Intel Core i3-12100F
VS
Intel Core i5-3470
Intel Core i3-12100F
VS
Intel Core i5-3470

Which to select

It is time to pick the winner. What is the difference between Intel Core i3-12100F vs Intel Core i5-3470? What CPU is more powerful? It is quite easy to determine – look at comparison table. The processor with more cores/ threads and also with higher frequency is the absolute winner!

CPU Cores and Base Frequency

Who will win between Intel Core i3-12100F vs  Intel Core i5-3470. The general performance of a CPU can easily be determined based on the number of its cores and the thread count, as well as the base frequency and Turbo frequency. The more GHz and cores a CPU has, the better. Please note that high technical specs require using a powerful cooling system.

3.30 GHz
Frequency
3.20 GHz
4
CPU Cores
4
4.30 GHz
Turbo (1 Core)
3.60 GHz
Yes
Hyperthreading
No
No
Overclocking
No
4.00 GHz
Turbo (4 Cores)
3.60 GHz
normal
Core architecture
no data
4x Golden Cove
A core
no data
--
B core
no data
--
C core
no data

CPU generation and family

Intel Core i3-12100F
Name
no data
Desktop / Server
Segment
no data
Intel Core i 12000
CPU group
no data
Intel Core i3
Family
no data
12
Generation
no data
--
Predecessor
no data
--
Successor
no data

Internal Graphics

Some manufacturers complement their CPUs with graphic chips, such a solution being especially popular in laptops. The higher the clock frequency of a GPU is and the bigger its memory, the better. Find a winner - Intel Core i3-12100F vs Intel Core i5-3470. 

no iGPU
GPU name
Intel HD Graphics 2500
GPU frequency
0.65 GHz
No turbo
GPU (Turbo)
1.10 GHz
Generation
7
DirectX Version
11.0
Execution units
6
Shader
48
no data
Max. Memory
--
Max. displays
3
Technology
22 nm
Release date
Q2/2012
--
Max. GPU Memory
no data

Hardware codec support

Here we deal with specs that are used by some CPU manufacturers. These numbers are mainly technical and can be neglected for the purpose of the comparison analysis.

No
h264
Decode / Encode
No
JPEG
Decode
no data
h265 8bit
No
no data
h265 10bit
No
No
VP8
No
No
VP9
No
No
VC-1
Decode
No
AVC
Decode / Encode
No
h265 / HEVC (8 bit)
no data
No
h265 / HEVC (10 bit)
no data
No
AV1
no data

Memory & PCIe

These are memory standards supported by CPUs. The higher such standards, the better a CPU’s performance is.

no data
Memory type
DDR3-1600
no data
Max. Memory
32 GB
no data
Memory channels
2
no data
ECC
No
no data
PCIe version
3.0
no data
PCIe lanes
16

Encryption

Data encryption support

Yes
AES-NI
Yes

Memory & AMP; PCIe

DDR4-3200 DDR5-4800
Memory type
no data
128 GB
Max. Memory
no data
No
ECC
no data
2
Memory channels
no data
5.0
PCIe version
no data
20
PCIe lanes
no data

Thermal Management

The thermal design power (TDP), sometimes called thermal design point, is the maximum amount of heat generated by a computer chip or component (often a CPU, GPU or system on a chip) that the cooling system in a computer is designed to dissipate under any workload.

no data
TDP
77 W
100 °C
Tjunction max.
--
--
TDP up
--
--
TDP down
--
58 W
TDP (PL1)
no data
89 W
TDP (PL2)
no data

Technical details

8
CPU Threads
4
12.00 MB
L3-Cache
6.00 MB
10 nm
Technology
22 nm
Alder Lake S
Architecture
Ivy Bridge
VT-x, VT-x EPT, VT-d
Virtualization
VT-x, VT-x EPT, VT-d
LGA 1700
Socket
LGA 1155
Q1/2022
Release date
Q2/2012
no data
Market price
ca. 184 $
x86-64 (64 bit)
Instruction set (ISA)
no data
5.00 MB
L2-Cache
no data
--
Part Number
no data
SSE4.1, SSE4.2, AVX2, AVX2+
ISA extensions
no data

Devices using this processor

You probably know already what devices use CPUs. These can be a desktop or a laptop.

Unknown
Used in
Unknown

Compatibility

Technologies and extensions

Virtualization technologies

Memory specs

Peripherals

Cinebench R11.5, 64bit (Single-Core)

This synthetic test will help you determine the real computing power of a single core in the central processing unit. Cinebench R11.5 is based on MAXON CINEMA 4D and employs various testing scenarios

Cinebench R11.5, 64bit (Multi-Core)

Cinebench R11.5 carries out simultaneous cross-platform tests on all the processor’s cores. By running realistic 3D scenes, this benchmark will reveal all the potential of your Intel or AMD single-unit processor

Cinebench R15 (Single-Core)

The latter is used for creation of 3D models and forms. Cinebench R15 is used for single-core processor performance benchmark test. The hyperthreading ability doesn't count. It is the updated version of Cinebench 11.5. As all new versions, the updated benchmark is based on Cinema 4 Suite software

Cinebench R20 (Single-Core)

Cinebench R20 is based on Cinema 4 Suite. It is the software used to create 3D forms. The benchmark runs for single-core test procedure without counting of hyperthreading ability.

Cinebench R20 (Multi-Core)

It is the new version of the benchmark which is developed on the basis of Cinebench R15 (both versions are operated on the basis of Cinema 4 - the most popular 3D modeling software). Cinebench R20 is used for multi-core processor performance benchmark tests and hyperthreading ability.

Cinebench R23 (Single-Core)

Cinebench R23 is the newest instalment of the most popular CPU Rendering Benchmark Single-Core Cinebench. We have the Score Results for all modern Processors

Geekbench 5, 64bit (Single-Core)

Geekbench 5 benchmark is the newest software suit. Completely new algorithms provide the quite accurate benchmark testing results of the single-core CPU.

Geekbench 5, 64bit (Multi-Core)

Geekbench 5 software suite shows benchmark testing results of the memory performance and speed of the multi-core processor. Here the hyperthreading ability is counted.

Blender 2.81 (bmw27)

We use Blender benchmark to trace performance of the central processing unit. The testing results show you how fast the unit runs on the implementation of the multi-processing tasks

Estimated results for PassMark CPU Mark

It tests entire and overall performance of the central processing unit (mathematical calculations, compression and decompression speed, 2D&3D graphic tests). Please note that data can differ from the real-world situations.

iGPU - FP32 Performance (Single-precision GFLOPS)

This test serves for determining the performance of integrated graphics in Intel and AMD processors. The result is the estimated computing power in the Single-Precision FP32 mode