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Intel Core 2 Duo P7550 vs Intel Core 2 Duo P7350 vs Intel Core 2 Duo T9800

Intel Core 2 Duo P7550

► remove from comparison

Der Intel Core 2 Duo P7550 Dual-Core Prozessor bietet zwei Prozessorkerne mit einem gemeinsamen Level 2 Cache von 3 MB. Der P7550 ist baugleich zum Core 2 Duo P8400 und P7570, bietet jedoch keine Virtualisierungsfunktionen (VT-x) und keine Unterstützung für Trusted Execution Technology. Die Architektur des OEM Prozessors basiert auf den Penryn Kern und wird in 45nm gefertigt.

Für Multimediaanwendungen und anspruchslose Spiele, sollte die Performance des Intel Core 2 Duo P7550 ausreichen. Im Vergleich zu AMD sollte die Performance auf Niveau der schnellsten Turion II Ultra mit 2.4 - 2.6 GHz liegen. Anspruchsvolle Spielefans sollten jedoch eher zu höher getakteten Core 2 Duo CPUs greifen (>2.5 GHz).

Der Penryn (Montevina Update) Kern bietet 2 Integer Units, 1 Floating Point Unit, 1 Load Unit und 1 Store Unit in einer 14-stufigen Pipeline. Mit der Wide Dynamic Execution Technologie kann der Kern bis zu vier volle Instruktionen gleichzeitig ausführen.

Dank Dynamic Acceleration (später Turbo Modus genannt), kann sich ein Kern um eine Stufe übertakten, wenn der zweite im Idle Modus (Leerlauf) ist.

Das integrierte Enhanced Speedstep kann die Taktfrequenz des Prozessors dynamisch an die Leistungsanforderungen anpassen. Dadurch läuft die CPU ohne Last nur mit 800 MHz.

Intel Core 2 Duo P7350

► remove from comparison

Der Intel Core 2 Duo P7350 Dual-Core Prozessor bietet zwei Prozessorkerne mit einem gemeinsamen Level 2 Cache von 3 MB. Der Prozessor basiert auf den Penryn Kern und wird in 45nm gefertigt. Im Vergleich zu teureren Core 2 Duo Prozessoren, wurde jedoch beim P7350 die Virtualisierungsfunktion VT deaktiviert.

Durch die relativ geringe Taktrate von 2 GHz, ist die Performance bei manchen Spielen etwas begrenzt. Durch die schnelle Core 2 Duo Architektur, dem 1066 MHz getakteten FSB (effektiv) und den 3 MB Level 2 Cache, kann sich der P7350 gegenüber dem 2.4 GHz schnellen Turion X2 Ultra ZM-86 klar durchsetzen (bei geringerem Stromverbrauch der Intel CPU).

Der Penryn (Montevina Update) Kern bietet 2 Integer Units, 1 Floating Point Unit, 1 Load Unit und 1 Store Unit in einer 14-stufigen Pipeline. Mit der Wide Dynamic Execution Technologie kann der Kern bis zu vier volle Instruktionen gleichzeitig ausführen.

Dank Dynamic Acceleration (später Turbo Modus genannt), kann sich ein Kern um eine Stufe übertakten, wenn der zweite im Idle Modus (Leerlauf) ist.

Das integrierte Enhanced Speedstep kann die Taktfrequenz des Prozessors dynamisch an die Leistungsanforderungen anpassen. Dadurch läuft die CPU ohne Last nur mit 800 MHz.

Der Core 2 Duo P7350 passt in den Socket P (mit 479 Pins):

Socket P / Micro Flip-Chip Pin Grid Array (Micro-FCPGA) requires 479-pin surface mount Zero Insertion Force (ZIF) socket (mPGA479M socket) or Micro Flip-Chip Ball Grid Array (Micro-FCBGA) for surface mount (479-ball)

Intel Core 2 Duo T9800

► remove from comparison Intel T9800

Die Intel Core 2 Duo T9800 ist ein schneller high-end Dual-Core Prozessor für Notebooks. Zur Zeit der Einführung war er der schnellste Core 2 Duo für Notebooks, später wurde er jedoch vom T9900 abgelöst (mit 3.06 GHz).

