Old 16-09-2012   #1
Senior Administrator and Reviewer
 
Dee's Avatar
 
Join Date: Jul 2004
Location: Scotland, UK
Posts: 14,016
Easy overclocking guide for Intel Sandy Bridge and Ivy Bridge CPUs

Disclaimer
You overclock your system at your own risk. Overclocking your CPU could cause the CPU to fail, or reduce its useful life. Neither MyCE.com nor myself will take any responsibility for any damage that may be caused to your CPU or system by following this guide.

Easy overclocking guide for Intel Sandy Bridge and Ivy Bridge CPUs.

If you are an extreme overclocker then this guide is probably not for you. What I intend to cover in this guide is a sensible CPU overclock that can be used 24/7, and all without power consumption going through the roof.

There are many ways to overclock these CPUs and I'm not going to claim that this way is the best way, but simply that it should work for 95% of the people who would like to get some extra grunt from their CPU without the need for extreme cooling solutions, or having to worry about power consumption getting out of hand.

First of all. let's cover what you will need to successfully overclock a Sandy Bridge or Ivy Bridge CPU.

The first thing of course is a CPU with an unlocked multiplier. For Sandy Bridge and Ivy Bridge that would be a CPU model with a "K" at the end. 2600K for example for Sandy Bridge, and 3770K for example, for Ivy Bridge. Overclocking these CPUs is simply a matter of stepping up the multiplier. Of course it isn't quite that simple, as you will need to watch how much voltage you push through these CPUs, and also that stepping up the voltage and clock speed will inevitably produce more heat.

Chipsets

The next thing you will need is a chipset that allows the CPU to be overclocked. For this we will only cover the most popular mainstream chipsets.

See the table below.


A third party cooling solution.
If we are going to look at overclocking seriously then the first thing you will require is a third party cooling solution. The stock cooler is really only effective at clock speeds up to about 4GHz. To go faster than this then a third party cooling solution is required. Don't worry, for this guide a good quality air cooling solution is all that's required.

Although Sandy Bridge and Ivy Bridge both share the same CPU architecture, there cooling requirements are quite different. Sandy Bridge is a 32nm part, while Ivy Bridge is a 22nm part. Also, the CPUs internal thermal interface are very different. Sandy Bridge uses a soldered integrated heat spreader which is soldered directly onto the CPU die, while the Ivy Bridge integrated heat spreader uses a TIM (thermal interface material) to make contact with the CPU die.

Solder is much more effective at transferring heat when compared to a thermal paste.


If we look at the above picture of an Ivy Bridge CPU, the metal part covering most of the CPU package is the integrated heat spreader. The heat spreader serves two purposes.
  • It protects the CPU die.
  • It spreads the heat produced by the CPU die onto a larger surface area, which also acts as the interface between the CPU and the cooling solution.

Let's get something straight right from the start. Despite what you may have heard, Ivy Bridge produces less heat than Sandy Bridge. The problem with Ivy Bridge is twofold. First you have a smaller CPU die, so there is less surface area to make contact with the integrated heat spreader, and Intel use a thermal paste to thermally transfer the heat from the CPU die to the integrated heat spreader. So although Ivy Bridge produces less heat, it struggles to get that heat from the CPU die to the integrated heat spreader. Once the heat is transferred to the heat spreader, it's very easy to get rid of that heat. So a good air cooling solution will do the job every bit as good as an expensive water cooling solution.

Measuring how hot the CPU is getting.
The best way to measure the CPU temperature is to measure the heat of the CPU cores themselves, and lucky for us, there is a couple of excellent free applications for doing this.

The maximum core temperatures are as follows.
  • Sandy Bridge TJmax is 99c
  • Ivy Bridge TJMax is 105c
If TJmax is reached then the CPU will throttle back to prevent permanent damage to the CPU die, but you don't want to get to close to those temperatures. For Sandy Bridge, 75C really shouldn't be exceeded for any prolonged period. For Ivy Bridge, 85C should not be exceeded for a prolonged period.

Measuring vcore voltage.
This is the amount of voltage that is being supplied to the CPU cores.
You will no doubt have seen on some overclocking sites, that people are pushing crazy amounts of voltage through the CPU cores, in order to get that last 100MHz of speed. For this guide we will be a bit more conservative and sensible.

