2004s)
2007061
2008020
2007003
2007027
2007047
OS
Database
Platform
Release
Cert. #
i 6.1
i 6.1
i 6.1
i 6.1
i 6.1
DB2 for IBM i 6.1
DB2 for IBM I 6.1
DB2 for IBM I 6.1
DB2 for IBM i 6.1
DB2 for IBM i 6.1
DB2 for IBM i 7.1
DB2 for IBM i 6.1
DB2 for IBM i 7.1
DB2 for IBM i 7.1
NW 7.0 (2004s)
NW 7.0 (2004s)
NW 7.0 (2004s)
NW 7.0 (2004s)
NW 7.0 (2004s)
NW 7.0 (2004s)
NW 7.0 (2004s)
NW 7.0 (2004s)
NW 7.0 (2004s)
2009002
2009010
2009011
2008069
2009043
2010035
2010005
2010014
2010047
i 7.1
i 6.1
i 6.1
i 7.1
Section 8 – AIX PeopleSoft Benchmarks Published Results
Page 34
HRMS Self-service Online
PS
Version
Model
8.9
p5-570
# Cores
- MHz
12 – 1900
Concurrent
Users
4,000
Search
1.74 sec.
Save
1.25 sec.
Database
Oracle 10.1.0.3
Global Payroll France – Version 1
PS
Version
8.9
Model
p570
# Cores
- MHz
8 – 4700
Maximum
Payees
200,222
Payroll
Non Retro
44.95
Payroll
Retro
73.56
Database
Oracle 9i
Global Payroll France – Version 2
PS
Version
8.9
Model
p570
L2/L3
Cache
(MB)
32/128
# Cores
- MHz
8 – 4700
North American Payroll – Checks per Hour
PS
# Cores
L2/L3 Cache
Version
Model
- MHz
(MB)
8.8
p5-570
8 – 1900
0.95/18
Memory
(GB)
84
Memory
(GB)
64
Disk
(GB)
550
Large Rate
200,222
Disk
(GB)
3,931
Large
Rate
393,000
Database
Oracle 9.2.0.6
Database
DB2 V8.1
Section 9 – AIX Oracle e-Business Suite (eBS) Benchmarks Published Results
R12 – 12.1.3 Payroll Batch Results
Model
GHz
Power S824 3.52
Cores (Proc/ Checks
Average Batch: Payroll
threads)
/Hour Kit
CPU util. Employees
App level
12 (2/48) 1,090,909 ExLrg
53%
250,000
12.1.3
R12 – 12.1.2 Payroll Batch Results
Cores
(Proc / Checks
Model
GHz workers) /Hour
730 P7
3.72 12 (2/48) 702.576
p260 p7+
4.08 8 (2/48) 626,741
Kit
ExLrg
ExLrg
Batch:
Average
Payroll
CPU util. Employees
57%
250,000
66%
250,000
Tiers
2-Tier
App level
12.1.2
12.1.2
Tiers
2-Tier
2-Tier
R12 – 12.1.2 Order to Cash Batch Results
Cores
(Proc /
Lines
Model
GHz workers) /Hour
Kit
730 P7
3.72 12 (2/48) 135,399 Large
Batch:
Average
Order to
CPU util. Cash: Lines App level
58%
100,000
12.1.2
Tiers
2-Tier
R12 – 12.0.4 Payroll Batch Results
Cores
(Proc / Checks
Model
GHz workers) /Hour
Kit
JS22 P6
4.0
4 (2/8)
157,205 Medium
750 P7
3.30 6 (1/12) 257,143 Medium
Batch:
Average
Payroll
CPU util. Employees
68%
10,000
55%
10,000
Tiers
2-Tier
2-Tier
RUP level
4
4
12.1.2
R12 – 12.0.4 Order to Cash Batch Results
Page 35
2-Tier
Model
JS23 P6
710 P7
750 P7
Cores
(Proc /
Lines
GHz workers) /Hour
Kit
4.2
4 (2/8)
81,990 Medium
3.72 6 (1/12) 213,523 Medium
3.30 6 (1/12) 177.195 Medium
Batch:
Average
Order to
CPU util. Cash: Lines RUP level
77%
50,000
4
59%
50,000
4
57%
50,000
4
Tiers
2-Tier
2-Tier
2-Tier
11i – 11.5.10
Online : Users /
Online :
Batch : Order Lines /
User
Average
Batch: Payroll
load % of Response
Batch :
Employees
maximum Time (sec) Lines/Hour
2,000 / 50,000 / 10,000 100% (full)
0.983
56,391
1,800 / 50,000 / 10,000
90%
0.857
59,678
1,400 / 50,000 / 10,000
70%
0.712
61,894
3000 / 50,000 / 10,000 100% (full)
0.764
94,757
2,700 / 50,000 / 10,000
90%
0.702
97,784
2,100 / 50,000 / 10,000
70%
0.625
106,838
Batch :
Checks
/Hour
51,948
56,818
65,076
74,257
84,270
91,047
11i – 11.5.10 Real Application Clusters (RAC)
#
Online
Nodes
Online : Users /
User
Average
x#
Batch : Order Lines /
load % of Response
Batch :
Model
GHz Cores
Kit
Batch: Payroll Employees maximum Time (sec) Lines/Hour
p5-505 P5+ 2.1 2 x 2c Small
1,000 / 10,000 / 5,000
100% (full)
0.780
11,080
p5-505 P5+ 2.1 2 x 2c Small
900 / 10,000 / 5,000
90%
0.758
12,280
p5-505 P5+ 2.1 2 x 2c Small
700 / 10,000 / 5,000
70%
0.656
17,207
Batch :
Checks
/Hour
13,043
17,493
26,087
Model
GHz
p5-570 P5+ 2.2
p5-570 P5+ 2.2
p5-570 P5+ 2.2
p570 P6
4.7
p570 P6
4.7
p570 P6
4.7
#
Cores
8
8
8
8
8
8
Kit
Medium
Medium
Medium
Medium
Medium
Medium
Section 10 – AIX Siebel Benchmarks Published Results
Siebel CRM 8.1 Industry Applications Performance and Scalability Benchmark
# Cores /
App./Gateway
# Cores /
Concurrent Application
DB Server
Memory
Servers
Memory
Users
Version
Database
S824 p8 4.1
6/224GB
3 x S824 p8 4.1GHz
16/448GB
50,000
8.1.1.4
Oracle 11gR2
740 P7 3.55
6/64GB
2x 750 P7 3.55GHz
