Intel Xeon E3-1225V3 

Released April, 2013
  • 3.2 GHz
  • Quad core
7.3 Out of 10

The previous Ivy Bridge-EX flagship had 4.31 Billion transistors configured on a 541mm2 so its easy to tell that the Haswell-EP takes die size and transistor count to a new level.
by hassan-mujtaba (Sep, 2014)
The price difference between the 14 core model and the 16 core model is nearly $1000, making budgets and workloads being important factors in this decision.
by Ian-Cutress (Nov, 2014)

CPUBoss Review Our evaluation of the Intel Xeon E3-1225V3

Performance

Benchmark performance using all cores

Xeon E3-1225V3
6.6
Passmark and GeekBench (32-bit)

Single-core Performance

Individual core benchmark performance

Xeon E3-1225V3
9.2
Passmark (Single Core)

Cost to Run

Xeon E3-1225V3
5.4
Commercial Energy Cost

Value

Xeon E3-1225V3
8.9
Performance Per Dollar

7.3

CPUBoss Score

Performance, Single-core Performance, Cost to Run and Value

Xeon E3-1225V3
7.3

Benchmarks Real world tests of the Intel Xeon E3-1225V3

GeekBench (32-bit)

Xeon E3-1225V3
9,934
Core i7 4770K
14,376
Core i3 4130
6,268

GeekBench

Xeon E3-1225V3
9,934
Core i7 4770K
18,498
Core i7 4790
14,285

Passmark

Xeon E3-1225V3
6,955
Core i7 4790
10,116
Core i7 4770K
10,016

Passmark (Single Core)

Xeon E3-1225V3
1,981
FX 8350
1,525
Core i7 4790
2,301

In The News From around the web

20
Nov

Intel Haswell-EP Xeon 14 Core Review: E5-2695 V3 and E5-2697 V3

by Ian Cutress |
www.anandtech.com
The prevalence of multithreaded code is server and workstation environments make the frequency difference extremely important, especially when it comes to the types of workloads that have frequent memory delays and accesses.
If it happens in a core as part of the logic or caches, that core can be fused off and the die can sold as a lower core part.
6
Nov

Intel Haswell-EP Xeon 12 Core Review: E5-2650L V3 and E5-2690 V3

by Ian Cutress |
www.anandtech.com
Similarly to the E5-2687W V3, the moment we hit a frequency the system does not like, it returns as a complete failed POST rather than a BSOD.
As part of this review we were able to source two E5-2650L V3 CPUs with a dual CPU motherboard and offer a more competitive analysis at 130-135W total TDP against the E5-2690 V3.
29
Oct

Eighteen-core Xeon E7 v3 Based on Haswell-EX in Q2'15

by Scott Michaud |
www.pcper.com
If that is not enough cores, then you can pick up an eight-socket motherboard and load it up with multiple of these.
While Ivy Bridge-EX was available with up to 15 physical cores per processor, double that with HyperThreading, Haswell-EX is increasing that to 18, or 36 simultaneous threads with HyperThreading.
It might also come to pass that some server motherboard manufacturers will end up supporting the DDR4-2133 at 3DPC, similar to some efforts made with Patsburg.
Low quality conversion loves faster individual cores, hence the W processor wins out due to its higher full-load frequency.

Specifications Full list of technical specs

summary

Clock speed 3.2 GHz
Turbo clock speed 3.6 GHz
Cores Quad core
Is hyperthreaded No

features

Has a NX bit Yes
Supports trusted computing Yes
Has virtualization support Yes
Instruction-set-extensions
  1. AES
  2. SSE4.1
  3. SSE3
  4. Supplemental SSE3
  5. SSE2
  6. AVX 2.0
  7. MMX
  8. SSE
  9. SSE4
  10. SSE4.2
  11. AVX
Supports dynamic frequency scaling Yes

gpu

GPU GPU
Label Intel® HD Graphics P4600
Number of displays supported 3
GPU clock speed 350 MHz
Turbo clock speed 1,200 MHz

memory controller

Memory controller Built-in
Memory type
  1. DDR3-1600
  2. DDR3-1333
Channels Dual Channel
Supports ECC Yes
Maximum bandwidth 25,600 MB/s
Maximum memory size 32,768 MB

details

Architecture x86-64
Threads 4 threads
L2 cache 1 MB
L2 cache per core 0.25 MB/core
L3 cache 8 MB
L3 cache per core 2 MB/core
Manufacture process 22 nms
Max CPUs 1

overclocking

Overclocked clock speed 3.6 GHz
Overclocked clock speed (Water) 3.2 GHz
Overclocked clock speed (Air) 3.6 GHz

power consumption

TDP 84W
Annual home energy cost 20.24 $/year
Annual commercial energy cost 73.58 $/year
Performance per watt 12.72 pt/W
Typical power consumption 68.25W

bus

Architecture DMI
Transfer rate 5,000 MT/s
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