Procbench, avagy méricskéljünk! :)

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2006-09-13-05:42 #2071409
juuzer
Felhasználó
Itt az enyém:
Alap órajelen (200×10):

Procbench V0.61 Alpha, Peter Kuscsik, 2006-07-

Basic CPUID info:
~~~~~~~~~~~~~~~~~
Vendor : AuthenticAMD
Family : 15
Model : 15
Revision : 0
Name : AMD Athlon(tm) 64 Processor 3200+
Features : fpu vme de pse tsc msr pae mce cxchg8 apic sep mtrr pge mca cmov pat pse36 clfl mmx fxsr sse sse2

Data TLB (2 MB and 4 MB pages): Fully associative, 8 entries
Instruction TLB (2 MB and 4 MB pages): Fully associative, 8 entries
Data TLB (4 KB pages): Fully associative, 32 entries
Instruction TLB (4 KB pages): Fully associative, 32 entries
1st-level instr cache: 64 KBytes, 2-way set associative, 64 byte line size
1st-level data cache: 64 KBytes, 2-way set associative, 64 byte line size
2nd-level cache: 512 KBytes, 8-way set associative, 64 byte line size

Frequency [MHz]: 2014.997

Additional information
~~~~~~~~~~~~~~~~~~~~~~

Speed of registers measured by add instructions via 1, 2, 3 and 4 registers.
Speeds adding to 1 Register 2 Registers 3 Registers 4 Registers
16 bit Integer MIPS 2006 4026 5940 5882
32 bit Integer MIPS 2006 4026 5940 5882
32 bit MMX Integer MIPS 1006 2006 3015 4026
64 bit FPU MFLOPS 502 1005 1511 2006
32 bit 3DNow MFLOPS 503 1005 1507 2013

Memory read performance test :
Read Buffer Speed[MB/s] Read Buffer Speed[MB/s]
4 KBytes 28169 8 KBytes 28571
16 KBytes 28571 32 KBytes 28169
64 KBytes 27777 128 KBytes 9009
256 KBytes 9049 512 KBytes 5509
1 MByte 3710 2 MBytes 3717
4 MBytes 3683

Generating:
1. Random numbers [200mills]: 0.497 seconds
2. Fibonicci numbers [200mills]: 0.298 seconds
3. Ackermann’s function [3,10]: 0.388 seconds
4. Cycle with Loop [500m times]: 0.746 seconds
5. Cycle with Jump [500m times]: 0.497 seconds
6. Primes (FPU based) [first 200k]: 0.731 seconds
7. Primes (Int based) [first 200k]: 1.003 seconds

Picit húzva (240×10):
Procbench V0.61 Alpha, Peter Kuscsik, 2006-07-

Basic CPUID info:
~~~~~~~~~~~~~~~~~
Vendor : AuthenticAMD
Family : 15
Model : 15
Revision : 0
Name : AMD Athlon(tm) 64 Processor 3200+
Features : fpu vme de pse tsc msr pae mce cxchg8 apic sep mtrr pge mca cmov pat pse36 clfl mmx fxsr sse sse2

Data TLB (2 MB and 4 MB pages): Fully associative, 8 entries
Instruction TLB (2 MB and 4 MB pages): Fully associative, 8 entries
Data TLB (4 KB pages): Fully associative, 32 entries
Instruction TLB (4 KB pages): Fully associative, 32 entries
1st-level instr cache: 64 KBytes, 2-way set associative, 64 byte line size
1st-level data cache: 64 KBytes, 2-way set associative, 64 byte line size
2nd-level cache: 512 KBytes, 8-way set associative, 64 byte line size

Frequency [MHz]: 2400.185

Additional information
~~~~~~~~~~~~~~~~~~~~~~

Speed of registers measured by add instructions via 1, 2, 3 and 4 registers.
Speeds adding to 1 Register 2 Registers 3 Registers 4 Registers
16 bit Integer MIPS 2400 4761 7058 7058
32 bit Integer MIPS 2400 4800 7058 7058
32 bit MMX Integer MIPS 1195 2400 3592 4800
64 bit FPU MFLOPS 599 1197 1796 2400
32 bit 3DNow MFLOPS 599 1197 1796 2400