16/256GB
21,000
8.1.1.4
Oracle 11gR2
Siebel CRM Release 8.0 Industry Applications Benchmark
Gateway /
App Server
Application
# Cores / Concurrent
DB
Servers
Memory
Users
%CPU
Server
1x p570 P6 4.7 GHz 8 / 64GB
7,000
84% 1x p570 P6 4.7 GHz
DB Server
# Cores /
Memory
4 / 32GB
Siebel 7.7 Industry Applications Performance and Scalability Benchmark
# Cores / App./Gateway
# Cores /
DB Server
Memory Servers
Memory
Concurrent Users
#p5-570 P5
4/32GB
5x p690
16/64GB
12,500
Database
Oracle 10gR2
Database
DB2 UDB V8.1
Section 11 – AIX Sybase Benchmarks Published Results
Sybase Risk Analysis Platform Benchmark
Load Test with
# Cores /
16-Stream Binary Data
DB Server
Memory
(GB/Hour/Core)
p5-570 P5+ 2.2 GHz 8 / 32GB
7.407
Query Test: Cumulative
Query Processing Times
@ 50 Users (lower is better)
2,308,842 msec
Database
Sybase IQ
Page 36
DB Server
p570 P6 4.7 GHz
p570 P6 4.7 GHz
# Cores /
Memory
4 / 32GB
8 / 32GB
Load Test with
16-Stream Binary Data
(GB/Hour/Core)
6.692
11.254
Query Test: Cumulative
Query Processing Times
@ 50 Users (lower is better)
3,376,891 msec
1,459,035 msec
Database
Sybase IQ
Sybase IQ
Section 12 – AIX Manugistics Benchmarks Published Results
Manugistics NetWORKS Fulfillment Benchmark
Server
# Cores
SKUs/Hour
#p5-590
32
38,475,727
p5-595 2.3 GHz
64
116,500,032
SKUs/Hour/Core
1,202,366
1,820,313
Release
7.2
7.3
Section 13 – Linux Published Benchmark Results
SPEC CPU2006 Performance
Model
JS12
570
570
Proc /
#Cores
P6/2
P6/1
P6/1
L1
Cache
(KB)
64/64
64/64
64/64
GHz
3.8
4.7
4.7
L2/L3
Cache
(MB)
16/8/32
8/32
SPEC
int
2006
16.1
21.7
21.3
SPEC
int_
Base
2006
13.6
17.8
17.5
SPEC
SPEC
Fp_
Fp
base
2006
2006
17.9
14.2
22.5
18.1
22.4
17.8
Linux
Version
RHEL5.1
RHEL5.1
SLES10 SP1
SPEC CPU2000 Performance
Model
#OP710
#OP720
p5-505
p5-510
p5-520
p5-520Q
p5-550
p5-550Q
p5-575
p5-575
Proc /
#Cores
P5/1
P5/1
P5+/1
P5+/1
P5+/1
P5+/1
P5+/1
P5+/1
P5+/1
P5+/1
GHz
1.65
1.65
2.1
2.1
2.1
1.65
2.1
2.1
2.2
1.9
L1
Cache
(KB)
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
L2/L3
Cache
(MB)
1.9/36
1.9/36
1.9/36
1.9/36
1.9/36
1.9/72
1.9/36
1.9/72
1.9/36
1.9/36
SPEC
int
2000
1,144
1,138
1655
1655
1655
1302
1656
1303
1730
1501
SPEC
SPEC
int_ SPEC fp_
base
fp Base
2000 2000 2000
1,129 1,919 1,828
1,121 1,966 1,865
1594 3293 2773
1594 3293 2773
1595 3283 2772
1255 2580 2152
1596 3282 2778
1256 2573 2157
1666 3418 2896
1445 2979 2543
Linux
Version
RHEL AS4
SLES9
SLES10
SLES10
SLES10
SLES10
SLES10
SLES10
SLES10
SLES10
Multiuser Performance SPEC CPU2006
Processor/
Model
# Cores
JS12
P6/2
JS22
P6/4
JS23
P6+/4
JS43
P6+/8
PS702
P7/16
PS702
P7/16
PS704
P7/32
PFlex260 P7+/16
L1
Cache
GHz (KB)
3.8
64/64
4.0
64/64
4.2
64/64
4.2
64/64
3.0
32/32
3.0
32/32
2.46 32/32
4.1
32/32
L2/L3/L4
Cache
(MB)
16/16/16/64
32/128
4/64
4/64
8/128
4/160
SPEC
SPEC
SPEC int_ SPEC fp_
int_ rate_
fp_
rate_
rate base rate base
2006 2006 2006 2006
45.9
41.2
42.5
36.2
84.7
77.2
75.0
65.7
110
92.2
92.4
75.8
219
184
184
151
505
452
415
366
521
466
455
405
772
687
* 825 * 599 * 562 * 497
Linux
Version
RHEL5.1
SLES10 SP1
SLES11
SLES11
SLES 11 SP1
RHEL 6
RHEL 6
SLES 11 SP2
Page 37
Processor/
Model
# Cores
PFlex260 P7+/16
PFlex270 P7+/24
PFlex270 P7+/24
520
P6/4
520
P6+/4
550
P6/8
550
P6+/8
730
P7/12
730
P7/12
730
P7/16
730
P7+/16
730
P7+/16
7R2
P7+/16
7R2
P7+/16
740
P7/16
740
P7/16
740
P7+/16
740
P7+/16
S824
P8/24
750
P7/32
750
P7/32
750
P7/32
750
P7+/32
750
P7+/32
7R4
P7+/32
7R4
P7+/32
755
P7/32
760
P7+/48
760
P7+/48
570
P6/4
570
P6/4
570
P6/8
570
P6/8
570
P6/16
570
P6/16
570
P6+/32
575
P6/32
780
P7/32
780
P7/64
780
P7/64
780
P7/96
780
P7+/128
780
P7+/128
595
P6/64
595
P6/64
795
P7/256
795
P7/256
795
P7/128
GHz
4.1
3.41
3.41
4.2
4.7
4.2
5.0
3.7
3.7
3.55
4.2
4.2
4.2
4.2
3.55
3.55
4.2
4.2
3.52
3.30
3.55
3.55
4.0
4.0
4.0
4.0
3.30
3.4
3.4
4.7
4.7
4.7
4.7
4.7
4.7
4.2
4.7
4.14
3.86
3.86
3.44
3.72
3.72
5.0
5.0
4.0
4.0
4.25
L1
Cache
(KB)
32/32
32/32
32/32
64/64
64/64
64/64
64/64
32/32
32/32
32/32
32/32
3232
32/32
32/32
32/32
32/32
32/32
32/32
32/64
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
64/64
64/64
64/64
64/64
64/64
64/64
64/64
64/64
32/32
32/32
