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***** Start of Report *****
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Name: SiSoftware Sandra Lite Evaluation (x86)
Version: 2009.5.15.99
Copyright: Copyright © SiSoftware 1995-Present. All
Rights Reserved.
Registered Owner: T.P. Sirkiä
Registered Organisation: BrainLaundry Studios
Licence Status: Evaluation copy, strictly for personal/
educational use only. For business/commercial
use, it can be trialled for 21 days.
Licence Extra: You are on day %i of your evaluation period.
Please see the SiSoftware site (http://
www.sisoftware.co.uk) for purchase details.
URL: http://www.sisoftware.net/sandra/
E-Mail: sandra.soft@sisoftware.net
Host Name: DAW-A
User: STUDIO
System ID: {2DBCAE8E-50A5-4B74-8605-D4E771BB8EAD}
Result ID: {26F84887-1BD2-40E1-A220-83BBFC3997CD}
Date: 20. kesäkuuta 2009 @ 11:28:51
 
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Comments on report: M-Powered 8 Troubleshooting
 
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< System >
Model: System manufacturer System Product Name
Workgroup: STUDIO
Host Name: DAW-A
User: STUDIO
 
< Processor >
Model: Intel(R) Core(TM)2 Duo CPU E8400 @
3.00GHz
Speed: 3GHz
Cores per Processor: 2 Unit(s)
Threads per Core: 1 Unit(s)
Type: Dual-Core
Integrated Data Cache: 2x 32kB, Synchronous, Write-Thru, 8-way, 64
byte line size
L2 On-board Cache: 6MB, ECC, Synchronous, ATC, 24-way, 64 byte
line size, 2 threads sharing
 
< System >
Mainboard: ASUSTeK Computer INC. P5Q
BIOS: American Megatrends Inc. 1406 (10/02/2008)
Bus(es): ISA X-Bus PCI PCIe IMB USB i2c/SMBus
Multi-Processor (MP) Support: No
Multi-Processor Advanced PIC (:Yes
Total Memory: 3GB DIMM DDR2 DDR3
 
< Chipset >
Model: ASUS P45/P43/G45/G43 DRAM Controller
Front Side Bus Speed: 4x 333MHz (1.33GHz)
Total Memory: 4GB DIMM DDR2 DDR3
Memory Bus Speed: 2x 400MHz (800MHz)
 
< Memory Module(s) >
Memory Module: Kingston 2G-UDIMM 2GB DIMM DDR2 PC2-6400U
DDR2-800 (5-5-5-18 3-23-6-3)
Memory Module: Kingston 2G-UDIMM 2GB DIMM DDR2 PC2-6400U
DDR2-800 (5-5-5-18 3-23-6-3)
 
< Video System >
Adapter: NVIDIA GeForce 8400 GS (16 SP 1.4GHz,
256MB DDR2 2x332MHz, PCIe 2.00 x16)
 
< Graphics Processor >
Adapter: NVIDIA GeForce 8400 GS (8SP 1.4GHz, 256MB
2x332MHz Integrated Graphics)
 
< Storage Devices >
WDC WD800BB-55HEA0 80GB (ATA10:75GB (C:) (E:)
Maxtor 6B200P0 (204GB, ATA133,:190GB (D:)
WD 5000AAV External 500.1GB (U:466GB (G:)
TSSTcorp CDDVDW SH-S203B (SATA:386MB (F:)
ELERG 6Z01A3KXQ (SCSI, BD-R, H:N/A (H:)
 
< Logical Storage Devices >
XP 32 Bit (C:): 20GB (NTFS) @ WDC WD800BB-55HEA0 80GB (ATA100,
NCQ, 2MB Cache)
XP 64 Bit (E:): 55GB (NTFS) @ WDC WD800BB-55HEA0 80GB (ATA100,
NCQ, 2MB Cache)
PROJECTs (D:): 190GB (NTFS) @ Maxtor 6B200P0 (204GB, ATA133,
3.5", 7200rpm, NCQ, 8MB Cache)
osx86dvd (F:): 192kB (CDFS) @ TSSTcorp CDDVDW SH-S203B
(SATA150, DVD+-RW, CD-RW, 2MB Cache)
Optical Drive (H:): N/A @ ELERG 6Z01A3KXQ (SCSI, BD-R, HD-DVD-R,
DVD+-R-DL, CD-R)
3.5" 1.44MB (A:): N/A
BACKUP (G:): 466GB (NTFS) @ WD 5000AAV External 500.1GB
(USB)
 
