Intel Celeron N5095 vs Intel Core i7-3612QM

Compare Intel 4 core CPU vs Intel Core 4 core processor, specs and benchmark score. Which is the better CPU for gaming?

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CPU Comparison

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Benchmark Score

Overall Score

A combined score of all workloads

1427 points

1549 points

8% slightly better overall score

Gaming Score

The raw gaming performance with a fast GPU

2707 points

5% slightly better gaming score

2569 points

Multitasking Score

Performance in workloads using up to 8 cores

1081 points

1247 points

15% slightly better multitasking score

Heavy Workload Score

Performance in workloads using up to 16 cores

1037 points

1197 points

15% slightly better heavy workload score

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Other Benchmarks

Blender score

Cycles Render (Samples per minute)

14.67 points

32.42 points

121% significantly higher Blender score

Specifications

Cores

Number of physical processing units

Identical

Threads

Number of logical processing units

100% significantly more threads

TDP

Thermal Design Power: Measure of heat generated by the CPU

15 W

133% significantly lower TDP

35 W

Other details

Rank

Ranking in the hardwareDB database

831st of 1,089

801st of 1,089

Family

The product line

Core

Release date

The official date of release of this chip

2012 May

Memory Type

The type of memory used by this chip

DDR3-1333

Supports ECC memory

Does this CPU support error correcting memory

Celeron N5095 vs Core i7-3612QM specs and performance

Our benchmark analysis concludes that the Celeron N5095 performs better than the Core i7-3612QM. Furthermore, our gaming benchmark shows that it also outperforms the Core i7-3612QM in all gaming tests too.

Info from our database shows that they both have the same core count but the Core i7-3612QM has more threads. A Celeron N5095 CPU outputs less heat than a Core i7-3612QM CPU because of its significantly lower TDP. This measures the amount of heat they output and can be used to estimate power consumption.

The more cores a CPU has, the better the overall performance will be in parallel workloads such as multitasking. Many CPUs have more threads than cores, this means that each physical core is split into multiple logical cores, making them more efficient. For instance, the Celeron N5095 has the same number of threads as cores. This means the the CPU does not support hyperthreading.