32/32
32/32
32/32
32/32
64/64
64/64
32/32
32/32
32/32
SPEC
L2/L3/L4
int_
Cache
rate
(MB)
2006
4/160
563
6/240
1070
6/240
696
16/89.2
16/64
122
32/128
213
32/128
258
3/48
480
3/48
388
4/64
578
4/160
852
4/160
582
4/160
852
4/160
582
4/64
580
4/64
581
4/160
869
4/160
589
12/192/256 1,720
8/128
1030
8/128
1070
8/128
1140
8/320
1710
8/320
1190
8/320
1710
8/320
1170
8/128
1030
12/480
2130
12/480
1390
16/64
122
16/64
118
32/128
243
32/128
234
64/256
484
64/256
466
128/512
826
128/512
928
8/256
1470
16/256
2610
16/256
2740
24/384
3560
32/1280
6130
32/1280
4140
256/1024 2,097
256/1024 2,160
64/1024 10,900
64/1024 11,300
32/1024
6,130
SPEC
int_
rate_
base
2006
563
742
696
81.2
102
182
216
425
388
515
618
582
617
582
516
518
629
589
1,310
924
960
1020
1230
1190
1240
1170
924
1480
1390
108
105
210
204
420
407
673
809
1310
2340
2440
3140
4460
4140
1,837
1,870
9,410
9,930
5,350
SPEC
fp_
rate
2006
--79.7
102
176
216
422
477
575
575
492
497
586
1,330
839
865
978
1170
1160
1110
839
1360
116
115
216
215
430
428
592
813
1310
2300
2550
3080
4180
2,108
2,180
10,400
10,500
5,860
SPEC
fp_
rate_
base
2006
--69.0
83.7
151
178
380
439
509
509
447
443
521
1,130
736
761
873
1050
1040
983
736
1190
98.8
97.5
185
182
369
364
492
681
1160
2010
2280
2850
3690
1,822
1,680
9,370
9,640
5260
Linux
Version
SLES 11 SP2 using GCC
RHEL 6.4
RHEL 6.4 using GCC
SLES10 SP1
SLES11
RHEL5.1
SLES11
RHEL 6
RHEL 6.1 using GCC
SLES 11 SP1
SLES 11 SP2
SLES 11 SP2 using GCC
SLES 11 SP2
SLES 11 SP2 using GCC
SLES 11 SP1
RHEL 6
SLES 11 SP2
SLES 11 SP2 using GCC
RHEL 7.0
SLES 11
SLES 11
RHEL 6
SLES 11 SP2
SLES 11 SP2 using GCC
RHEL 6.4
RHEL 6.4 using GCC
SLES 11
SLES 11 SP2
SLES 11 SP2 using GCC
RHEL5.1
SLES10 SP1
RHEL5.1
SLES10 SP1
RHEL5.1
SLES10 SP1
RHEL 5.2
RHEL 5.2
SLES 11
SLES 11
RHEL 6
SLES 11 SP1
RHEL 6.3
RHEL 6.3
RHEL 5.2
SLES11
SLES 11 SP1
RHEL 6
SLES 11 SP1
Multiuser Performance SPEC CPU2000
Page 38
Model
#OP710
#OP710
#OP720
p5-505
p5-510
p5-520
p5-520Q
p5-550
p5-550Q
#p5-575
p5-575
p5-575
#p5-595
Processor/
# Cores
P5/2
P5/2
P5/4
P5+/2
P5+/2
P5+/2
P5+/4
P5+/4
P5+/8
P5/8
P5+/8
P5+/16
P5/32
GHz
1.65
1.65
1.65
2.1
2.1
2.1
1.65
2.1
1.65
1.9
2.2
1.9
1.9
L1
Cache
(KB)
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
64/32
L2/L3
Cache
(MB)
1.9/36
1.9/36
3.8/72
1.9/36
1.9/36
1.9/36
3.8/72
1.9/72
7.6/144
15.2/288
1.9/288
1.9/288
30.4/576
SPEC
int_
rate
2000
-29.8
59.8
43.5
43.5
43.6
68.2
86.7
136
-199
311
--
SPEC
int_
rate_
base
2000
-29.5
58.8
42.4
42.4
42.6
66.6
85.0
133
-193
305
--
SPEC
fp_
rate
2000
40.2
40.1
80.8
72.4
72.4
71.7
99.0
143
196
238
370
541
781
SPEC
fp_
rate_
base
2000
39.5
39.0
78.8
66.5
66.5
66.0
92.9
131
183
229
310
478
754
Linux
Version
SLES9
RHEL AS4
SLES9
SLES10
SLES10
SLES10
SLES10
SLES10
SLES10
RHEL AS4
SLES10
SLES10
SLES9 SP1
Java Benchmarks (SPECjbb2013) Published Results
Model
E870
Proc /
# Cores
p8/80
GHz
4.19
L1
Cache
(KB)
32/64
L2/L3/L4
Cache
(MB)
40/640/1024
SPECjbb2013
max-jOPS
critical-jOPS
656,820
158,605
Linux
Version
RHEL 7
Historical Java Performance (SPECjbb2000, SPECjbb2005)
Model
PS702
PFlex260
PFlex270
#OP720
#OP720
550
#p5-570
#p5-570
#p5-570
#p5-570
570
570
570
570/32
#p5-595
730
730
7R2
740
740
750
750
7R4
760
Processor /
# Cores
P7/16
P7+/16
P7+/24
P5/4
P5/4
P6/8
P5/2 DDR2
P5/4 DDR2
P5/8 DDR1
P5/16 DDR1
P6/4
P6/8
P6/16
P6+/32
P5/32
P7/16
P7+/16
P7+/16
P7/16
P7+/16
P7/32
P7+/32
P7+/32
P7+/48
GHz
3.0
4.1
3.4
1.65
1.65
4.2
1.9
1.9
1.9
1.9
4.7
4.7
4.7
4.2
1.9
3.55
4.2
4.2
3.55
4/2
3.55
4.0
4.0
3.4
L1
Cache
(KB)
32/32
32/32
32/32
64/32
64/32
64/64
64/32
64/32
64/32
64/32
64/64
64/64
64/64
64/64
64/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
32/32
L2/L3
Cache
(MB)
4/64
4/160
6/240
3.8/72
3.8/72
32/128
1.9/36
3.8/72
7.6/144
15.2/288
16/64
32/128
64/256
128/512
30.4/576
4/64
4/160
4/160
4/64
4/160
8/128
8/320
8/320
12/480
SPEC
jbb2000
ops/sec
136,167
136,261
82,615
160,995
299,197
542,145
-
SPECjbb2005 ops/sec
bops
1,103,231
1,818,045
2,441,660
328,343
169,304
335,424
664,167
1,243,824
1,076,309
1,205,289
1,877,284
1,872,915
1,204,362
1,901,452
2,410,483
3,837,707
* 3,838,000
4,858,622
JVM Bops /
inst.