< Peripherals >
LPC Hub Controller 1: ASUS LPC Interface Controller
LPC Legacy Controller 1: T0 A5-13h
Audio Device: Xilinx RME Digi9652 Hammerfall DSP
Disk Controller: ASUS 4 port SATA IDE Controller
Disk Controller: ASUS 2 port SATA IDE Controller
Disk Controller: ASUS 6121 SATA2 Controller
USB Controller 1: ASUS USB UHCI Controller #4
USB Controller 2: ASUS USB UHCI Controller #5
USB Controller 3: ASUS USB UHCI Controller #6
USB Controller 4: ASUS USB EHCI Controller #2
USB Controller 5: ASUS USB UHCI Controller #1
USB Controller 6: ASUS USB UHCI Controller #2
USB Controller 7: ASUS USB UHCI Controller #3
USB Controller 8: ASUS USB EHCI Controller #1
SMBus/i2c Controller 1: Intel 801xx/63xx SMBus
 
< Network Services >
Network Adapter: Realtek RTL8139/810x Family Fast Ethernet NIC
(Ethernet, 100Mbps)
 
< Power Management >
Mains (AC) Line Status: On-Line
 
< Operating System >
Windows System: Microsoft Windows XP Professional 5.01.2600
(Service Pack 3)
Platform Compliance: x86
 
>
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< Benchmark Results >
Aggregate Arithmetic Performan:22.62GOPS
Dhrystone ALU: 23.44GIPS
Whetstone iSSE3: 21.8GFLOPS
Results Interpretation: Higher index values are better.
 
< Performance vs. Speed >
Aggregate Arithmetic Performan:7.54MOPS/MHz
Dhrystone ALU: 7.81MIPS/MHz
Whetstone iSSE3: 7.27MFLOPS/MHz
Results Interpretation: Higher index values are better.
 
< Performance vs. Power >
Processor(s) Power: 52.57W
Aggregate Arithmetic Performan:430.30MOPS/W
Dhrystone ALU: 445.90MIPS/W
Whetstone iSSE3: 414.72MFLOPS/W
Results Interpretation: Higher index values are better.
 
< Performance Test Status >
Result ID: Intel(R) Core(TM)2 Duo CPU E8400 @
3.00GHz (2C, 3GHz, 6MB L2, 1.33GHz FSB)
Platform Compliance: x86
NUMA Support: No
SMP (Multi-Processor) Benchmar:Yes
Total Test Threads: 2
Multi-Core Test: Yes
Cores per Processor: 2
SMT (Multi-Threaded) Benchmark:No
Processor Affinity: P0C0T0 P0C1T0
System Timer: 3GHz
Number of Runs: 64000 / 640
 
< Processor >
Model: Intel(R) Core(TM)2 Duo CPU E8400 @
3.00GHz
Speed: 3GHz
Peak Processing Performance (P:24GFLOPS
Adjusted Peak Performance (APP:7.2WG
Cores per Processor: 2 Unit(s)
Type: Dual-Core
Integrated Data Cache: 2x 32kB, Synchronous, Write-Thru, 8-way, 64
byte line size
L2 On-board Cache: 6MB, ECC, Synchronous, ATC, 24-way, 64 byte
line size, 2 threads sharing
 
< Features >
SSE Technology: Yes
SSE2 Technology: Yes
SSE3 Technology: Yes
Supplemental SSE3 Technology: Yes
SSE4.1 Technology: Yes
SSE4.2 Technology: No
AVX - Advanced Vector eXtensio:No
FMA - Fused Multiply Add eXten:No
SSE4A Technology: No
SSE5 Technology: No
HTT - Hyper-Threading Technolo:No
 
< Performance Tips >
Notice 5008: To change benchmarks, click Options.
Notice 5004: Synthetic benchmark. May not tally with 'real-
life' performance.
Notice 5006: Only compare the results with ones obtained
using the same version!
Warning 5009: Mobile processors yield lower indexes in
power management modes. Check power settings
if index is low.
Tip 2: Double-click tip or press Enter while a tip
is selected for more information about the
tip.
 