The maximum safe voltages for 24/7 use are as follows.
  • Sandy Bridge 1.375 volts
  • Ivy Bridge 1.28 volts
Measuring the core voltages is again very easy, and free. CPUZ is probably the best option for this.

Overclocking the CPU.
To actually overclock the CPU, we are going to do this through the UEFI (BIOS). The method I will use is the same for Sandy Bridge and Ivy Bridge, and as I said at the top of the page, we are going to do this without sending power consumption through the roof.

First of all you will need to enter the UEFI (advanced settings), and you will need to consult your motherboard manual as to how you enter the UEFI (advanced settings). I will use an Asus Z77 motherboard for this task, but the same settings that I use should be a available for most Sandy Bridge and Ivy Bridge compatible motherboards.


Once you have reached the advanced settings page, you should then look for the overclocking section.

So, below are the settings you will need to change.
  • Overclock tuner - Manual
  • BCLK Frequency - 100.0 (This locks the base clock to 100MHz, and locks down the PCIe bus to 100MHz. This is very important)
  • Turbo ratio - Manual
  • Ratio sync control - Enabled (This adjusts all the CPU cores to the same multiplier)

Almost all Sandy Bridge and Ivy Bridge CPUs should be able to reach 4.4GHz with ease with a good air cooling solution, but let's start at a lower multiplier. We'll start at 4.1GHz, then work our way up a notch or two.

Adjusting the core voltages.

The next setting is how to control the core voltage. Many overclockers are stuck in the old ways of how to get a stable overclock, by setting a fixed core voltage. Unfortunately this method is old, produces extra heat, and wastes energy, and doesn't really apply to Sandy Bridge and Ivy Bridge. To overclock Sandy Bridge and Ivy Bridge we will use a voltage offset. This method is much more energy efficient and flexible. It will inject more vcore when it is required (under load), and then lower vcore when the system is on low load or idle.

The required settings are as follows.
  • CPU voltage - Offset mode (change from auto to offset)
  • Offset mode - + (plus) This will increase the vcore by an offset amount
  • CPU offset voltage - 0.050V (be careful when setting this).


You will notice that my setting is 0.025V, but we will start slightly higher, then after some stability testing you can reduce this to a value that suits your system. The lower you can set the "offset" voltage the better, as a lower offset voltage will result in less heat being produced. However, the priority must be stability. Have patience with this setting, it is well worth the effort.

To test for stability you will need some way of loading the system. I would not recommend running any torture type test for any length of time, they can degrade the CPU if you push them too far. I have found that running the (free) benchmark application CineBench (single run on the Multi thread CPU test) will be fine for a quick test. If it completes the test, you can be fairly sure that your overclock is stable.

You will also need to test for stability when the system is idle, as the power saving characteristics of these CPUs can mean that the system will be stable while loaded, but unstable when at idle or low load.

If the overclock is stable then you may like to try and go for a higher multiplier. Take this one step at a time, and test for stability at each increase of the CPU multiplier, and keep an eye on vcore and temperatures as you go.

Energy efficient overclocking.
The enthusiast overclocker will generally switch off all the power saving modes of the CPU, and lock the CPU frequency at their max overclock speed. This was always the case with the older generations of Intel CPUs such as Pentium, Core, and Nehalem. Sandy Bridge and Ivy Bridge are very different animals. Their frequency ramping performance is much improved over those older generations of CPU's, and reach idle speed 1600MHz to max overclock frequency in a fraction of a second. So for Sandy Bridge and Ivy Bridge, the CPU power saving modes should be left enabled.

This has two very attractive benefits.
  • You save a lot of energy
  • You produce a lot less heat.

Being realistic, you don't require a CPU clocked at 4.4GHz to browse the Internet, or type a document in Word. So leaving the power saving settings enabled will allow the CPU to throttle back when load isn't high, then ramp up the CPU frequency to max when you do require a lot of CPU grunt. For example, while re-encoding a video stream.

To change the CPU power management settings, you will need to go to the "advanced page" and then select "CPU advanced settings" and then "CPU power management".


From here you would make the following changes.
  • Enhanced Intel Speedstep Technology (EIST) and set it to enabled. This will allow the CPU to seamlessly step from 1600MHz all the way up to your max overclock frequency.
  • Turbo mode - enabled
  • CPU 1E - enabled (allows the first power saving CPU state)
  • CPU C3 and C6 Report - enabled. This will allow the OS to send power requirements back to the motherboards power management processors.
  • Package C state support - enabled. This enables C3 and C6 support at the hardware level.

