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[ENG]More Powerful 6C12T Multitasking Performance - Intel Core i7-4960X Guide


windwithme

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I4960X01.jpg

 

Intel launched LGA 2011Extreme platform at the end of 2011.

Its different position as annual renewed LGA 1155 or LGA 1150.

LGA 2011 CPU refresh cycle is longer and having simple product line.

CPU usually has 3 models. Mostly is using X79 chipset.

 

LGA 2011 launched three Core i7 CPU,Sandy Briidge-E, in the beginning.

After almost 2 years, Ivy Bridge-E was revealed last Sep.

The socket is LGA 2011. Pre-owned X79 users just need to update the BIOS.

 

Sandy Briidge-E has 3 CPUs.

Entry is Core i7-4820K,3.7~3.9GHz / 4C8T / L3 Cache 10MB.

Mid end is Core i7-4930K,3.4~3.9GHz / 6C12T / L3 Cache 12MB

High end is Core i7-4960X,3.6~4GHz / 6C12T / L3 Cache 15MB

Even 4820is also Ksku. It should be able to adjust multiplier.

4820K is better than former i7-3820 at unlock geature.

Sandy Briidge-E is 22nm and Max TDP is 130W.

LGA 2011 doesnt build in GPU, so the temperature and heat control should be better.

Below is Intel Core i7-4960X, the dimension is much bigger than LGA 1155.

I4960X02.jpg

 

4960X back side is almost the same as 4930K. Main difference is 4960XL3 Cache is 15MB.

I4960X03.jpg

 

MB is GIGABYTE X79S-UP5-WiFi, the only Intel C606MB so far.

Its E-ATX, 30.5cm x 26.4cm. Basically normal size ATX Case can support it.

C606 is Server chipset. The CPU support is much better but OC capability will be weaker than X79.

I4960X04.jpg

 

X79S-UP5-WiFi supports 8DIMM DDR3, and max capacity is 64GB.

It supports 2SATA3 and 8SAS devices. Its good for more HDDs or RAID.

Unless you are using 3 SATA3 SSD, otherwise 8 SAS ports still provide a better expandability.

After all, HDD still cannot break through SATA2 bandwidth.

I4960X05.jpg

 

System Configuration

CPU: Intel Core i7-4960X

MB: GIGABYTE X79S-UP5-WiFi

DRAM: CORSAIR VENGEANCE PRO DDR3 2400 8GX4

VGA: SAPPHIRE Raden HD 6970 CrossFire

SSD: CORSAIR NEUTRON 256GB

POWER: ANTEC High Current Pro 850W

Cooler: Thermalright Archon SB-E X2

OS: Windows8.1 64bit

I4960X06.jpg

 

As i7-4960X test figure will divide into two.

Picture A is default, enable C1E mode.

CPU max clock is 3.6~4.0GHz, and DDR3 1333 CL9 9-9-24 1T.

Picture B is OC, disable C1E mode.

CPU clock is 4.3GHz, and DDR3 2399.6 CL11 13-13-31 2T.

 

LGA 2011 is the only quad channel supported platform. Its a great advantage for DDR3 bandwidth.

DDR3 is CORSAIR CMY32GX3M4A2400C11R, Vengeance Pro series.

I4960X07.jpg

 

8GB X 4 support LGA 1155/1150 dual channel and LAG 2011 quad channel.

I will also show you the quad channel and dual channel bandwidth performance.

I4960X08.jpg

 

The clock is DDR3 2400. If its LGA 1155Ivy Bridge, the max can be over DDR3 2800.

This LGA 2011 also supports Ivy Bridge-E structure, I think DDR3 2600 is also piossible,

I4960X09.jpg

 

DRAM Performance

DDR3 1333 CL9 9-9-24 1T

ADIA64 Memory Read - 38589 MB/s

Sandra Memory Bandwidth - 33647 MB/s

MaXXMEM Memory-Copy - 13312 MB/s

I4960XRAMA.png

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DDR3 2399.6 CL11 13-13-31 2T

ADIA64 Memory Read - 57695 MB/s

Sandra Memory Bandwidth - 52604 MB/s

MaXXMEM Memory-Copy - 15457 MB/s

I4960XRAMB.png

 

MaXXMEM Memory seems doesn?t support quad channel. The bandwidth is even lower than dual channel.

I hope it can patch to support quad channel soon.

The other two software can test the quad channel bandwidth.

Even though Haswell bandwidth will be 20% higher than Ivy Bridge at the same clock,

Ivy Bridge-E quad channel DDR3 1333 bandwidth is higher than Haswell DDR3 2400.

Ivy Bridge-EDDR3 2400 is 61~67% higher than Haswell DDR3 2400.

You can see if you need more DDR3 capacity or high bandwidth, LGA 2011 is your best option.

 

CPU and System Performance

PerformanceTest 8.0 => 4738.9

Fritz Chess Benchmark => 40.08/19236

I4960XNMA.png

 

PerformanceTest 8.0 => 5126.3

Fritz Chess Benchmark => 48.00/23041

I4960XNMB.png

 

CrystalMark 2004R3 => 366200

I4960XCMA.png

 

CrystalMark 2004R3 => 422626

I4960XCMB.png

 

CINEBENCH R11.5

CPU => 11.03 pts

CPU(Single Core) => 1.64 pts

I4960XCBA.png

 

CINEBENCH R11.5

CPU => 13.00 pts

CPU(Single Core) => 1.83 pts

I4960XCBB.png

 

CINEBENCH R15

CPU => 978 cb

CPU(Single Core) => 139 cb

I4960XCB15A.png

 

CINEBENCH R15

CPU => 1143 cb

CPU(Single Core) => 151 cb

I4960XCB15B.png

 

FRYRENDER

Running Time => 3m 40s

x264 FHD Benchmark => 31.3

I4960XFRYA.png

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FRYRENDER

Running Time => 3m 07s

x264 FHD Benchmark => 36.6

I4960XFRYB.png

 

i7-4960X is a true most powerful multitasking CPU in Intel. The default performance is already high.