JVM
16
68,952
16
113,628
24
101,736
4
82,086
2
84,652
4
83,856
8
83,021
16
77,739
16
75,331
16
117,330
16
117,057
16
75,273
16
118,841
32
75,328
32
119,928
32 * 119,938
48
101,221
Linux
Version
SLES 11 SP1
SLES 11 SP2
RHEL 6.4
SLES9
RHEL AS4
RHEL5.1
SLES9
SLES9
SLES9
SLES9
RHEL5.1
RHEL5.1
RHEL5.1
RHEL5.2
SLES9
SLES 11 SP1
SLES 11 SP2
SLES 11 SP2
SLES 11 SP1
SLES 11 SP2
SLES 11
SLES 11 SP2
RHEL 6.4
SLES 11 SP2
Page 39
Processor /
# Cores
P7/64
P7/32
P7/96
P7+/128
P7/256
Model
780
780
780
780
795
GHz
3.86
4.14
3.44
3.72
4.0
L1
Cache
(KB)
32/32
32/32
32/32
32/32
32/32
L2/L3
Cache
(MB)
16/256
8/256
24/384
32/1280
64/1024
SPEC
jbb2000
ops/sec
-
SPECjbb2005 ops/sec
bops
5,087,469
2,926,261
7,080,765
12,305,473
20,449,538
JVM
inst.
64
32
96
128
256
Bops /
JVM
79,492
91,446
73,758
96,137
80,076
Linux
Version
SLES 11
SLES 11
SLES 11 SP1
RHEL 6.3
SLES 11 SP1
SPECjEnterprise2010 Performance
Java EE
Model/GHz
Java EE
OS
Java EE
AppServer
WebSphere
7R2/4.2 GHz RHEL 6.4
v8.5
WebSphere
730/4.2GHz RHEL 6.4
v8/5
WebSphere
7R2/4.2GHz RHEL 6.4
v8.5.5
# Java
EE
Nodes /
Cores
1 node
16 core
1 node
16 core
1 node
16 core
DB
Model/GHz
Database
OS
7R2/4.2 GHz
RHEL 6.4
730/4.2GHz
RHEL 6.4
7R2/4.2GHz
RHEL 6.4
Web Serving SPECweb99 and SPECweb99_SSL Performance
L1
L2/L3
Proc./
Cache
Cache
Encryption
Model
# Cores
GHz
(KB)
(MB)
card
#p5-570
P5/4
1.9
64/32
3.8/72
Yes, ICA
#p5-570
P5/4
1.9
64/32
3.8/72
None
#p5-570
P5/8
1.9
64/32
7.6/144
None
Web Serving SEPCweb2005 Performance
L1
L2/L3
Proc./
Cache Cache Encryption
Model
# Cores GHz (KB)
(MB)
card
Result
#p5-550
7,881
P5+/4
1.9
64/32
3.8/72
None
Database
DB2 10.1
FP2
DB2 10.1
FP2
DB2 10.1
FP2
SPEC
web99
13,500
25,000
# DB
Nodes
/ Cores
1 node
16 core
1 node
16 core
1 node
16 core
EjOPS
12,062
12,067
13,161
SPEC
web99
ssl
4,970
-
Linux
Version
SLES9
RHEL AS3
RHEL AS4
Banking Ecommerce Support
12,240
11,820
7,500
Linux
Version
SLES9
SP2
SPECsfs97_R1 Benchmark Results
Model
#p5-570
#p5-570
Proc./
# Cores
P5/2
P5/4
GHz
1.9
1.9
L1
Cache
(KB)
64/32
64/32
L2/L3
Cache
(MB)
1.9/36
3.8/72
SPEC
sfs97_R1.v3
UDP
---
SPEC
sfs97_R1.v3
TCP
45,586
81,889
Linux
Version
SLES9
SLES9 SP1
NetBench® Published Results
Model
#p5-520
#p5-520
#p5-550
#p5-550
Processor /
# Cores
P5/1
P5/2
P5+/2
P5+/4
GHz
1.65
1.65
1.9
1.9
L1
Cache
(KB)
64/32
64/32
64/32
64/32
L2/L3
Cache
(MB)
1.9/36
3.8/72
1.9/36
3.8/72
Mbps
787
1,457
2,054
3,055
SAP Standard Application Benchmark Published Results
Page 40
Sales and Distribution – SD 2-Tier – Linux on Power
Dialog
Fully
#
Steps
Proc.
Core
Avg.
Per
Line
(Proc/
Resp. Hour
Items SAPS
SD
Thread) Users Time
(K) Per Hour (K)
Model (GHz)
p5-550 P5 (1.9)
p5-570 P5 (1.9)
570 P6 (4.2)
730 P7 (3.7)
730 P7 (3.55)
7R2 p7+ (4.22)
7R2 p7+ (4.22)
4 (2/8)
8 (4/16)
8 (4/16)
12 (2/24)
16 (2/64)
16 (2/64)
16 (2/64)
1000
2000
3104
5250
7000
8016
8256
1.97
1.95
1.91
.98
.99
.98
.97
301
603
938
1,721
2,293
2,628
2,709
100,330
210,000
312,670
573,670
764,330
876,000
903,000
5.02
10.05
15.63
28.68
38.22
43.80
45.13
Database
CPU
Util.
%
SAP
ECC
Ver.
Cert. #
SLES 9 DB2 V8.2.2
SLES9 DB2 V8.2.2
RHEL5.1 DB2 9.5
SLES11 DB2 9.7
SLES11 DB2 9.7
SLES 11 DB2 10
RHEL6.4 DB2 10
99%
99%
97%
97%
97%
99%
99%
5.0
4.7
6.0
EHP4
EHP4
EHP5
EHP5
2005040
2004057
2008002
2011022
2011042
2013003
2013006
OS
* The SAP certification number was not available at press time and can be found at www.sap.com/benchmark.
TPC-C Version 5.4 Published Results
Processor
Model
#p5-570
p5-570
#p5-520
550
Chip
/Core
/Thread
2/4/8
2/4/8
1/2/4
2/4/8
p5
p5+
p5+
p6
#
Nodes GHz
1
1.9
1
2.2
1
1.65
1
4.2
L2/L3
Cache
(MB)
3.8/72
3.8/72
1.9/36
16/64
Linux
tpmC
$/tmpC
Database
Version
197,669.81 3.93
DB2 UDB V8.2 RHEL AS4
236,271
2.56
Oracle 10g R2 EE
RHEL5
81,439.30
2.99
Sybase ASE
SLES9
276,383
2.22
Sybase ASE
RHEL 5.1
TPC-H 1000 GB (1 TB):
Model Processor
Chip
/Core
/Thread
780
8/32/128
p7
#
Nodes
MHz
QphH
$/
QphH
1
4140
167,747
6.85
Linux
Version
Database
RHEL 6
Sybase IQ Single
Application Server
v15.2 ESD#2
Avail.
