Main Page / Processors / Comparision AMD A6-5400K vs AMD E-300
AMD E-300 AMD E-300
AMD A6-5400K AMD A6-5400K
VS

Comparision AMD E-300 vs AMD A6-5400K

AMD E-300

AMD E-300

Rating: 0 points
AMD A6-5400K

WINNER
AMD A6-5400K

Rating: 1 points
Grade
AMD E-300
AMD A6-5400K
Test results
0
0
Technology
0
0
Performance
1
4
Memory specification
0
0
Interfaces and communications
1
1
Main characteristics
3
3

Top specs and features

Passmark test

AMD E-300: 362 AMD A6-5400K: 1240

Power Consumption (TDP)

AMD E-300: 18 W AMD A6-5400K: 65 W

Technological process

AMD E-300: 40 nm AMD A6-5400K: 32 nm

L1 cache size

AMD E-300: 128 KB AMD A6-5400K: 96 KB

L2 cache size

AMD E-300: 1 MB AMD A6-5400K: 1 MB

Description

The AMD E-300 processor runs at 1.3 Hz, the other AMD A6-5400K runs at 3.6 Hz. AMD E-300 is able to accelerate to 1.3 Hz , and the second to 3.8 Hz. The maximum power consumption for the first processor is 18 W, and for AMD A6-5400K 65 W.

In terms of architecture, AMD E-300 is built using 40 nm technology. AMD A6-5400K on the 32 nm architecture.

Relative to processor memory. AMD E-300 can support DDRThere is no data. The maximum supported size is There is no data MB. It should be noted that the maximum memory bandwidth is 8.3. The second processor AMD A6-5400K is capable of supporting DDRThere is no data. The throughput is 21. And the maximum amount of supported RAM is There is no data MB.

Graphics. AMD E-300 has a graphics engine There is no data. The frequency of which is - 488 MHz. AMD A6-5400K received video core There is no data. Here the frequency is 760 MHz.

How processors perform in benchmarks. In the PassMark benchmark, AMD E-300 scored 362. And AMD A6-5400K scored 1240 points.

Why AMD A6-5400K is better than AMD E-300

  • Power Consumption (TDP) 18 W против 65 W, less by -72%
  • L1 cache size 128 KB против 96 KB, more on 33%

