Q6600 Vs E6300 Benchmark
Mini Review
Intel Core 2 Quad Q6600 advantages
Intel Pentium E5300 advantages
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Q6600 vs E5300 performance comparison
The charts in the table below demonstrate relative functioning of Core 2 Quad Q6600 and Pentium E5300 CPUs in different kinds of tasks. The numbers in the charts are based on a number of benchmarks, that yous can view in the "Benchmarks" tab. Equally a result, the displayed results may differ from results, that you may run into in individual tests. We also averaged the numbers for task type specific benchmarks and all-effectually functioning benchmarks, and presented them in the 'Overall functioning' chart. | |
- Intel Core 2 Quad Q6600 - Intel Pentium E5300 | |
Delight encounter the Benchmarks section for an exhaustive list of benchmarks, demonstrating functioning difference between Core 2 Quad Q6600 and Intel E5300 in various types of programs.
Q6600 vs E5300 ability consumption comparison
Lower is better | ||||||||||
- Intel Cadre ii Quad Q6600 - Intel Pentium E5300 |
Detailed side by side comparing of Intel Q6600 vs E5300 specs tin be found in the Specifications department below. Even more than detailed comparison of low level features of both processors you will find in the CPUIDs section.
Pros and Cons summary
Core 2 Quad Q6600 | Pentium E5300 | |
General recommendations: | General recommendations: | |
Drawbacks: | Drawbacks: |
Like processors
Similar CPUs use the same socket and architecture as Cadre 2 Quad Q6600 and Intel E5300, however their operation and other characteristics are slightly dissimilar.
Specifications
Intel Cadre 2 Quad Q6600 | Intel Pentium E5300 | |
Marketplace segment | Desktop | |
---|---|---|
Manufacturer | Intel | |
Family | Core ii Quad | Pentium Dual-Core |
Basic details | ||
Model number | Q6600 | E5300 |
CPU role number | HH80562PH0568M | AT80571PG0642M AT80571PG0642ML |
Box part number | BX80562Q6600 | BX80571E5300 BXC80571E5300 |
Introduction appointment | ||
CPU features | ||
Core proper name | ||
Microarchitecture | ||
Technology (micron) | ||
Data width (bits) | 64 | |
Socket | Socket 775 | |
Frequency (MHz) | 2400 | 2600 |
Motorbus speed (MHz) | ||
Clock Multiplier | ||
L1 cache | ||
L2 enshroud (KB) | ||
Max temperature (°C) | ||
TDP (Watt) | ||
Max power dissipation (Watt) | ||
Core voltage (V) | ||
Cores | 4 | 2 |
Threads | ||
Multiprocessing | ||
Didactics set extensions | ||
AMD64 / EM64T 64-bit technology | ||
MMX | ||
SSE | ||
SSE2 | ||
SSE3 | ||
SSSE3 / Supplemental SSE3 | ||
Supported technologies | ||
PowerNow! / Enhanced SpeedStep | ||
Virtualization | ||
Virus Protection / Execute Disable flake | ||
Integrated Graphics | ||
GPU Blazon | ||
Integrated Memory Controller(s) | ||
The number of controllers |
Notes:
Rows with different specifications or features are highlighted.
For detailed specifications of "Intel Core 2 Quad Q6600" or "Intel Pentium E5300" parts please click on the links in the table header.
Benchmarks
System setup
Intel Cadre 2 Quad Q6600 and Pentium E5300 processors were tested using dissimilar system components, that are identified by MB, RAM and VID columns in the tables below. The numbers in each of these columns correspond to 1 of motherboards (MB), memory configurations (RAM) or graphics adapters (VID), listed below:
MB - Motherboard(s):
ane. ASROCK 4CORE1600TWINS-P35
2. INTEL DP965LT
RAM - Memory:
i. 2 GB DUAL-CHANNEL CORSAIR CM3X1024-1333C9 DDR3
2. 2GB DUAL-CHANNEL CORSAIR CM2X1024-6400C4
VID - Video card(due south):
1. POWERCOLOR 24PRO256M DDR2 (ATI RADEON HD2400)
All tests were performed at default frequency and voltage, using manufacturer's stock fan/heatsink. None of the components were overclocked. Motherboard BIOS options were left at default settings.
The results of all benchmarks are broken into four categories: multi-threaded, unmarried-threaded, retentiveness intensive and graphics / gaming.
Core 2 Quad Q6600 vs Pentium E5300 single-threaded benchmarks
Single-threaded benchmarks run on a single CPU core, and exercise not depend on such features equally the number of cores, or Hyper-Threading engineering. Additionally, they practice non utilize on-chip caches, dedicated to other cores.