Dank der hohen Taktung von 2.93 GHz, ist die Performance für die alle Spiele in 2009 ausreichend (nur GTA 4 profitiert deutlich von mehr Prozessorkernen). Die alten Core 2 Quad Mobilprozessoren (Q9000, QX9300) werden dank der hohen Taktung bei den meisten Spielen deutlich geschlagen. Nur Anwendungen welche mehr als 2 parallele Threads effizient nutzen können (z.B. 3D Rendering) sind auf Quad-Core Prozessoren schneller. In der Einzelthreadperformance können erst die aktuellen Core i7 Modelle und die schnelleren Dual Core CPUs mit 3 GHz (T9900), den T9800 abhängen.

Der Penryn (Montevina Update) Kern bietet 2 Integer Units, 1 Floating Point Unit, 1 Load Unit und 1 Store Unit in einer 14-stufigen Pipeline. Mit der Wide Dynamic Execution Technologie kann der Kern bis zu vier volle Instruktionen gleichzeitig ausführen.

Dank Dynamic Acceleration (später Turbo Modus genannt), kann sich ein Kern um eine Stufe übertakten, wenn der zweite im Idle Modus (Leerlauf) ist.

Das integrierte Enhanced Speedstep kann die Taktfrequenz des Prozessors dynamisch an die Leistungsanforderungen anpassen. Dadurch läuft die CPU ohne Last nur mit 800 MHz.

Der Core 2 Duo T9800 passt in den Socket P (mit 479 Pins):

Socket P / Micro Flip-Chip Pin Grid Array (Micro-FCPGA) requires 479-pin surface mount Zero Insertion Force (ZIF) socket (mPGA479M socket) or Micro Flip-Chip Ball Grid Array (Micro-FCBGA) for surface mount (479-ball)

