Intel Core i3 3130M 

Released January, 2013
  • 2.6 GHz
  • Dual core
6.8 Out of 10

Moving to a 14nm process technology should give the GPU more thermal headroom and result in higher maximum clock speeds.
by Ryan-Shrout (Aug, 2014)
So some of the key aspects of the Broadwell microarchitecture would be to be suitable for fanless devices, deliver on core performance improvements and feature enhanced graphics, media, display capabilities.
by hassan-mujtaba (Sep, 2014)

CPUBoss Review Our evaluation of the Intel Core i3 3130M among laptop CPUs (over 15W)


Benchmark performance using all cores

Core i3 3130M
PCMark 8 Home 3.0 Accelerated, PassMark and 1 more

Single-core Performance

Individual core benchmark performance

Core i3 3130M
PassMark (Single Core), Geekbench 3 Single Core and 1 more

Integrated Graphics

Integrated GPU performance for graphics

Core i3 3130M
Sky Diver and Cloud Gate

Integrated Graphics (OpenCL)

Integrated GPU performance for parallel computing

Core i3 3130M
CompuBench 1.5 Bitcoin mining and 4 more

Performance per Watt

How efficiently does the processor use electricity?

Core i3 3130M
Sky Diver, Cloud Gate, CompuBench 1.5 Bitcoin mining and 11 more


Are you paying a premium for performance?

Core i3 3130M
Sky Diver, Cloud Gate, CompuBench 1.5 Bitcoin mining and 11 more


CPUBoss Score

Combination of all six facets

Core i3 3130M

Benchmarks Real world tests of the Intel Core i3 3130M

GeekBench 3 (Multi-core) Data courtesy Primate Labs

Core i3 3130M

GeekBench 3 (Single core) Data courtesy Primate Labs

Core i3 3130M

GeekBench 3 (AES single core) Data courtesy Primate Labs

Core i3 3130M
137.35 MB/s
Core i7 3520M
2,440,000 MB/s
Core i3 3110M
125,500 MB/s

GeekBench (32-bit) Data courtesy Primate Labs

Core i3 3130M


Core i3 3130M

PassMark Data courtesy Passmark

Core i3 3130M

PassMark (Single Core)

Core i3 3130M

In The News From around the web


Intel’s erratic Core M performance leaves an opening for AMD

by Joel Hruska |
Instead of absolutely guaranteeing that a chip will reach a certain speed at a given temperature or power consumption level, simply establish that frequency range as a “maybe” and push the issue off on OEMs or enthusiasts to deal with.
In several cases, the gaps in both CPU and GPU workloads are quite significant — and favor the slower processor.

More Intel Core M Coming Q4

by Ian Cutress |
All new CPUs are slated for a Q4 launch, which would mean that they might become available for end users in products on the shelf sometime in Q1 2015.
These initial CPUs should be properly available to the public in Q4 in devices such as the Lenovo Yoga 3 Pro using the Core M-5Y70.
The majority of the die is dedicated to the graphics core while there are two CPU cores and right below is a shared 4 MB L3 cache which is shared across the graphics and processor cores.
Since Core M is the first 14nm device, it will meet the demands of next iteration of mobility devices boasting better performance and efficiency.

Short Bytes: Intel's Core M and Broadwell-Y SoC

by Jarred Walton |
Where previous Intel processors targeted laptops and desktops as the primary use case and then refined and adjusted the designs to get into lower power envelopes, with Broadwell Intel is putting the Y-series requirements center stage.
Shrinking the process technology from 22nm to 14nm can mean a lot of things, but the primary benefit this time appears to be smaller chip sizes and lower power requirements.

Specifications Full list of technical specs


Clock speed 2.6 GHz
Cores Dual core
Socket type
  1. rPGA 988B
  2. BGA 1023
Is unlocked No


Has a NX bit Yes
Supports trusted computing No
Has virtualization support Yes
Instruction set extensions
  1. MMX
  2. SSE
  3. SSE2
  4. SSE4.1
  5. SSE3
  6. Supplemental SSE3
  7. SSE4.2
  8. AVX
  9. SSE4
Supports dynamic frequency scaling Yes

power consumption

Annual home energy cost 8.43 $/year
Performance per watt 4.03 pt/W
Typical power consumption 28.44W


Architecture DMI
Transfer rate 5,000 MT/s


Architecture x86-64
Threads 4 threads
L2 cache 1 MB
L2 cache per core 0.5 MB/core
L3 cache 3 MB
L3 cache per core 1.5 MB/core
Manufacture process 22 nm
Max CPUs 1
Clock multiplier 26
Operating temperature Unknown - 105°C


Overclocked clock speed 2.6 GHz
Overclocked clock speed (Water) 2.6 GHz
Overclocked clock speed (Air) 2.6 GHz

integrated graphics

Label Intel® HD Graphics 4000
Number of displays supported 3
GPU clock speed 650 MHz
Turbo clock speed 1,100 MHz

memory controller

Memory controller Built-in
Memory type DDR3
Channels Dual Channel
Supports ECC No
Maximum bandwidth 12,800 MB/s
Maximum memory size 32,768 MB
Report a correction


comments powered by Disqus