Date
3/31/11
SPECjAppServer2004 Performance
J2EE
Model/GHz
#p5-550
1.9 GHz
J2EE
OS
SLES 9
# J2EE
J2EE
Nodes /
DB
AppServer Cores Model/GHz
WebSphere 8 nodes
p5-570 / 1.9
6.0
32 cores
Database
OS
SLES9
Database
DB2 UDB
V8.2.3
# DB
Nodes
1 node
8 cores
JOPS
2921.48
Page 41
Avail.
Date
02/07/06
04/04/08
12/22/06
12/16/08
Section 14 – Historical Multiuser Performance (2006 to present)
Type
Model
9110-510
9110-510
9110-510
9110-510
9110-51A
9110-51A
9110-51A
Product Name
eServer p5 510
Announce
Date
2005/02/18
Marketing
Withdrawal
2006/11/13
2006/05/31
System p5 510
Processor
POWER5
POWER5
POWER5
POWER5
GHz
1.5
1.5
1.65
1.65
#
Cores
1
2
1
2
rPerf
3.25
9.13
5.24
9.86
6.11
11.49
18.75
2006/02/14
2007/02/12
POWER5+
POWER5+
POWER5+
1.9
1.9
1.5
1
2
4
System p5 510Q
9111-285
9111-285
IntelliStation 285
2005/10/04
2007/02/12
POWER5+
POWER5+
1.9
1.9
1
2
9111-520
9111-520
9111-520
eServer p5 520
2004/07/13
2006/05/31
POWER5
POWER5
POWER5
1.5
1.5
1.65
1
2
2
3.25
9.13
9.86
9112-265
IntelliStation 265
2002/02/05
2003/12/12
POWER3-II
.450
2
N/A
9113-550
9113-550
9113-550
9113-550
9113-550
eServer p5 550
2004/07/13
2006/05/31
POWER5
POWER5
POWER5
POWER5
POWER5
1.5
1.5
1.5
1.65
1.65
1
2
4
2
4
3.25
9.13
18.20
9.86
19.66
9114-275
9114-275
9114-275
IntelliStation 275
2003/06/24
2006/05/31
POWER4+
POWER4+
POWER4+
1.0
1.45
1.45
1
1
2
N/A
N/A
N/A
9115-505
9115-505
9115-505
System p5 505
2005/10/04
2006/01/13
POWER5+
POWER5+
POWER5+
1.5
1.65
1.65
2
1
2
9.13
3.51
9.86
9116-561
9116-561
9116-561
System p5 560Q
2006/02/14
2008/02/25
POWER5+
POWER5+
POWER5+
1.5
1.5
1.5
4
8
16
18.75
35.50
65.24
9117-570
9117-570
9117-570
9117-570
9117-570
9117-570
9117-570
9117-570
9117-570
9117-570
9117-570
9117-570
9117-570
eServer p5 570
2004/07/13
2006/05/31
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
1.5
1.5
1.5
1.65
1.65
1.65
1.65
1.65
1.9
1.9
1.9
1.9
1.9
2
4
8
2
4
8
12
16
2
4
8
12
16
9.13
18.20
34.46
9.86
19.66
37.22
53.43
68.40
11.16
22.26
42.14
60.50
77.45
9118-575
9118-575
System p5 575
2005/02/08
2005/02/08
2006/11/17
2006/11/10
POWER5
POWER5
1.5
1.9
16
8
N/A
N/A
Page 42
Type
Model
9119-590
9119-590
9119-590
9119-590
9119-595
9119-595
9119-595
9119-595
9119-595
9119-595
9119-595
9119-595
9119-595
9119-595
9119-595
9119-595
9119-595
9119-595
9123-710
9124-720
Product Name
eServer p5 590
Announce
Date
2004/10/15
Marketing
Withdrawal
2007/02/12
eServer p5 595
2004/10/15
eServer OpenPower
710
2005/01/25
eServer OpenPower
720
2004/09/14
Processor
POWER5
POWER5
POWER5
POWER5
GHz
1.65
1.65
1.65
1.65
#
Cores
8
16
24
32
rPerf
41.68
80.86
116.29
151.72
2007/02/12
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
POWER5
1.65
1.65
1.65
1.65
1.65
1.65
1.65
1.9
1.9
1.9
1.9
1.9
1.9
1.9
16
24
32
40
48
56
64
16
24
32
40
48
56
64
80.86
116.29
151.72
182.07
212.41
242.76
273.10
90.67
130.39
170.11
204.14
238.16
272.18
306.21
2006/05/31
POWER5
1.65
1
N/A
POWER5
1.65
2
N/A
POWER5
1.5
1
N/A
POWER5
POWER5
POWER5
POWER5
1.5
1.5
1.65
1.65
2
4
2
4
N/A
N/A
N/A
N/A
2006/05/31
9124-720
9124-720
9124-720
9124-720
9131-52A
9131-52A
9131-52A
9131-52A
9133-55A
9133-55A
9133-55A
9133-55A
8842-42x
9117-570
System p5 520
2005/10/04
2007/02/12
POWER5+
POWER5+
POWER5+
POWER5+
1.65
1.65
1.9
1.5
1
2
2
4
3.62
10.15
11.16
18.75
2005/10/04
2007/02/12
2005/10/04
2007/04/27
POWER5+
POWER5+
POWER5+
POWER5+
1.65
1.65
1.5
1.5
2
4
4
8
10.15
20.25
18.20
34.46
BladeCenter JS20
6/28/05
5/31/06
PPC970
PPC970
PPC970
PPC970
1.6
1.6
2.2
2.2
1
2
1
2
1.53
2.65
1.95
3.40
System p5 570
2/14/06
8/29/08
POWER5+
POWER5+
POWER5+
POWER5+
POWER5+
POWER5+
POWER5+
POWER5+
POWER5+
POWER5+
1.9
1.9
1.9
1.9
1.9
2.2
2.2
2.2
2.2
2.2
2
4
8
12
16
2
4
8
12
16
12.27
24.48
46.36
66.55
85.20
13.83
27.58
52.21
74.95
95.96
System p5 520Q
System p5 550
Page 43
Type
Model
9118-575
Product Name
System p5 575
Announce
Date
2/14/06
Marketing
Withdrawal
8/29/08
Processor
POWER5+
POWER5+
GHz
1.9
2.2
#
Cores
16
8
rPerf
---
9119-590
System p5 590
7/25/06
8/29/08
POWER5+
POWER5+
POWER5+
POWER5+
2.1
2.1
2.1
2.1
8
16
24
32
55.74
108.13
155.51
202.88
7988-J21
7988-J21
BladeCenter JS21
BladeCenter JS21
6/5/07
6/5/07
12/12/08
12/12/08
PPC970
PPC970
2.7
2.5
2
4
5.31
8.72
9110-51A
System p5 510
7/25/06
7/25/06
07/30/10
07/30/10
POWER5+
POWER5+
2.1
2.1
1
2
6.63
12.46
9110-51A
System p5 510Q
7/25/06
07/30/10
POWER5+
1.65
4
20.25
9131-52A
System p5 520
7/25/06
7/25/06
12/12/08
12/12/08
POWER5+
POWER5+
2.1
2.1
1
2
6.63
12.46
9131-52A
System p5 520Q
7/25/06
12/12/08
POWER5+
1.65
4
20.25
9133-55A
System p5 550
10/4/05
10/4/05
7/25/06
7/25/06
12/12/08
12/12/08
12/12/08
12/12/08
POWER5+
POWER5+
POWER5+
POWER5+
1.9
1.9
2.1
2.1
2
4
2
4
11.16
22.26
12.46
24.86
9133-55A
System p5 550Q
7/25/06
7/25/06