ModelIntel Core 2 Duo P7550Intel Core 2 Duo P7350Intel Core 2 Duo T9800
SeriesIntel Core 2 DuoIntel Core 2 DuoIntel Core 2 Duo
CodenamePenrynPenrynPenryn
Serie: Core 2 Duo Penryn
Intel Core 2 Duo T99003.06 GHz2 / 2
Intel Core 2 Duo T98002.92 GHz2 / 2
Intel Core 2 Duo P97002.8 GHz2 / 2
Intel Core 2 Duo T96002.8 GHz2 / 2
Intel Core 2 Duo P96002.66 GHz2 / 2
Intel Core 2 Duo T95502.66 GHz2 / 2
Intel Core 2 Duo T95002.6 GHz2 / 2
Intel Core 2 Duo SP96002.53 GHz2 / 2
Intel Core 2 Duo P95002.53 GHz2 / 2
Intel Core 2 Duo T94002.53 GHz2 / 2
Intel Core 2 Duo P88002.66 GHz2 / 2
Intel Core 2 Duo T93002.5 GHz2 / 2
Intel Core 2 Duo P87002.53 GHz2 / 2
Intel Core 2 Duo SP94002.4 GHz2 / 2
Intel Core 2 Duo P86002.4 GHz2 / 2
Intel Core 2 Duo T83002.4 GHz2 / 2
Intel Core 2 Duo SP93002.26 GHz2 / 2
Intel Core 2 Duo P84002.26 GHz2 / 2
Intel Core 2 Duo P75702.26 GHz2 / 2
» Intel Core 2 Duo P75502.26 GHz2 / 2
Intel Core 2 Duo T67702.3 GHz2 / 2
Intel Core 2 Duo SL96002.13 GHz2 / 2
Intel Core 2 Duo P74502.13 GHz2 / 2
Intel Core 2 Duo T66702.2 GHz2 / 2
Intel Core 2 Duo T66002.2 GHz2 / 2
Intel Core 2 Duo T81002.1 GHz2 / 2
Intel Core 2 Duo P73702 GHz2 / 2
Intel Core 2 Duo P73502 GHz2 / 2
Intel Core 2 Duo T65702.1 GHz2 / 2
Intel Core 2 Duo T65002.1 GHz2 / 2
Intel Core 2 Duo SL94001.86 GHz2 / 2
Intel Core 2 Duo SL93801.8 GHz2 / 2
Intel Core 2 Duo T64002 GHz2 / 2
Intel Core 2 Duo SL93001.6 GHz2 / 2
Intel Core 2 Duo SU96001.6 GHz2 / 2
Intel Core 2 Duo SU94001.4 GHz2 / 2
Intel Core 2 Duo SU73001.3 GHz2 / 2
Intel Core 2 Duo SU93001.2 GHz2 / 2
Intel Core 2 Duo T99003.06 GHz2 / 2
Intel Core 2 Duo T98002.92 GHz2 / 2
Intel Core 2 Duo P97002.8 GHz2 / 2
Intel Core 2 Duo T96002.8 GHz2 / 2
Intel Core 2 Duo P96002.66 GHz2 / 2
Intel Core 2 Duo T95502.66 GHz2 / 2
Intel Core 2 Duo T95002.6 GHz2 / 2
Intel Core 2 Duo SP96002.53 GHz2 / 2
Intel Core 2 Duo P95002.53 GHz2 / 2
Intel Core 2 Duo T94002.53 GHz2 / 2
Intel Core 2 Duo P88002.66 GHz2 / 2
Intel Core 2 Duo T93002.5 GHz2 / 2
Intel Core 2 Duo P87002.53 GHz2 / 2
Intel Core 2 Duo SP94002.4 GHz2 / 2
Intel Core 2 Duo P86002.4 GHz2 / 2
Intel Core 2 Duo T83002.4 GHz2 / 2
Intel Core 2 Duo SP93002.26 GHz2 / 2
Intel Core 2 Duo P84002.26 GHz2 / 2
Intel Core 2 Duo P75702.26 GHz2 / 2
Intel Core 2 Duo P75502.26 GHz2 / 2
Intel Core 2 Duo T67702.3 GHz2 / 2
Intel Core 2 Duo SL96002.13 GHz2 / 2
Intel Core 2 Duo P74502.13 GHz2 / 2
Intel Core 2 Duo T66702.2 GHz2 / 2
Intel Core 2 Duo T66002.2 GHz2 / 2
Intel Core 2 Duo T81002.1 GHz2 / 2