Memory read performance test :
Read Buffer Speed[MB/s] Read Buffer Speed[MB/s]
4 KBytes 33898 8 KBytes 33898
16 KBytes 33898 32 KBytes 33333
64 KBytes 33898 128 KBytes 11428
256 KBytes 11428 512 KBytes 11173
1 MByte 4454 2 MBytes 4454
4 MBytes 4385

Generating:
1. Random numbers [200mills]: 0.417 seconds
2. Fibonicci numbers [200mills]: 0.250 seconds
3. Ackermann’s function [3,10]: 0.326 seconds
4. Cycle with Loop [500m times]: 0.626 seconds
5. Cycle with Jump [500m times]: 0.417 seconds
6. Primes (FPU based) [first 200k]: 0.613 seconds
7. Primes (Int based) [first 200k]: 0.843 seconds
2006-09-13-08:27 #2071410
masterminds
Felhasználó
Sziasztok!

Procbench V0.61 Alpha, Peter Kuscsik, 2006-07-

Basic CPUID info:
~~~~~~~~~~~~~~~~~
Vendor : GenuineIntel
Family : 15
Model : 4
Revision : 1
Name : Intel(R) Celeron(R) CPU 3.06GHz
Features : fpu vme de pse tsc msr pae mce cxchg8 apic sep mtrr pge mca cmov tm2 cnxt-id

Instruction TLB: 4 KByte and 2-MByte or 4-MByte pages, 128 entries
Data TLB: 4 KByte and 4 MByte pages, 64 entries
1st-level data cache: 16 KByte, 8-way set associative, 64 byte line size
No 2nd-level cache or, if processor contains a valid 2nd-level cache, no 3rd
Trace cache: 12 K-µop, 8-way set associative

Frequency [MHz]: 3065.191

Additional information
~~~~~~~~~~~~~~~~~~~~~~

Speed of registers measured by add instructions via 1, 2, 3 and 4 registers.
Speeds adding to 1 Register 2 Registers 3 Registers 4 Registers
16 bit Integer MIPS 2325 5128 5454 6185
32 bit Integer MIPS 2362 5000 5555 5607
32 bit MMX Integer MIPS 1190 2690 2586 2521
64 bit FPU MFLOPS —- —- —- —-
32 bit 3DNow MFLOPS —- —- —- —-

Memory read performance test :
Read Buffer Speed[MB/s] Read Buffer Speed[MB/s]
4 KBytes 15037 8 KBytes 16260
16 KBytes 14388 32 KBytes 10000
64 KBytes 8771 128 KBytes 8658
256 KBytes 3514 512 KBytes 2747
1 MByte 2649 2 MBytes 2840
4 MBytes 2717

Generating:
1. Random numbers [200mills]: 0.329 seconds
2. Fibonicci numbers [200mills]: 0.238 seconds
3. Ackermann’s function [3,10]: 0.596 seconds
4. Cycle with Loop [500m times]: 0.434 seconds
5. Cycle with Jump [500m times]: 0.309 seconds
6. Primes (FPU based) [first 200k]: 1.371 seconds
7. Primes (Int based) [first 200k]: 0.811 seconds
2006-09-13-08:49 #2071411
milfer
Felhasználó
Én is csatlakozom. 🙂

Procbench V0.61 Alpha, Peter Kuscsik, 2006-07-

Basic CPUID info:
~~~~~~~~~~~~~~~~~
Vendor : AuthenticAMD
Family : 6
Model : 10
Revision : 0
Name : AMD Athlon(tm) XP 3200+
Features : fpu vme de pse tsc msr pae mce cxchg8 apic sep mtrr pge mca cmov pat pse36 mmx fxsr sse

Data TLB (2 MB and 4 MB pages):4-way set associative, 8 entries
Instruction TLB (2 MB and 4 MB pages): Fully associative, 8 entries
Data TLB (4 KB pages): Fully associative, 32 entries
Instruction TLB (4 KB pages): Fully associative, 16 entries
1st-level instr cache: 64 KBytes, 2-way set associative, 64 byte line size
1st-level data cache: 64 KBytes, 2-way set associative, 64 byte line size
2nd-level cache: 512 KBytes, 8-way set associative, 64 byte line size

Frequency [MHz]: 2297.822

Additional information
~~~~~~~~~~~~~~~~~~~~~~