AMD E-300 vs AMD A6-5400K: highlights

AMD E-300
AMD E-300
AMD A6-5400K
AMD A6-5400K
Test results
Passmark test
The PassMark test considers read speed, write speed, and seek time when testing SSD performance.
362
max 104648
Average: 6033.5
1240
max 104648
Average: 6033.5
Geekbench 5 score (multi-core)
Benchmark in Geekbench 5 that measures the multi-threaded performance of a processor.
175
max 25920
Average: 5219.2
690
max 25920
Average: 5219.2
Geekbench score 5
99
max 2315
Average: 936.8
445
max 2315
Average: 936.8
Cinebench 10 32-bit multi-core benchmark score
1200
max 84673
Average: 1955
max 84673
Average: 1955
3DMark06 CPU benchmark score
856
max 21654
Average: 3892.6
max 21654
Average: 3892.6
Cinebench 10 32-bit single-core score
870
max 24400
Average: 3557.7
max 24400
Average: 3557.7
Technology
Supports hardware virtualization technology
Hardware virtualization makes it much easier to get high quality images.
Available
Available
Performance
Number of threads
The more threads, the higher the performance of the processor will be, and it will be able to perform several tasks at the same time.
2
max 256
Average: 10.7
2
max 256
Average: 10.7
L1 cache size
large amount of L1 memory accelerates results in the CPU and system performance settings
128 KB
max 6144
Average: 299.3 KB
96 KB
max 6144
Average: 299.3 KB
L2 cache size
An L2 cache with a large amount of scratchpad memory allows you to increase the speed of the processor and the overall performance of the system.
1 MB
max 512
Average: 4.5 MB
1 MB
max 512
Average: 4.5 MB
Maximum processor frequency
When the processor's speed drops below its limit, it can jump to a higher clock speed to improve performance.
1.3 GHz
max 5.7
Average: 3.2 GHz
3.8 GHz
max 5.7
Average: 3.2 GHz
Number of Cores
The number of cores in processors indicates the number of independent computing units that can execute tasks in parallel. More cores allow the processor to handle more tasks at once, which improves overall performance and the ability to handle multi-threaded applications. Show more
2
max 72
Average: 5.8
2
max 72
Average: 5.8
CPU base clock speed
1.3 GHz
max 4.7
Average: 2.5 GHz
3.6 GHz
max 4.7
Average: 2.5 GHz
Crystal size
Smaller die size in processors provides higher performance and power efficiency.
75 мм2
max 513
Average: 160 мм2
246 мм2
max 513
Average: 160 мм2
Max. the number of processors in the configuration
1
max 8
Average: 1.3
1
max 8
Average: 1.3
Memory specification
Memory bandwidth
This is the rate at which the device stores or reads information.
8.3 GB/s
max 352
Average: 41.4 GB/s
21 GB/s
max 352
Average: 41.4 GB/s
Interfaces and communications
OpenCL
Newer version of OpenCL means more features, improved performance and compatibility with the latest applications using OpenCL
1.2
max 4.6
Average: 4.1
1.2
max 4.6
Average: 4.1
Has mmx
MMX is needed to speed up tasks such as adjusting the volume and adjusting the contrast.
Available
Available
Socket
Connector on the motherboard for installing the processor.
FT1
FM2
AMD-V
Support for virtualization and virtual machine execution for security and performance
Available
Available
Main characteristics
Technological process
The small size of semiconductors means that this is a new generation chip.
40 nm
Average: 36.8 nm
32 nm
Average: 36.8 nm
Power Consumption (TDP)
The heat dissipation requirement (TDP) is the maximum amount of energy that can be dissipated by the cooling system. The lower the TDP, the less power will be consumed. Show more
18 W
Average: 67.6 W
65 W
Average: 67.6 W
Crystal size
Smaller die size in processors provides higher performance and power efficiency.
75 мм2
max 513
Average: 160 мм2
246 мм2
max 513
Average: 160 мм2
GPU base clock speed
The graphics processing unit (GPU) is characterized by a high clock speed.
488 MHz
max 2400
Average: 535.8 MHz
760 MHz
max 2400
Average: 535.8 MHz
Supports 64-bit system
64-bit system, unlike a 32-bit one, can support more than 4 GB of RAM. This increases productivity. It also allows you to run 64-bit applications.
Available
Available
Monitor support
Multiple monitors can be connected to the device, which makes it easier to work by increasing the working space.
3
max 4
Average: 2.9
4
max 4
Average: 2.9
Architecture codename
Zacate
Trinity
Appointment
Laptop
Desktop
Series
AMD E-Series
There is no data

FAQ

Can AMD E-300 and AMD A6-5400K work in 4K mode?

AMD E-300 - There is no data. AMD A6-5400K - There is no data.

How many PCIe lanes

AMD E-300 - There is no data. AMD A6-5400K - There is no data.

How much RAM does it support?

AMD E-300 supports There is no data GB. AMD A6-5400K supports There is no dataGB.

How fast are the processors?

AMD E-300 operates on 1.3 GHz.6 GHz.

How many cores does the processor have?

AMD E-300 has 2 cores. AMD A6-5400K has 2 cores.

Do processors support ECC memory?

AMD E-300 - There is no data. AMD A6-5400K - There is no data.

Does AMD E-300 have embedded graphics?

AMD E-300 - There is no data. AMD A6-5400K - There is no data

What kind of RAM is supported

AMD E-300 supports DDRThere is no data. AMD A6-5400K supports DDRThere is no data.

What is the socket of the processors?

Using FT1 to set AMD E-300. FM2 is used to set AMD A6-5400K.

What architecture do they use?

AMD E-300 is built on the Zacate architecture. AMD A6-5400K is built on the Trinity architecture.

Is the AMD E-300 CPU multiplier unlocked?

AMD E-300 - There is no data. AMD A6-5400K - has.

How do processors perform in benchmarks?

According to PassMark, AMD E-300 scored 362 points. AMD A6-5400K scored 1240 points.

What is the maximum frequency of processors?

AMD E-300 has a maximum frequency of 1.3 Hz. The maximum frequency of AMD A6-5400K reaches 3.8 Hz.

How much energy do they consume?

The power consumption of AMD E-300 can be up to 18 Watts. AMD A6-5400K has up to 18 Watts.

Processors