12/12/08
12/12/08
POWER5+
POWER5+
1.65
1.65
4
8
20.25
38.34
9111-285
IntelliStation 285
7/11/06
7/11/06
01/02/09
01/02/09
POWER5+
POWER5+
2.1
2.1
1
2
---
7047-185
IntelliStation 185
2/14/06
2/14/06
01/02/09
01/02/09
PPC970
PPC970
2.5
2.5
1
2
---
9115-505
System p5 505
7/25/06
7/25/06
7/25/06
5/29/09
5/29/09
5/29/09
POWER5+
POWER5+
POWER5+
1.9
1.9
2.1
1
2
2
4.10
11.49
12.46
System p5 505Q
7/25/06
5/29/09
POWER5+
1.65
4
20.25
9119-595
System p5 595
7/25/06
7/25/06
7/25/06
7/25/06
7/25/06
7/25/06
7/25/06
7/25/06
5/29/09
5/29/09
5/29/09
5/29/09
5/29/09
5/29/09
5/29/09
5/29/09
POWER5+
POWER5+
POWER5+
POWER5+
POWER5+
POWER5+
POWER5+
POWER5+
2.1
2.1
2.1
2.1
2.1
2.1
2.1
2.3
16
32
48
64
16
32
48
64
108.13
202.88
284.04
365.19
116.53
218.64
306.10
393.55
9116-561
System p5 560Q
2/14/07
2/14/07
2/14/07
1/2/09
1/2/09
1/2/09
POWER5+
POWER5+
POWER5+
1.8
1.8
1.8
4
8
16
21.72
41.12
75.58
7998-60X
BladeCenter JS12
4/2/08
--
POWER6
3.8
2
14.71
Page 44
Type
Model
7998-61X
BladeCenter JS22
Announce
Date
11/6/07
Marketing
Withdrawal
--
Processor
POWER6
GHz
4.0
#
Cores
4
rPerf
30.26
BladeCenter JS23
4/28/09
--
POWER6+
4.2
4
36.28
BladeCenter JS43
4/28/09
--
POWER6+
4.2
8
68.20
8203-E4A
Power 520
1/29/08
1/29/08
1/29/08
4/28/09
4/28/09
------
POWER6
POWER6
POWER6
POWER6+
POWER6+
4.2
4.2
4.2
4.7
4.7
1
2
4
2
4
8.39
15.95
31.48
20.13
39.73
8204-E8A
Power 550
1/29/08
1/29/08
1/29/08
1/29/08
1/29/08
1/29/08
1/29/08
1/29/08
4/28/09
4/28/09
4/28/09
4/28/09
-------------
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6+
POWER6+
POWER6+
POWER6+
3.5
3.5
3.5
3.5
4.2
4.2
4.2
4.2
5.0
5.0
5.0
5.0
2
4
6
8
2
4
6
8
2
4
6
8
15.85
31.27
45.04
58.80
18.38
36.28
52.24
68.20
21.18
41.81
60.20
78.60
Power 560
10/7/08
10/7/08
10/7/08
----
POWER6+
POWER6+
POWER6+
3.6
3.6
3.6
4
8
16
31.32
57.32
100.30
Power 570
5/22/07
5/22/07
5/22/07
5/22/07
5/22/07
5/22/07
5/22/07
5/22/07
5/22/07
5/22/07
10/7/08
10/7/08
10/7/08
10/7/08
10/7/08
10/7/08
10/7/08
10/7/08
10/7/08
10/7/08
5/22/07
5/22/07
5/22/07
5/22/07
5/22/07
10/7/08
10/7/08
-----7/2/09
7/2/09
7/2/09
7/2/09
7/2/09
----------7/2/09
7/2/09
7/2/09
7/2/09
7/2/09
---
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6+
POWER6+
POWER6+
POWER6+
POWER6+
POWER6+
POWER6+
POWER6+
POWER6+
POWER6+
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6+
POWER6+
3.5
3.5
3.5
3.5
3.5
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.2
4.4
4.4
4.4
4.4
4.4
4.7
4.7
4.7
4.7
4.7
5.0
5.0
2
4
8
12
16
2
4
8
12
16
4
8
16
24
32
2
4
8
12
16
2
4
8
12
16
2
4
15.85
31.69
58.95
83.35
105.75
18.38
36.76
68.38
96.68
122.67
35.50
64.96
113.68
153.46
193.25
19.08
38.16
70.97
100.35
127.32
20.13
40.26
74.89
105.89
134.35
21.16
42.32
9117-MMA
Product Name
Page 45
Type
Model
Product Name
Announce
Date
10/7/08
10/7/08
10/7/08
Marketing
Withdrawal
----
Processor
POWER6+
POWER6+
POWER6+
GHz
5.0
5.0
5.0
#
Cores
8
12
16
rPerf
78.71
111.3
141.21
9125-F2A
Power 575
4/8/08
07/30/10
POWER6+
4.7
32
--
9119-FHA
Power 595
4/8/08
4/8/08
4/8/08
4/8/08
4/8/08
4/8/08
4/8/08
4/8/08
4/8/08
4/8/08
-----------
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
POWER6
4.2
4.2
4.2
4.2
4.2
5.0
5.0
5.0
5.0
5.0
8
16
32
48
64
8
16
32
48
64
75.58
142.90
266.51
373.60
479.89
87.10
164.67
307.12
430.53
553.01
9119-FHA
Power 595
4/8/08
--
POWER6
4.2
8
75.58
8233-E8B
Power 750
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
--------------
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
3.3
3.3
3.3
3.3
3.0
3.0
3.0
3.0
3.3
3.3
3.3
3.3
3.55
6
12
18
24
8
16
24
32
8
16
24
32
32
70.07
134.54
193.40
252.26
81.24
155.99
224.23
292.47
86.99
167.01
240.08
313.15
331.06
8236-E8C
Power 755
02/09/10
--
POWER7
3.3
32
-
9117-MMB
Power 770
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
-----------
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
3.5
3.5
3.5
3.5
3.5
3.1
3.1
3.1
3.1
3.1
6
12
24
36
48
8
16
32
48
64
72.55
140.75
261.19
377.28
493.37
85.20
165.30
306.74
443.06
579.39
9179-MHB
Power 780
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
02/09/10
----------
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
POWER7
3.86
3.86
3.86
3.86
3.86
4.14
4.14
4.14
4.14
8
16
32
48
64
8
16
24
32
100.75
195.45
362.70
523.89
685.09
115.86
226.97
326.24
425.50
Page 46
Type
Model
8406-71X
Product Name
BladeCenter PS700
Announce
Date
04/13/10
Marketing
Withdrawal
--
Processor
POWER7
GHz
3.0
#
Cores
4
rPerf
45.13
8406-71Y
BladeCenter PS701
04/13/10
--
POWER7
3.0
8
81.24
8406-71Y
BladeCenter PS702
04/13/10
--
POWER7
3.0
16
154.36
Note: The rPerf projections are based on different levels of AIX and databases. As a result, actual performance
may vary. Estimates have been provided where no historical projections were available.