>
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< Benchmark Results >
Aggregate Multi-Media Performa:42.36MPixel/s
Multi-Media Int x8 iSSE4.1: 53.67MPixel/s
Multi-Media Float x4 iSSE2: 31MPixel/s
Multi-Media Double x2 iSSE2: 15.69MPixel/s
Results Interpretation: Higher index values are better.
 
< Performance vs. Speed >
Aggregate Multi-Media Performa:14.12kPixels/s/MHz
Multi-Media Int x8 iSSE4.1: 17.89kPixels/s/MHz
Multi-Media Float x4 iSSE2: 10.35kPixels/s/MHz
Multi-Media Double x2 iSSE2: 5.23kPixels/s/MHz
Results Interpretation: Higher index values are better.
 
< Performance vs. Power >
Processor(s) Power: 52.57W
Aggregate Multi-Media Performa:805.73kPixels/s/W
Multi-Media Int x8 iSSE4.1: 1020.91kPixels/s/W
Multi-Media Float x4 iSSE2: 590.56kPixels/s/W
Multi-Media Double x2 iSSE2: 298.40kPixels/s/W
Results Interpretation: Higher index values are better.
 
< Performance Test Status >
Result ID: Intel(R) Core(TM)2 Duo CPU E8400 @
3.00GHz (2C, 3GHz, 6MB L2, 1.33GHz FSB)
Platform Compliance: x86
NUMA Support: No
SMP (Multi-Processor) Benchmar:Yes
Total Test Threads: 2
Multi-Core Test: Yes
Cores per Processor: 2
SMT (Multi-Threaded) Benchmark:No
Processor Affinity: P0C0T0 P0C1T0
System Timer: 3GHz
Rendered Image Size: 1920x1080
 
< Processor >
Model: Intel(R) Core(TM)2 Duo CPU E8400 @
3.00GHz
Speed: 3GHz
Peak Processing Performance (P:24GFLOPS
Adjusted Peak Performance (APP:7.2WG
Cores per Processor: 2 Unit(s)
Type: Dual-Core
Integrated Data Cache: 2x 32kB, Synchronous, Write-Thru, 8-way, 64
byte line size
L2 On-board Cache: 6MB, ECC, Synchronous, ATC, 24-way, 64 byte
line size, 2 threads sharing
 
< Features >
SSE Technology: Yes
SSE2 Technology: Yes
SSE3 Technology: Yes
Supplemental SSE3 Technology: Yes
SSE4.1 Technology: Yes
SSE4.2 Technology: No
AVX - Advanced Vector eXtensio:No
FMA - Fused Multiply Add eXten:No
SSE4A Technology: No
SSE5 Technology: No
HTT - Hyper-Threading Technolo:No
 
< Performance Tips >
Notice 5008: To change benchmarks, click Options.
Notice 5004: Synthetic benchmark. May not tally with 'real-
life' performance.
Notice 5006: Only compare the results with ones obtained
using the same version!
Warning 5009: Mobile processors yield lower indexes in
power management modes. Check power settings
if index is low.
Tip 2: Double-click tip or press Enter while a tip
is selected for more information about the
tip.
 
>
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< Benchmark Results >
Inter-Core Bandwidth: 9GB/s
Results Interpretation: Higher index values are better.
Inter-Core Latency: 45ns
Results Interpretation: Lower index values are better.
 
< Performance vs. Speed >
Inter-Core Bandwidth: 3.05MB/s/MHz
Results Interpretation: Higher index values are better.
Inter-Core Latency: 0.01ns/MHz
Results Interpretation: Lower index values are better.
 
< Performance vs. Power >
Processor(s) Power: 52.57W
Inter-Core Bandwidth: 173.84MB/s/W
Results Interpretation: Higher index values are better.
Inter-Core Latency: 0.86ns/W
Results Interpretation: Lower index values are better.
 
< Capacity vs Power >
Total Cache Size: 236.56kB/W
Results Interpretation: Higher index values are better.
 