Speed of registers measured by add instructions via 1, 2, 3 and 4 registers.
Speeds adding to 1 Register 2 Registers 3 Registers 4 Registers
16 bit Integer MIPS 1846 4000 4838 5263
32 bit Integer MIPS 1780 3821 4651 4800
32 bit MMX Integer MIPS 986 2097 2857 3750
64 bit FPU MFLOPS 491 1038 1550 2127
32 bit 3DNow MFLOPS 491 1039 1587 2105

Memory read performance test :
Read Buffer Speed[MB/s] Read Buffer Speed[MB/s]
4 KBytes 18691 8 KBytes 25316
16 KBytes 18867 32 KBytes 27777
64 KBytes 16260 128 KBytes 5780
256 KBytes 5089 512 KBytes 2770
1 MByte 1512 2 MBytes 1569
4 MBytes 1552

Generating:
1. Random numbers [200mills]: 0.611 seconds
2. Fibonicci numbers [200mills]: 0.396 seconds
3. Ackermann’s function [3,10]: 0.452 seconds
4. Cycle with Loop [500m times]: 0.762 seconds
5. Cycle with Jump [500m times]: 0.529 seconds
6. Primes (FPU based) [first 200k]: 1.042 seconds
7. Primes (Int based) [first 200k]: 0.985 seconds
2006-09-13-11:55 #2071412
kovi
Felhasználó
egy szintetikus, teljes teszternek személy szerint jobban örülnék, benne a 3D képességek komlex mérésével. Pl. a 3D-re készített TEVE bench (még?) elég ratyi, igazán összetett RAM mérésekre még shol sincs linuxos lehetőség, HDD adatátvitelre komplex teszt még nem létezik stb.

Szóval részemről egyelőre UT2004 Timedemo.. Parasztmódszer: paraszt gyereknek egyelőre ez van.
2006-09-13-15:18 #2071413
uzsolt
Felhasználó
Enyje, mindenkinek ilyen menő gépje van? Na, azért, hogy ne csak atomerőművek legyenek:

Basic CPUID info:
~~~~~~~~~~~~~~~~~
Vendor : GenuineIntel
Family : 15
Model : 2
Revision : 7
Name : Intel(R) Celeron(R) CPU 2.00GHz
Features : fpu vme de pse tsc msr pae mce cxchg8 sep mtrr pge mca cmov pat pse36 clfl dtes acpi mmx fxsr sse sse2 ss htt tm1 cnxt-id

Instruction TLB: 4 KByte and 2-MByte or 4-MByte pages, 128 entries
Data TLB: 4 KByte and 4 MByte pages, 64 entries
1st-level data cache: 8 KByte, 4-way set associative, 64 byte line size
No 2nd-level cache or, if processor contains a valid 2nd-level cache, no 3rd-level cache
Trace cache: 12 K-µop, 8-way set associative

Frequency [MHz]: 1999.921

Additional information
~~~~~~~~~~~~~~~~~~~~~~
Official name : Mobile P4 Celeron 2,0
Codename : Northwood
Release : 01/2003
FSB : 100MHz
Datarate : QDR
Multiplier : 20.0x
VCore : 1.3V
Current : 33.3A
Power : 32.0W
Max temperature : 100.0øC
Transistors : 55.0M
Process : 130nm
Diesize : 131mm2

Speed of registers measured by add instructions via 1, 2, 3 and 4 registers.
Speeds adding to 1 Register 2 Registers 3 Registers 4 Registers
16 bit Integer MIPS 3508 4918 4958 4918
32 bit Integer MIPS 3508 4958 4958 5042
32 bit MMX Integer MIPS 881 1780 1734 1785
64 bit FPU MFLOPS —- —- —- —-
32 bit 3DNow MFLOPS —- —- —- —-

Memory read performance test :
Read Buffer Speed[MB/s] Read Buffer Speed[MB/s]
4 KBytes 12903 8 KBytes 12269
16 KBytes 6644 32 KBytes 6968
64 KBytes 6230 128 KBytes 1558
256 KBytes 1234 512 KBytes 1226
1 MByte 1233 2 MBytes 1241
4 MBytes 1254

Generating:
1. Random numbers [200mills]: 0.779 seconds
2. Fibonicci numbers [200mills]: 0.291 seconds
3. Ackermann’s function [3,10]: 0.648 seconds
4. Cycle with Loop [500m times]: 0.595 seconds
5. Cycle with Jump [500m times]: 0.420 seconds
6. Primes (FPU based) [first 200k]: 2.741 seconds
7. Primes (Int based) [first 200k]: 1.196 seconds
32 bit Integer MIPS 3508 4958 4958 5042
32 bit MMX Integer MIPS 881 1780 1734 1785
64 bit FPU MFLOPS —- —- —- —-
32 bit 3DNow MFLOPS —- —- —- —-