Intel Core 2 Duo P73702 GHz2 / 2
» Intel Core 2 Duo P73502 GHz2 / 2
Intel Core 2 Duo T65702.1 GHz2 / 2
Intel Core 2 Duo T65002.1 GHz2 / 2
Intel Core 2 Duo SL94001.86 GHz2 / 2
Intel Core 2 Duo SL93801.8 GHz2 / 2
Intel Core 2 Duo T64002 GHz2 / 2
Intel Core 2 Duo SL93001.6 GHz2 / 2
Intel Core 2 Duo SU96001.6 GHz2 / 2
Intel Core 2 Duo SU94001.4 GHz2 / 2
Intel Core 2 Duo SU73001.3 GHz2 / 2
Intel Core 2 Duo SU93001.2 GHz2 / 2
Intel Core 2 Duo T99003.06 GHz2 / 2
» Intel Core 2 Duo T98002.92 GHz2 / 2
Intel Core 2 Duo P97002.8 GHz2 / 2
Intel Core 2 Duo T96002.8 GHz2 / 2
Intel Core 2 Duo P96002.66 GHz2 / 2
Intel Core 2 Duo T95502.66 GHz2 / 2
Intel Core 2 Duo T95002.6 GHz2 / 2
Intel Core 2 Duo SP96002.53 GHz2 / 2
Intel Core 2 Duo P95002.53 GHz2 / 2
Intel Core 2 Duo T94002.53 GHz2 / 2
Intel Core 2 Duo P88002.66 GHz2 / 2
Intel Core 2 Duo T93002.5 GHz2 / 2
Intel Core 2 Duo P87002.53 GHz2 / 2
Intel Core 2 Duo SP94002.4 GHz2 / 2
Intel Core 2 Duo P86002.4 GHz2 / 2
Intel Core 2 Duo T83002.4 GHz2 / 2
Intel Core 2 Duo SP93002.26 GHz2 / 2
Intel Core 2 Duo P84002.26 GHz2 / 2
Intel Core 2 Duo P75702.26 GHz2 / 2
Intel Core 2 Duo P75502.26 GHz2 / 2
Intel Core 2 Duo T67702.3 GHz2 / 2
Intel Core 2 Duo SL96002.13 GHz2 / 2
Intel Core 2 Duo P74502.13 GHz2 / 2
Intel Core 2 Duo T66702.2 GHz2 / 2
Intel Core 2 Duo T66002.2 GHz2 / 2
Intel Core 2 Duo T81002.1 GHz2 / 2
Intel Core 2 Duo P73702 GHz2 / 2
Intel Core 2 Duo P73502 GHz2 / 2
Intel Core 2 Duo T65702.1 GHz2 / 2
Intel Core 2 Duo T65002.1 GHz2 / 2
Intel Core 2 Duo SL94001.86 GHz2 / 2
Intel Core 2 Duo SL93801.8 GHz2 / 2
Intel Core 2 Duo T64002 GHz2 / 2
Intel Core 2 Duo SL93001.6 GHz2 / 2
Intel Core 2 Duo SU96001.6 GHz2 / 2
Intel Core 2 Duo SU94001.4 GHz2 / 2
Intel Core 2 Duo SU73001.3 GHz2 / 2
Intel Core 2 Duo SU93001.2 GHz2 / 2
Clock2260 MHz2000 MHz2920 MHz
FSB106610661066
L2 Cache3 MB3 MB6 MB
Cores / Threads2 / 22 / 22 / 2
TDP25 Watt25 Watt35 Watt
Transistors410 Million410 Million410 Million
45 nm45 nm1 - 1.25 V45 nm1-1.25 V
Die Size107 mm2107 mm2107 mm2
max. Temp.90 °C90 °C105 °C
SocketPGA478Socket PSocket P (BGA479, PGA478)
FeaturesEnhanced Speedstep, Intel 64, ExBitSSE4.1, Execute Disable Bit, Enhanced Speedstep, Ehnaced Halt State (C1E), 64 Bit, Trusted Execution TechnologyVirtualization (VT-x), Trusted Execution, Intel 64, Enhanced Speedstep, Execute Disable Bit
Architecturex86x86x86
Announced
ManufacturerIntel Core 2 Duo P7550Intel Core 2 Duo P7350Intel Core 2 Duo T9800
L1 Cache128 KB128 KB
$530 U.S.