Intel Core 2 Quad Q6600 Intel Pentium E5300 | |||||
3DMark03 CPU score benchmark | |||||
Uses DirectX software vertex shader to run Wings of Fury and Trolls' Lair games, and calculates a 3DMark03 CPU score based on averaged number of frames per second, accomplished by the CPU/GPU combination. | |||||
Longer is better | MB | RAM | VID | ||
---|---|---|---|---|---|
1 | i | ane | |||
ane | 1 | 1 | |||
2 | two | 1 | |||
CINEBENCH R10 CPU score (1 cadre) benchmark | |||||
Measures performance of a single-core rendering of a photo-realistic 3D paradigm using CINEMA 4D software engine. | |||||
Longer is better | MB | RAM | VID | ||
ane | 1 | 1 | |||
1 | 1 | 1 | |||
2 | ii | 1 | |||
PCMark2002 CPU score criterion | |||||
Measures integer and floating-betoken operation of a single CPU core by running 6 dissimilar algorithms, and calculates a weighted score based on the results. | |||||
Longer is amend | MB | RAM | VID | ||
1 | 1 | 1 | |||
1 | 1 | i | |||
2 | 2 | ane | |||
Super PI (1M) benchmark | |||||
Measures time, required to calculate the offset 1 million digits afterward the decimal indicate in the number Pi. | |||||
Longer is meliorate | MB | RAM | VID | ||
1 | i | ane | |||
1 | 1 | one | |||
2 | 2 | ane |
Cadre 2 Quad Q6600 vs Pentium E5300 multi-threaded benchmarks
Multi-threaded benchmarks utilize all CPU cores and other on-chip resource (on-chip caches, internal buffers, etc). Intel'south Hyper-Threading feature also helps to improve multi-threading performance.
Intel Core 2 Quad Q6600 Intel Pentium E5300 | |||||
CINEBENCH R10 CPU score benchmark | |||||
Measures performance of multi-core rendering of a photo-realistic 3D image using CINEMA 4D software engine. | |||||
Longer is better | MB | RAM | VID | ||
---|---|---|---|---|---|
2 | 2 | 1 | |||
1 | one | 1 | |||
i | 1 | 1 | |||
CINEBENCH R10 render time (seconds) benchmark | |||||
Measures fourth dimension taken to render a photograph-realistic 3D image using CINEMA 4D software engine. | |||||
Longer is better | MB | RAM | VID | ||
2 | ii | one | |||
i | one | ane | |||
1 | ane | 1 | |||
Euler3D benchmark | |||||
Solves specific computational fluid dynamics problem, and reports a CFD cycle frequency in Hertz. | |||||
Longer is better | MB | RAM | VID | ||
1 | 1 | i | |||
2 | 2 | ane | |||
1 | ane | 1 | |||
Sandra Dhrystone (MIPS) criterion | |||||
Runs Dhrystone test on all cores, and reports estimated integer operation in MIPS (Millions of Instructions Per Second). | |||||
Longer is better | MB | RAM | VID | ||
1 | 1 | one | |||
ii | 2 | one | |||
i | 1 | ane | |||
Sandra MultiMedia Floating Bespeak (information technology/s) criterion | |||||
Longer is better | MB | RAM | VID | ||
ane | 1 | 1 | |||
2 | 2 | 1 | |||
1 | i | one | |||
Intel Core 2 Quad Q6600 Intel Pentium E5300 | |||||
Sandra MultiMedia Integer (information technology/s) benchmark | |||||
Longer is ameliorate | MB | RAM | VID | ||
1 | i | 1 | |||
2 | 2 | one | |||
1 | 1 | 1 | |||
Sandra Whetstone (MFLOPS) benchmark | |||||
Runs Whetstone test on all cores, and reports estimated floating-bespeak performance in MFLOPS (Millions of Floating-Bespeak Operations Per Second). | |||||
Longer is better | MB | RAM | VID | ||
ane | ane | 1 | |||
ii | 2 | 1 | |||
1 | 1 | 1 | |||
Sandra Whetstone SSE2 (MFLOPS) criterion | |||||
Runs SSE2-enabled Whetstone test on all cores, and reports estimated floating-bespeak performance in MFLOPS (Millions of Floating-Indicate Operations Per Second). | |||||
Longer is better | MB | RAM | VID | ||
2 | 2 | ane | |||
1 | one | 1 | |||
one | i | i | |||
wPrime v1.55 (32M) criterion | |||||
wPrime benchmark measures fourth dimension taken by all logical processors to summate foursquare roots of numbers from 1 to 33554431 (32M). | |||||
Longer is improve | MB | RAM | VID | ||
1 | i | 1 | |||
two | ii | 1 | |||
1 | 1 | 1 |
Core two Quad Q6600 vs Pentium E5300 graphics benchmarks
Graphics benchmarks depend on the blazon of integrated or discrete graphics adapter, and to less extent on the processor performance. Because these benchmarks are synthetic, they may non truly correspond gaming performance. However, they still can be used to estimate whether one processor will perform faster or slower than another CPU in games and other 3D tasks.