Memory read performance test :
Read Buffer Speed[MB/s] Read Buffer Speed[MB/s]
4 KBytes 12903 8 KBytes 12269
16 KBytes 6644 32 KBytes 6968
64 KBytes 6230 128 KBytes 1558
256 KBytes 1234 512 KBytes 1226
1 MByte 1233 2 MBytes 1241
4 MBytes 1254

Generating:
1. Random numbers [200mills]: 0.779 seconds
2. Fibonicci numbers [200mills]: 0.291 seconds
3. Ackermann’s function [3,10]: 0.648 seconds
4. Cycle with Loop [500m times]: 0.595 seconds
5. Cycle with Jump [500m times]: 0.420 seconds
6. Primes (FPU based) [first 200k]: 2.741 seconds
7. Primes (Int based) [first 200k]: 1.196 seconds

Azért kíváncsi lennék, hogy ha lefordítanám, akkor mit produkálna 🙂

Ja, az hogy „egy gepi kodban irott”, kicsit nagyképű. Ezért nem is értettem először, hogy hogyan lehet akkor multiplatform. Azért asm!=gépi kod…
2006-09-13-17:22 #2071414
DonCarlos
Felhasználó
Én is csatlakoznék:

Procbench V0.61 Alpha, Peter Kuscsik, 2006-07-

Basic CPUID info:
~~~~~~~~~~~~~~~~~
Vendor : AuthenticAMD
Family : 15
Model : 4
Revision : 8
Name : AMD Athlon(tm) 64 Processor 2800+
Features : fpu vme de pse tsc msr pae mce cxchg8 apic sep mtrr pge mca cmov pat pse36 clfl mmx fxsr sse sse2

Data TLB (2 MB and 4 MB pages): Fully associative, 8 entries
Instruction TLB (2 MB and 4 MB pages): Fully associative, 8 entries
Data TLB (4 KB pages): Fully associative, 32 entries
Instruction TLB (4 KB pages): Fully associative, 32 entries
1st-level instr cache: 64 KBytes, 2-way set associative, 64 byte line size
1st-level data cache: 64 KBytes, 2-way set associative, 64 byte line size
2nd-level cache: 512 KBytes, 8-way set associative, 64 byte line size

Frequency [MHz]: 799.562

Additional information
~~~~~~~~~~~~~~~~~~~~~~

Speed of registers measured by add instructions via 1, 2, 3 and 4 registers.
Speeds adding to 1 Register 2 Registers 3 Registers 4 Registers
16 bit Integer MIPS 865 2790 3409 4918
32 bit Integer MIPS 1626 2803 4958 3529
32 bit MMX Integer MIPS 789 1287 2390 3076
64 bit FPU MFLOPS 377 735 1237 1348
32 bit 3DNow MFLOPS 392 748 1052 1671

Memory read performance test :
Read Buffer Speed[MB/s] Read Buffer Speed[MB/s]
4 KBytes 20202 8 KBytes 23255
16 KBytes 24390 32 KBytes 24096
64 KBytes 16000 128 KBytes 6600
256 KBytes 7968 512 KBytes 5390
1 MByte 2275 2 MBytes 2219
4 MBytes 2242

Generating:
1. Random numbers [200mills]: 0.695 seconds
2. Fibonicci numbers [200mills]: 0.379 seconds
3. Ackermann’s function [3,10]: 0.556 seconds
4. Cycle with Loop [500m times]: 0.987 seconds
5. Cycle with Jump [500m times]: 0.604 seconds
6. Primes (FPU based) [first 200k]: 0.967 seconds
7. Primes (Int based) [first 200k]: 1.380 seconds
2006-09-13-17:35 #2071415
bepe79
Felhasználó
A 16 bit integer meg a 32 bit integer-ben a 3.2-es P4-em lenyomta az A64-eket? ??? :tellme: WTF.
Jah, egyébként alapon mértem, majd fölrángatom 3.9 GHz-ig.. :wink1:
2006-09-13-17:40 #2071416
Tutu
Felhasználó
^{Procbench V0.61 Alpha, Peter Kuscsik, 2006-07-}