Even the latest Haswell i7-4770K OC to 4.5GHz, the performance is still 13% lower than 4960X default setup.

Comparing to default and OC to 4.3GHz multitasking performance, the improvement is around 17~20%.

Unfortunately, C606 OC capability is not as good as X79. If you use X79, it can be OC to 4.5~4.6GHz.

 

Power Consumption Test

This is another key point.

I use ANTEC High Current Pro 850W,80Plus Platinum, the power efficiency is 94%.

I4960X10.jpg

 

12V divides into 4 routes. Each route can support 40A. The total power supply is 850W.

High Current Pro 850W Platinum certificate Power Supply has official 7 years warranty.

I4960X11.jpg

 

Power Consumption Test

Default at OS desktop without running any software, and enable C1E power saving technology - 77W.

I4960XWA.jpg

 

OC at OS desktop without running any software, and disable C1E power saving technology - 117W

I4960XWB.jpg

 

Default at running LinX to full speed CPU - 181W

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OC at running LinX to full speed CPU - 250W

I4960XWD.jpg

 

Comparing to former i7-3960X power consumption data, i7-4960X is a bit lower.

4960X is with Raden HD 6970 CrossFire, but 3960X is with single Nvidia GTX 560Ti.

Especially after OC, 4.3GHz 4960X doesn?t like 4.5GHz 3960X to reach more than 300W.

Of course Platinum Power Supply is also helpful.

However, the main reason is Ivy Bridge-E move to 22nm.

 

Temperature (Room is 18?C)

Default at OS desktop - 23~30

I4960XTA.png

 

OC at OS desktop - 23~30

I4960XTB.png

 

OC and default temperatures are similar. Its a great performance.

 

Default at running LinX to full speed CPU - 45~52

I4960XTC.png

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OC at running LinX to full speed CPU - 58~68

I4960XTD.png

 

4960X temperature is also good. In the same environment, temperature is much lower than Ivy Bridge 4770K.

CPU temperature is one of the LGA 2011 advantages. Its same structure but different design.

The possible reason is LGA 2011 CPU without GPU and CPU dimension is bigger.

 

X79 and C606 both support 2 native SATA3 ports.

I use CORSAIR NEUTRON 256GB to test the performance.

NEUTRON has 2 types. More high-end one is NEUTRON GTX, outlook is red.

In the picture, the blue version is NEUTRON 256GB.

I4960X12.jpg

 

Thickness is 7mm. Its 2.5 and 256GB capacity. 4K Max Random is 83k IOPS.

ATTO Disk Benchmark can reach 540/450 MB/s.

Neutron uses Link_A_Media LM87800 Controller with ONFI NAND Flash.

I4960X13.jpg

 

AS SSD Benchmark - 1061

Seq Read - 509.01 MB/s Write - 431.96 MB/s

4K - 64Thrd Read - 354.93 MB/s Write - 291.37 MB/s

I4960XSSD1.png

 

ATTO DISK Benchmark

Over 64KB test, the max read is 544.1 Mb/s and max write is 452.3 MB/s.

CrystalDiskMark

Seq Read - 510.8 MB/s Write - 445.3 MB/s

I4960XSSD2.png

 

Neutron performance is also good. Only 10% lower than Neutron GTX.

By the way, LGA 2011 provides two SATA3 ports, you can use RAID 0 SSD to enhance the performance.

Other SATA2 or NAS devices, you can use HDD to store data. It should be enough for most application.

If you need more than three SATA3 SSDs, you can choose LGA 1150 for more ports.

However, LGA 1150 has no dual PCI-E X16 bandwidth, and 6C12T CPU. Every platform has its pros and cons.

 

After IntelLGA 2011 platform launched 2 years, they refresh the 3 new CPUs.

Original Sandy Bridge-ECPU enhance to Ivy Bridge-E.

The entry i7-3820 also upgrade to i7-4820K as unlock version. It makes better C/P.

Ivy Bridge-E in manufacturing, temperature, power consumption and DDR3 OC bandwidth are all improved.

Quad channel DDR3 bandwidth, dual PCI-E X16 bandwidth and C606 supports Server CPU also create more advantages.

The fly in the ointment is only 2 native SATA3 ports. Hopefully, next generation will solve this issue.

 

I4960X14.jpg

 

LGA 2011 platform is the top of pyramid. Its for few high budget users.

The life cycle is 3 years which is longer than annual update LGA 1155 or LGA 1150.

Ivy Bridge-E offers the upgrade option for current LGA 2011 users.

It also provides better multitasking performance.

If you are doing graphics design, file converting or video editing, of course higher budget, this is the platform for you.

Its windwithme guide and share about Intel Ivy Bridge-E structure.

 

The paper is also published on my Blog WIND3C, 3C fans are welcome to visit and give advice or comments:)

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