Intel Celeron E1400 vs AMD Athlon II X3 425

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CPU comparison with benchmarks

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CPU lineage

Intel Celeron E1400 or Intel Celeron E1400 – which processor offers superior performance? In this comparison, we examine disparities and assess which of these two CPUs outperforms the other. We delve into technical specifications and benchmark outcomes.
The Intel Celeron E1400 features 2 processor cores and has the capability to manage 2 threads concurrently.
It was released in Q2/2008 and belongs to the 1 generation of the Intel Celeron series.
To use the Intel Celeron E1400, you'll need a motherboard with a LGA 775 socket.
The AMD Athlon II X3 425 features 3 processor cores and has the capability to manage 3 threads concurrently.
It was released in Q3/2009 and belongs to the 1 generation of the AMD Athlon II series.
To use the AMD Athlon II X3 425, you'll need a motherboard with a AM3 socket.
1 Generation 1
Desktop / Server Segment Desktop / Server
Intel Celeron E1000 Group AMD Athlon II X3 (Rana)
Intel Celeron E1400 Name AMD Athlon II X3 425
Intel Celeron Family AMD Athlon II
 
 

CPU Cores and Base Frequency

The Intel Celeron E1400 has 2 CPU cores and can calculate 2 threads in parallel.
The clock frequency of the Intel Celeron E1400 is 2.0 GHz
The AMD Athlon II X3 425 has 3 CPU cores and can calculate 3 threads in parallel.
The clock frequency of the AMD Athlon II X3 425 is 2.7 GHz
2 Threads 3
2x Core Cores 3x
normal Core architecture normal
No Hyperthreading No
No Overclocking No
2.0 GHz Frequency 2.7 GHz
2 CPU Cores 3
 
 

Internal Graphics

The Intel Celeron E1400 does not have integrated graphics.
The AMD Athlon II X3 425 does not have integrated graphics.
-- Generation --
-- Direct X --
-- GPU (Turbo) --
0 bytes Max. GPU Memory 0 bytes
-- Shaders --
-- Max. displays --
-- Execution units --
-- Technology --
-- Release date --
GPU name
-- GPU frequency --
 
 

Artificial Intelligence and Machine Learning

-- AI specifications --
-- AI hardware --
 
 

Hardware codec support

A photo or video codec that is accelerated in hardware can greatly accelerate the working speed of a processor and extend the battery life of notebooks or smartphones when playing videos.
-- VP8 --
-- h265 / HEVC (10 bit) --
-- h265 / HEVC (8 bit) --
-- AV1 --
-- AVC --
-- VP9 --
-- VC-1 --
-- h264 --
-- JPEG --
 
 

Memory & PCIe

The processor supports a maximum memory capacity of 16.0 GB distributed across 2 memory channels. It offers a peak memory bandwidth of 21.3 GB/s. Both the type and quantity of memory can have a substantial impact on the overall system performance.
pci PCIe pci
-- Bandwidth 21.3 GB/s
No AES-NI No
No ECC No
2 Memory channels 2
16.0 GB Max. Memory 16.0 GB
DDR3-1066, DDR2-800 Memory type DDR3-1333
 
 

Thermal Management

The processor has a thermal design power (TDP) of 65 W watts.
TDP indicates the cooling solution needed to effectively manage the processor's heat. It generally provides an approximate indication of the actual power consumption of the CPU itself.
The processor has a thermal design power (TDP) of 95 W watts.
65 W TDP (PL1 / PBP) 95 W
-- Tjunction max --
 
 

Technical details

The Intel Celeron E1400 is manufactured using a 65 nm process.
A smaller manufacturing process indicates a more contemporary and energy-efficient CPU.
A substantial cache can significantly enhance the processor's performance, particularly in scenarios like gaming.
The AMD Athlon II X3 425 is manufactured using a 45 nm process.
LGA 775 Socket AM3
Conroe (Core) Architecture Rana
None Virtualization AMD-V
x86-64 (64 bit) Instruction set (ISA) x86-64 (64 bit)
-- Part Number --
Windows 10, Linux Operating systems Windows 10, Linux
-- Release price --
0 bytes L3-Cache 0 bytes
Monolithic Chip design --
Technical data sheet Documents Technical data sheet
512.0 KB L2-Cache 1.5 MB
65 nm Technology 45 nm
Q2/2008 Release date Q3/2009
SSE3, MMX, SSE, SSE2 ISA extensions SSE3, SSE4a, MMX, 3DNow!