Basic CPUID info:
~~~~~~~~~~~~~~~~~
Vendor : AuthenticAMD
Family : 15
Model : 15
Revision : 2
Name : AMD Athlon(tm) 64 Processor 3200+
Features : fpu vme de pse tsc msr pae mce cxchg8 apic sep mtrr pge mca cmov pat pse36 clfl mmx fxsr sse sse2 sse3

Data TLB (2 MB and 4 MB pages): Fully associative, 8 entries
Instruction TLB (2 MB and 4 MB pages): Fully associative, 8 entries
Data TLB (4 KB pages): Fully associative, 32 entries
Instruction TLB (4 KB pages): Fully associative, 32 entries
1st-level instr cache: 64 KBytes, 2-way set associative, 64 byte line size
1st-level data cache: 64 KBytes, 2-way set associative, 64 byte line size
2nd-level cache: 512 KBytes, 8-way set associative, 64 byte line size

Frequency [MHz]: 2010.285

Additional information
~~~~~~~~~~~~~~~~~~~~~~

Speed of registers measured by add instructions via 1, 2, 3 and 4 registers.
Speeds adding to 1 Register 2 Registers 3 Registers 4 Registers
16 bit Integer MIPS 1973 3973 5825 5825
32 bit Integer MIPS 1967 3726 4878 5825
32 bit MMX Integer MIPS 988 1973 2985 3947
64 bit FPU MFLOPS 483 986 1485 1796
32 bit 3DNow MFLOPS 495 949 1481 1960

Memory read performance test :
Read Buffer Speed[MB/s] Read Buffer Speed[MB/s]
4 KBytes 28169 8 KBytes 27777
16 KBytes 28169 32 KBytes 27777
64 KBytes 27397 128 KBytes 7490
256 KBytes 7434 512 KBytes 5181
1 MByte 2985 2 MBytes 3095
4 MBytes 3091

Generating:
1. Random numbers [200mills]: 0.533 seconds
2. Fibonicci numbers [200mills]: 0.303 seconds
3. Ackermann’s function [3,10]: 0.396 seconds
4. Cycle with Loop [500m times]: 0.757 seconds
5. Cycle with Jump [500m times]: 0.504 seconds
6. Primes (FPU based) [first 200k]: 0.770 seconds
7. Primes (Int based) [first 200k]: 1.020 seconds
2006-09-13-17:54 #2071417
juuzer
Felhasználó
bepe79 wrote:

A 16 bit integer meg a 32 bit integer-ben a 3.2-es P4-em lenyomta az A64-eket? ??? :tellme: WTF.
Jah, egyébként alapon mértem, majd fölrángatom 3.9 GHz-ig.. :wink1:

Azért ha az órajeleket nézem, … a géped még alap órajelen is több mint kétszeresét futja az amd-knek. Kiváncsi lennék mennyit mérne a progi egy 3200Mhz-n futó a64-en.

Mondjuk Kayapo gépére kiváncsi lennék:
„AMD ATHLON64 3000+@3332MHz + 4GB + Radeon X1300PRO + 2xWD 76GB SCSI”
Azért ez rendesen tuningolva van, a 3000+ az 1800MHz
2006-09-13-19:17 #2071418
bepe79
Felhasználó
juuzer wrote:

bepe79 wrote:

A 16 bit integer meg a 32 bit integer-ben a 3.2-es P4-em lenyomta az A64-eket? ??? :tellme: WTF.
Jah, egyébként alapon mértem, majd fölrángatom 3.9 GHz-ig.. :wink1:

Azért ha az órajeleket nézem, … a géped még alap órajelen is több mint kétszeresét futja az amd-knek. Kiváncsi lennék mennyit mérne a progi egy 3200Mhz-n futó a64-en.

Mondjuk Kayapo gépére kiváncsi lennék:
„AMD ATHLON64 3000+@3332MHz + 4GB + Radeon X1300PRO + 2xWD 76GB SCSI”
Azért ez rendesen tuningolva van, a 3000+ az 1800MHz

Én is kíváncsi lennék, hogy egy ilyen configon mit mérne:

Gigabyte 965P-DS3, Intel Core 2 Duo E6300@3500Mhz, 4*1024 MB DDR2-667MHz A-DATA@928MHz (5-5-5-15 időzítésekkel)..
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