< Detailed Benchmark Results >
Processor Affinity: CPU0-CPU1
2x8kB Blocks Bandwidth: 4.72GB/s
4x8kB Blocks Bandwidth: 5GB/s
2x32kB Blocks Bandwidth: 6.4GB/s
4x32kB Blocks Bandwidth: 13GB/s
16x8kB Blocks Bandwidth: 12.14GB/s
2x128kB Blocks Bandwidth: 13.18GB/s
4x128kB Blocks Bandwidth: 13.19GB/s
16x32kB Blocks Bandwidth: 13GB/s
64x8kB Blocks Bandwidth: 12.13GB/s
16x128kB Blocks Bandwidth: 13GB/s
64x32kB Blocks Bandwidth: 12.73GB/s
64x128kB Blocks Bandwidth: 2.36GB/s
 
< Performance Test Status >
Result ID: Intel(R) Core(TM)2 Duo CPU E8400 @
3.00GHz (2C, 3GHz, 6MB L2, 1.33GHz FSB)
Platform Compliance: x86
Buffering Used: No
NUMA Support: No
SMP (Multi-Processor) Benchmar:Yes
Total Test Threads: 2
Multi-Core Test: Yes
Cores per Processor: 2
System Timer: 3GHz
Page Size: 4kB
Use Large Memory Pages: No
 
< Processor >
Model: Intel(R) Core(TM)2 Duo CPU E8400 @
3.00GHz
Speed: 3GHz
Peak Processing Performance (P:24GFLOPS
Adjusted Peak Performance (APP:7.2WG
Cores per Processor: 2 Unit(s)
Type: Dual-Core
Integrated Data Cache: 2x 32kB, Synchronous, Write-Thru, 8-way, 64
byte line size
L2 On-board Cache: 6MB, ECC, Synchronous, ATC, 24-way, 64 byte
line size, 2 threads sharing
 
< Performance Tips >
Notice 5008: To change benchmarks, click Options.
Notice 5004: Synthetic benchmark. May not tally with 'real-
life' performance.
Notice 5006: Only compare the results with ones obtained
using the same version!
Tip 11: Use the 'Switch Chart Type' button to switch
between Detailed and Combined charts.
Warning 5009: Mobile processors yield lower indexes in
power management modes. Check power settings
if index is low.
Tip 2: Double-click tip or press Enter while a tip
is selected for more information about the
tip.
 
>
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< Benchmark Results >
ALU Power Performance: 8.2GIPS
Power Efficiency: 0.00
Results Interpretation: Higher index values are better.
 
< Performance vs. Speed >
ALU Power Performance: 2.73MIPS/MHz
Results Interpretation: Higher index values are better.
 
< Performance vs. Power >
Processor(s) Power: 52.57W
ALU Power Performance: 155.87MIPS/W
Results Interpretation: Higher index values are better.
 
< APM System Status >
Mains (AC) Line Status: On-Line
Processor Dynamic Throttle Pol:None
Optimised for Performance: No
 
< Performance Test Status >
Result ID: Intel(R) Core(TM)2 Duo CPU E8400 @
3.00GHz (2C, 3GHz, 6MB L2, 1.33GHz FSB)
Platform Compliance: x86
NUMA Support: No
SMP (Multi-Processor) Benchmar:No
Total Test Threads: 2
Multi-Core Test: Yes
Cores per Processor: 2
SMT (Multi-Threaded) Benchmark:No
Processor Affinity: P0C0T0 P0C1T0
System Timer: 3GHz
 
< Breakdown at 500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 1000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 1500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 2000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 2500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 3000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 3500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 4000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 4500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 5000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 6000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 7000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 8000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 9000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 10000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 11000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 12000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 13000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 14000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 15000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 16500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 18000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 19500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 21000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 22500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 24000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Processor >
Model: Intel(R) Core(TM)2 Duo CPU E8400 @
3.00GHz
Speed: 3GHz
Peak Processing Performance (P:24GFLOPS
Adjusted Peak Performance (APP:7.2WG
Cores per Processor: 2 Unit(s)
Type: Dual-Core
Integrated Data Cache: 2x 32kB, Synchronous, Write-Thru, 8-way, 64
byte line size
L2 On-board Cache: 6MB, ECC, Synchronous, ATC, 24-way, 64 byte
line size, 2 threads sharing
 
< Performance Tips >
Notice 5008: To change benchmarks, click Options.
Notice 5004: Synthetic benchmark. May not tally with 'real-
life' performance.
Notice 5006: Only compare the results with ones obtained
using the same version!
Tip 1108: Processor power policy not optimal. For best
power management efficiency, choose the
adaptive mode.
Warning 5009: Mobile processors yield lower indexes in
power management modes. Check power settings
if index is low.
Tip 2: Double-click tip or press Enter while a tip
is selected for more information about the
tip.
 