Page 47
Notes on Performance Benchmarks and Values
The performance benchmarks and the values shown here were derived using particular, well configured, development-level
computer systems. Unless otherwise indicated for a system, the values were derived using external cache if external cache is
supported on the system. All performance benchmark values are provided "AS IS" and no warranties or guarantees are
expressed or implied by IBM. Actual system performance may vary and is dependent upon many factors including system
hardware configuration and software design and configuration. Buyers should consult other sources of information to evaluate
the performance of systems they are considering buying and should consider conducting application oriented testing. For
additional information about the performance benchmarks, values and systems tested, please contact your IBM local Branch
Office or IBM Authorized Reseller or access the following on the Web:
SPEC
TPC
-
http://www.spec.org
http://www.tpc.org
All performance measurements for the IBM Power, IBM PowerLinux, System p, System p5 and eServer p5 servers
were made with systems running AIX or AIX 5L operating systems unless otherwise indicated to have used Linux.
For new and upgraded systems, the latest versions of AIX were used. All other systems used previous versions of
AIX.
The SPEC CPU2006 and SPEC CPU2000 benchmarks were compiled using IBM's high performance C, C++, and
FORTRAN compilers for AIX and Linux. For new and upgraded systems, the latest versions of these compilers
were used.
The following SPEC benchmarks reflect the performance of the microprocessor, memory architecture and compiler of the tested
system:
SPECint2006 - New SPEC component-level benchmark that measures integer performance. Result is the geometric mean of
twelve tests that comprise the CINT2006 benchmark suite.
SPECint_base2006 - The result of the same tests in CINT2006 with the same compiler options that must be used in all twelve
tests.
SPECint_rate2006 - Geometric average of the twelve SPEC rates from the SPEC integer tests (CINT2006).
SPECint_rate_base2006 - The result of the same tests as CINT2006 with the same compiler options that must be used in all
twelve tests.
SPECfp2006 - New SPEC component-level benchmark that measures floating-point performance. Result is the geometric
mean of seventeen tests, all written in FORTRAN and C languages, that are included in the CFP2006 benchmark suite.
SPECfp_base2006 - The result of the same tests in CFP2006 with the same compiler options that must be used in all
seventeen tests.
SPECfp_rate2000 - Geometric mean of the seventeen SPEC rates from SPEC floating-point tests (CFP2006).
SPECfp_rate_base2000 - The result of the same tests as CFP2000 with the same compiler options that must be used in all
seventeen tests.
SPECint2000 - SPEC component-level benchmark that measures integer performance. Result is the geometric mean of twelve
tests that comprise the CINT2000 benchmark suite. All of these are written in C language except for one which is in C++.
SPECint_base2000 - The result of the same tests in CINT2000 with a maximum of four compiler options that must be used in
all twelve tests.
SPECint_rate2000 - Geometric average of the twelve SPEC rates from the SPEC integer tests (CINT2000).
SPECint_rate_base2000 - The result of the same tests as CINT2000 with a maximum of four compiler options that must be
used in all twelve tests.
SPECfp2000 - SPEC component-level benchmark that measures floating-point performance. Result is the geometric mean of
fourteen tests, all written in FORTRAN and C languages, that are included in the CFP2000 benchmark suite.
Page 48
SPECfp_base2000 - The result of the same tests in CFP2000 with a maximum of four compiler options that must be used in all
fourteen tests.
SPECfp_rate2000 - Geometric mean of the fourteen SPEC rates from SPEC floating-point tests (CFP2000).
SPECfp_rate_base2000 - The result of the same tests as CFP2000 with a maximum of four compiler options that must be used
in all fourteen tests.
SPEC OMP2001 - Geometric mean 11 compute intensive parallel workload tests, written in Fortran and C languages.
SPECweb99 - Number of conforming, simultaneous connections the Web server can support using a predefined workload. The
SPECweb99 test harness emulates clients sending the HTTP requests in the workload over slow Internet connections to the
Web server. The Web server software is Zeus from Zeus Technology Ltd.
SPECweb2005 - Emulates users sending browser requests over broadband Internet connections to a Web server. It provides
three new workloads: a banking site (HTTPS), an e-commerce site (HTTP/HTTPS mix); and a support site (HTTP.
SPECweb99_SSL - Number of conforming, simultaneous SSL encryption/decryption connections the Web server can
support using a predefined workload. The Web server software is Zeus from Zeus Technology Ltd.
SPECjvm99 - Contains eight different tests. Each test measures the time it takes to load the program, verify the class files,
compile on the fly if a JIT compiler is used, and execute the test. A geometric mean is used to compute a composite score.
Test scores are normalized against a reference machine. Higher scores indicate better performance.
SPECjbb2000 - Expressed in operations per second; evaluates the performance of servers running typical Java business
applications; it represents an order processing application for a wholesale supplier. The benchmark can be used to evaluate
performance of hardware and software aspects of Java Virtual Machine (JVM) servers.
SPECjbb2005 - Expressed in bops and bops/JVM; evaluates the performance of servers running typical Java business
applications; it represents an order processing application for a wholesale supplier. The benchmark can be used to evaluate
performance of hardware and software aspects of Java Virtual Machine (JVM) servers.
SPECsfs97_R1 - Measures speed and request-handling capabilities of NFS (network file server) computers.
SPECjAppServer2004 - Measures the performance of Java Enterprise Application Servers using a subset of J2EE APIs in a
complete end-to-end Web application.
SPECjEnterprise2010 - The SPECjEnterprise2010 benchmark is a full system benchmark which allows performance
measurement and characterization of Java EE 5.0 servers and supporting infrastructure such as JVM, Database, CPU, disk and
servers.