Benchmarks

Cinebench R10 - Cinebench R10 Rend. Single (32bit)
2439 Points (22%)
min: 2128     avg: 2179     median: 2140 (19%)     max: 2413 Points
3633 Points (32%)
Cinebench R10 - Cinebench R10 Rend. Multi (32bit)
4645 Points (6%)
min: 4009     avg: 4124     median: 4036 (6%)     max: 4633 Points
6839 Points (9%)
wPrime 2.10 - wPrime 2.0 1024m *
100%
1 P7550 +
1112 s (13%)
wPrime 2.10 - wPrime 2.0 32m *
100%
1 P7550 +
35.6 s (7%)
99%
1 P7350 +
38.3 s (8%)
3DMark 06 - CPU - 3DMark 06 - CPU
2004 Points (4%)
min: 1407     avg: 1734     median: 1785 (4%)     max: 1832 Points
2626 Points (6%)
Super Pi mod 1.5 XS 1M - Super Pi mod 1.5 XS 1M *
22.7 s (5%)
min: 25.4     avg: 25.9     median: 25.9 (6%)     max: 26.36 s
15 s (3%)
Super Pi mod 1.5 XS 2M - Super Pi mod 1.5 XS 2M *
53.6 s (2%)
59.5 s (3%)
38 s (2%)
Super Pi Mod 1.5 XS 32M - Super Pi mod 1.5 XS 32M *
1278 s (6%)
1438 s (6%)
1008 s (4%)
SiSoft Sandra Dhrystone (MIPS) - SiSoft Sandra Dhrystone (MIPS)
100%
1 P7550 +
17680 MIPS (8%)
153%
1 T9800 +
26991 MIPS (13%)
SiSoft Sandra Whetstone (MFLOPS) - SiSoft Sandra Whetstone (MFLOPS)
100%
1 P7550 +
16630 MFLOPS (13%)
122%
1 T9800 +
20305 MFLOPS (16%)
PCMark 05 - PCMark 05 - Standard
4946 Points (31%)
min: 4507     avg: 5019     median: 4805 (30%)     max: 5833 Points
6618 Points (42%)
Windows Vista Experience Index - Windows Vista Leistungsindex - Prozessor
100%
1 P7350 +
5 Points (71%)
114%
1 T9800 +
5.7 Points (81%)
3DMark Vantage - 3DM Vant. Perf. CPU no Physx
100%
1 P7350 +
min: 3825     avg: 3896     median: 3883.5 (4%)     max: 3990 Points
149%
1 T9800 +
5802 Points (6%)

Average Benchmarks Intel Core 2 Duo P7550 → 100% n=7

Average Benchmarks Intel Core 2 Duo P7350 → 94% n=7

Average Benchmarks Intel Core 2 Duo T9800 → 124% n=7

- Bereich der Benchmarkergebnisse für diese Grafikkarte
- Durchschnittliche Benchmarkergebnisse für diese Grafikkarte
* Smaller numbers mean a higher performance
1 This benchmark is not used for the average calculation

v1.17
log 15. 23:49:42

#0 checking url part for id 525 +0s ... 0s

#1 checking url part for id 410 +0s ... 0s

#2 checking url part for id 448 +0s ... 0s

#3 not redirecting to Ajax server +0s ... 0s

#4 did not recreate cache, as it is less than 5 days old! Created at Thu, 11 Aug 2022 13:13:36 +0200 +0s ... 0.001s

#5 linkCache_getLink no uid found +0.003s ... 0.004s

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#81 composed specs +0s ... 0.009s

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#83 getting avg benchmarks for device 525 +0s ... 0.009s

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#85 got single benchmarks 525 +0.006s ... 0.015s

#86 getting avg benchmarks for device 410 +0s ... 0.016s

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#88 got single benchmarks 410 +0.024s ... 0.041s

#89 getting avg benchmarks for device 448 +0s ... 0.041s

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#91 got single benchmarks 448 +0.007s ... 0.049s

#92 got avg benchmarks for devices +0s ... 0.049s

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#136 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.058s

#137 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.058s

#138 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.058s

#139 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.058s

#140 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.058s

#141 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.058s

#142 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.058s

#143 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.058s

#144 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.058s

#145 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.058s

#146 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.059s

#147 linkCache_getLink no uid found +0s ... 0.059s

#148 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.059s

#149 linkCache_getLink no uid found +0s ... 0.059s

#150 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.059s

#151 min, max, avg, median took s +0s ... 0.059s

#152 return log +0s ... 0.059s

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> Notebook Test, Laptop Test und News > Benchmarks / Technik > Benchmarks / Technik > Prozessor Vergleich - Head 2 Head
Autor: Sebastian Jentsch,  8.09.2017 (Update: 19.05.2020)