>
< Benchmark Results >
ALU Power Performance: 8.2GIPS
Power Efficiency: 0.00
Results Interpretation: Higher index values are better.
 
< Performance vs. Speed >
ALU Power Performance: 2.73MIPS/MHz
Results Interpretation: Higher index values are better.
 
< Performance vs. Power >
Processor(s) Power: 52.57W
ALU Power Performance: 155.87MIPS/W
Results Interpretation: Higher index values are better.
 
< APM System Status >
Mains (AC) Line Status: On-Line
Processor Dynamic Throttle Pol:None
Optimised for Performance: No
 
< Performance Test Status >
Result ID: Intel(R) Core(TM)2 Duo CPU E8400 @
3.00GHz (2C, 3GHz, 6MB L2, 1.33GHz FSB)
Platform Compliance: x86
NUMA Support: No
SMP (Multi-Processor) Benchmar:No
Total Test Threads: 2
Multi-Core Test: Yes
Cores per Processor: 2
SMT (Multi-Threaded) Benchmark:No
Processor Affinity: P0C0T0 P0C1T0
System Timer: 3GHz
 
< Breakdown at 500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 1000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 1500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 2000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 2500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 3000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 3500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 4000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 4500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 5000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 6000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 7000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 8000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 9000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 10000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 11000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 12000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 13000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 14000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 15000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 16500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 18000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 19500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 21000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 22500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 24000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Processor >
Model: Intel(R) Core(TM)2 Duo CPU E8400 @
3.00GHz
Speed: 3GHz
Peak Processing Performance (P:48GFLOPS
Adjusted Peak Performance (APP:14.4WG
Cores per Processor: 2 Unit(s)
Type: Dual-Core
Integrated Data Cache: 2x 32kB, Synchronous, Write-Thru, 8-way, 64
byte line size
L2 On-board Cache: 6MB, ECC, Synchronous, ATC, 24-way, 64 byte
line size, 2 threads sharing
 
< Performance Tips >
Notice 5008: To change benchmarks, click Options.
Notice 5004: Synthetic benchmark. May not tally with 'real-
life' performance.
Notice 5006: Only compare the results with ones obtained
using the same version!
Tip 1108: Processor power policy not optimal. For best
power management efficiency, choose the
adaptive mode.
Warning 5009: Mobile processors yield lower indexes in
power management modes. Check power settings
if index is low.
Tip 2: Double-click tip or press Enter while a tip
is selected for more information about the
tip.
 
>
< Benchmark Results >
ALU Power Performance: 8.2GIPS
Power Efficiency: 0.00
Results Interpretation: Higher index values are better.
 
< Performance vs. Speed >
ALU Power Performance: 2.73MIPS/MHz
Results Interpretation: Higher index values are better.
 
< Performance vs. Power >
Processor(s) Power: 52.57W
ALU Power Performance: 155.87MIPS/W
Results Interpretation: Higher index values are better.
 
< APM System Status >
Mains (AC) Line Status: On-Line
Processor Dynamic Throttle Pol:None
Optimised for Performance: No
 
< Performance Test Status >
Result ID: Intel(R) Core(TM)2 Duo CPU E8400 @
3.00GHz (2C, 3GHz, 6MB L2, 1.33GHz FSB)
Platform Compliance: x86
NUMA Support: No
SMP (Multi-Processor) Benchmar:No
Total Test Threads: 2
Multi-Core Test: Yes
Cores per Processor: 2
SMT (Multi-Threaded) Benchmark:No
Processor Affinity: P0C0T0 P0C1T0
System Timer: 3GHz
 
< Breakdown at 500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 1000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 1500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 2000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 2500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 3000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 3500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 4000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 4500 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio: 100% (1.138V)
 
< Breakdown at 5000 MIPS Workload >
Average Clock Ratio: 100% (3GHz)
Average Voltage Ratio:

Vastaus:
 
Sulla on RME:n äänikortti, mut tarviit M-audion? M-powered toolssit vaatii m-audion kortin et ne toimii...
 
Btw, kannattais ehkä ensin laittaa vähän lyhyempi posti et mitä se Protools herjaa ennen viiden sivun Sandra-raporttia ;)
 
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