The following Transaction Processing Council (TPC) benchmarks reflect the performance of the microprocessor,
memory subsystem, disk subsystem and some portions of the network:
tpmC - TPC Benchmark C throughput measured as the average number of transactions processed per minute during a valid
TPC-C configuration run of at least twenty minutes.
$/tpmC - TPC Benchmark C price-performance ratio reflects the estimated five year total cost of ownership for system hardware,
software and maintenance and is determined by dividing such estimated total cost by the tpmC for the system.
QppH - The power metric of TPC-H and is based on a geometric mean of the 17 TPC-H queries, the insert test and the delete
test. It measures the ability of the system to give a single user the best possible response time by harnessing all available
resources. QppH is scaled based on database size from 30GB to 1TB.
QthH - The throughput metric of TPC-H and is a classical throughput measure characterizing the ability of the system to support
a multiuser workload in a balanced way. A number of query users is chosen, each of which must execute the full set of 17
queries in a different order. In the background, there is an update stream that runs a series of insert/delete operations. QthH is
scaled based on the database size from 30GB to 1TB.
QphH is the geometric mean of the power tests (QppH) and the throughput tests (QthH).
$/QphH - The price/performance metric for the TPC-H benchmark where QphH is the geometric mean of QppH and QthH. The
price is the five year cost of ownership for the tested configuration and includes maintenance and software support.
Page 49
Notes on Performance Estimates
rPerf (Relative Performance) is an estimate of commercial processing performance relative to other IBM UNIX systems. It is
derived from an IBM analytical model which uses characteristics from IBM internal workloads, TPC and SPEC benchmarks. The
rPerf model is not intended to represent any specific public benchmark results and should not be reasonably used in that way.
The model simulates some of the system operations such as CPU, cache and memory. However, the model does not simulate
disk or network I/O operations.
rPerf estimates are calculated based on systems with the latest levels of AIX and other pertinent software at the time of system
announcement. Actual performance will vary based on application and configuration specifics. The IBM eServer pSeries 640 is
the baseline reference system and has a value of 1.0. Although rPerf may be used to approximate relative IBM UNIX
commercial processing performance, actual system performance may vary and is dependent upon many factors including
system hardware configuration and software design and configuration. Note that the rPerf methodology used for the POWER6
systems is identical to that used for the POWER5 systems. Variations in incremental system performance may be observed in
commercial workloads due to changes in the underlying system architecture.
Commercial Processing Workload (CPW) is a relative measure of performance of processors running the IBM i operating
system. Performance in client environments may vary. The value is based on maximum configurations. More performance
information is available in the Performance Capabilities Reference at:
http://www.ibm.com/systems/i/solutions/perfmgmt/resource.html .
All performance estimates are provided "AS IS" and no warranties or guarantees are expressed or implied by IBM. Buyers
should consult other sources of information, including system benchmarks, and application sizing guides to evaluate the
performance of a system they are considering buying. For additional information about rPerf and CPW, contact your local IBM
office or IBM authorized reseller.
IBM withdrew Relative OLTP (ROLTP). Starting June 2001, IBM will not publish/update ROLTP results. ROLTP results of
systems that are withdrawn from the market are left in Section 14, Historical Multiuser Performance.
Application Benchmarks
SAP - Benchmark overview information: http://www.sap.com/benchmark/
PeopleSoft - To get information on PeopleSoft benchmarks, contact PeopleSoft directly or the PeopleSoft/IBM International
Competency Center in San Mateo, CA.
Oracle Applications - Benchmark overview information:
http://www.oracle.com/apps_benchmark/html/results.html
NotesBench - The driver program to test various aspects of Lotus® Notes®. It is designed to execute the commands in
customized workload scripts, simulating Notes client actions. Source: http://www.notesbench.org/.
Total Users - Number of active users supported in the workload, each producing approximately one transaction/minute.
TPM - Transactions per minute (NotesMark)
Average Response Time - Average time for a transaction to be completed for an average user action.
$/User - Total cost of the hardware and software including discounts quoted by a supplier.
Page 50
© IBM Corporation 2014
IBM Corporation
Marketing Communications
Systems and Technology Group
Route 100
Somers, New York 10589
Produced in the United States of America
October , 2014
All Rights Reserved
This document was developed for products and/or services offered
in the United States. IBM may not offer the products, features, or
services discussed in this document in other countries.
The information may be subject to change without notice. Consult
your local IBM business contact for information on the products,
features and services available in your area.
All statements regarding IBM future directions and intent are
subject to change or withdrawal without notice and represent goals
and objectives only.
IBM, the IBM logo, AIX, AIX 5L, BladeCenter, DB2, eServer, Lotus,
Notes, Power, POWER, POWER2, POWER3, POWER4,
POWER4+, POWER5, POWER5+, POWER6, POWER PC,
Power Architecture, Power Systems, PowerPC 601, PowerPC 604,
pSeries, RS/6000, SP, System I, System p, System p5 and
WebSphere are trademarks or registered trademarks of
International Business Machines Corporation in the United States
or other countries or both. A full list of US trademarks owned by
IBM may be found at http://www.ibm.com/legal/copytrade.shtml.
UNIX is a registered trademark of The Open Group in the United
States, other countries or both.
Linux is a registered trademark of Linus Torvalds in the United
States, other countries or both.
Java and all Java-based trademarks and logos are trademarks of
Sun Microsystems, Inc. in the United States and/or other countries.
TPC-C is a trademark of the Transaction Processing Council
(TPPC).
SPECint, SPECfp, SPECjbb, SPECweb, SPECjAppServer, SPEC
OMP, SPECviewperf, SPECapc, SPEChpc, SPECjvm, SPECmail,
SPECimap and SPECsfs are trademarks of the Standard
Performance Evaluation Corp (SPEC).
NetBench is a registered of Ziff Davis Media in the Untied States,
other countries or both.
AltiVec is a trademark of Freestyle Semiconductor, Inc.
Other company, product, and service names may be trademarks
or service marks of others.
IBM hardware products are manufactured from new parts, or new
and used parts. Regardless, our warranty terms apply.
This equipment is subject to FCC rules. It will comply with the
appropriate FCC rules before final delivery to the buyer.
Information concerning non-IBM products was obtained from the
suppliers of these products or other public sources. Questions on
the capabilities of the non-IBM products should be addressed with
the suppliers.
All performance information was determined in a controlled
environment. Actual results may vary. Performance information is
provided “AS IS” and no warranties or guarantees are expressed
or implied by IBM.
The IBM home page on the Internet can be found at
http://www.ibm.com.
The Power Systems home page on the Internet can be found at
http://www.ibm.com/systems/power.
The BladeCenter home page on the Internet can be found at
http://www.ibm.com/ystems/bladecenter.
More information about PowerLinux page on the Internet can be
found at
http://www.ibm.com/systems/power/software/linux/powerlinux
POO03017USEN-35
Page 51