Intel Core two Quad Q6600 Intel Pentium E5300 | |||||
3DMark03 game score benchmark | |||||
Measures graphics and 3D game performance of discrete and integrated GPUs using 4 different game simulations, that have varying level of DirectX support from version 7 to version nine. | |||||
Longer is ameliorate | MB | RAM | VID | ||
---|---|---|---|---|---|
1 | i | 1 | |||
i | 1 | 1 | |||
2 | 2 | one | |||
3DMark2001 score benchmark | |||||
Runs a series of game simulations and feature tests to measure out graphics and 3D game functioning of discrete and integrated GPUs. It utilizes a single CPU core, and it is compatible with DirectX 8 and later APIs. | |||||
Longer is better | MB | RAM | VID | ||
1 | i | i | |||
1 | 1 | ane | |||
2 | 2 | ane | |||
CINEBENCH R10 OpenGL score benchmark | |||||
Longer is ameliorate | MB | RAM | VID | ||
ii | 2 | 1 | |||
one | i | 1 | |||
1 | 1 | 1 |
Core 2 Quad Q6600 vs Pentium E5300 retentivity performance
Retention-intensive tests or programs move large amounts of data to/from memory, and they depend more on memory throughput and the size of on-chip caches, rather than on CPU integer/FP/SIMD performance.
Intel Cadre 2 Quad Q6600 Intel Pentium E5300 | |||||
7Zip compressing/decompressing speed (ane thread) criterion | |||||
Estimates MIPS (Millions of Instructions Per 2nd) rating of a single thread by measuring data compression and decompression speeds, and dividing averaged result by the number of threads. | |||||
Longer is better | MB | RAM | VID | ||
---|---|---|---|---|---|
1 | 1 | one | |||
1 | i | 1 | |||
2 | two | 1 | |||
PCMark2002 Retention score benchmark | |||||
Measures performance of read, write and modify operations in main system and video retention. | |||||
Longer is better | MB | RAM | VID | ||
ane | one | one | |||
2 | 2 | one | |||
1 | 1 | 1 | |||
WinRAR 3.71 (32-chip) compressing/decompressing speed criterion | |||||
Measures compression and decompression speed of random data in KB per 2nd | |||||
Longer is better | MB | RAM | VID | ||
one | ane | 1 | |||
two | two | 1 | |||
1 | i | one |
CPUIDs
The tabular array below compares support for x86 extensions and technologies, as well equally individual instructions and low-level features of the Intel Core 2 Quad Q6600 and Intel Pentium E5300 microprocessors. Information in this table was retrieved from actual processors using CPUID educational activity, and we also utilized internal timer to measure CPU frequency. Be aware that all technologies, disabled in BIOS or by a virtual machine, will be shown as not supported. Different steppings of Intel processors may also have slightly dissimilar features. In rare cases, measured frequency may differ from official specifications.
CPUID ane | CPUID 2 | |
Manufacturer | Intel | |
---|---|---|
CPU Family | Core two Quad | Pentium Dual-Core |
Model / Processor Number | Q6600 | E5300 |
Measured Frequency | 2400 MHz | 2593 MHz |
CWID version | 0.5 | |
Function number (supplied) | HH80562PH0568M | AT80571PG0642M |
Part number (guessed) | HH80562PH0568M | AT80571PG0642M |
Vendor | GenuineIntel | |
---|---|---|
Processor name (BIOS) | Intel(R) Cadre(TM)ii Quad CPU Q6600 @ 2.40GHz | Pentium(R) Dual-Cadre CPU E5300 @ two.60GHz |
Cores | 4 | two |
Logical processors | four | 2 |
Processor type | Original OEM Processor | |
CPUID signature | 6FB | 1067A |
Family | 6 (06h) | |
Model | 15 (0Fh) | 23 (017h) |
Stepping | 11 (0Bh) | 10 (0Ah) |
TLB/Cache details | 3rd-level cache: four-MB, 16-mode set associative, 64-byte line size (Intel Xeon processor MP, Family 0Fh, Model 06h), 2nd-level enshroud: 4-MB, xvi-manner set associative, 64-byte line size 64-byte Prefetching Data TLB: 4-KB Pages, 4-manner fix associative, 256 entries Data TLB: 4-MB Pages, 4-way set up associative, 32 entries Instruction TLB: 2-MB pages, 4-way, 8 entries or 4M pages, 4-way, iv entries Instruction TLB: 4-KB Pages, 4-fashion set associative, 128 entries L1 Data TLB: 4-KB pages, four-way set associative, 16 entries L1 Data TLB: 4-MB pages, 4-way set associative, 16 entries | 64-byte Prefetching Data TLB: 4-KB Pages, iv-way set associative, 256 entries Data TLB: iv-MB Pages, 4-way set associative, 32 entries Didactics TLB: 2-MB pages, 4-way, 8 entries or 4M pages, 4-style, 4 entries Instruction TLB: 4-KB Pages, 4-fashion set associative, 128 entries L1 Information TLB: 4-KB pages, 4-way prepare associative, 16 entries L1 Information TLB: 4-MB pages, 4-way set associative, 16 entries |
Didactics set up extensions
+ - feature is supported
- - feature is not supported
Features, not supported by all processors in the table, are non displayed
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