Overclocking the integrated graphics processor

Both the Sandy Bridge and Ivy Bridge processors have an integrated graphics processor (iGPU). On Sandy Bridge you will either have HD2000 or HD3000. On Ivy Bridge the iGPU is designated HD2500 and HD4000.

All these parts can be overclocked, unless you happen to be running a motherboard with the P67 chipset. So what is the benefit of overclocking the iGPU?

Well to start with, 3D performance in games will see a benefit, but it's not only games that will see a boost in performance, Intel Quick Sync will also see a performance boost. So let's take a look at overclocking the iGPU.

Just like overclocking the processor itself, in this guide I will stick to a sensible overclock that most people will be able to achieve very easily, and also without sending temperatures and power consumption sky high.

How to overclock the iGPU
You will first need to enter the system UEFI, and then enter the system overclocking screen.


Next find the iGPU max frequency setting, and choose your max overclock frequency. I have found that the following is very stable.
  • Sandy Bridge HD3000 - 1600MHz
  • Ivy Bridge HD4000 - 1500MHz

Although Ivy Bridge is running at a lower frequency, it will still easily outperform the Sandy Bridge iGPU. Once you have set the max iGPU frequency you can then move onto setting the iGPU voltage. Because we are overclocking the iGPU it will inevitably require a slightly higher iGPU core voltage.


Once again we will use the "offset" method for controlling the iGPU core voltage, so we will first set the option to "offset mode". For the offset voltage, I have found that setting it at "auto" is the most stable, and produces very little extra heat.

To finish this guide.
If you can get all the settings above to work in a stable manner, then not only will you have a nice and sensible overclock and a faster system, but also you will be doing so without producing vast amounts of heat, and without sending power consumption through the roof.

I will only add, be careful, and watch the core voltages do not get to high, and watch those temperatures.
Good luck.
__________________
We came to wreck everything and ruin your lives, God sent us

MyCE SSD Reviews

To become a member of MyCE.com just click here to join
The Forum Rules | The SSD FAQ | The NEC/Optiarc F.A.Q. | Liggy & Dee's NEC/Optiarc Firmware Page

Last edited by Dee; 24-03-2013 at 19:47.
Dee is offline   Reply With Quote
Old 16-09-2012   #2
MyCE Junior Member
 
Acreo_Aeneas's Avatar
 
Join Date: Sep 2012
Location: Chicago, IL
Posts: 58
Thanks for the quick guide Dee. I'll have to OC this baby when I have time. Just so busy now that I don't have enough time to sit there OC and make sure it's stable.
__________________
|TG-13th| Acreo Aeneas
Tactical Gamer - The Premier Gaming Community

Avalon Aurora II (PC): ASUS P8Z77-V LK, i7-3770K, Thermaltake Water 2.0 Extreme, 32 GB G.Skill Ripjaws X DDR3 1600 RAM, 240 GB Kingston HyperX 3K SSD, ASUS Xonar DG, ASUS BR Burner, 750W Corsair AX750, CM Storm Trooper Case
Acreo_Aeneas is offline   Reply With Quote
Old 17-09-2012   #3
New on Forum
 
RexHunt's Avatar
 
Join Date: Aug 2002
Posts: 173
Great guide Dee!

@Acreo, be sure to post results
__________________
G'day Folks! Just give it a little kiss here and set it free. There ya go mate !
RexHunt is offline   Reply With Quote
Old 23-09-2012   #4
New Member
 
Join Date: Sep 2012
Posts: 2
a 1UP for this thread
Ascalion is offline   Reply With Quote
Old 23-09-2012   #5
Dee
Senior Administrator and Reviewer
 
Dee's Avatar
 
Join Date: Jul 2004
Location: Scotland, UK
Posts: 14,016
I added a small section on chipsets that support overclocking.

Next to be added will be a section on overclocking RAM, and also a section on overclocking the internal GPU.
__________________
We came to wreck everything and ruin your lives, God sent us

MyCE SSD Reviews

To become a member of MyCE.com just click here to join
The Forum Rules | The SSD FAQ | The NEC/Optiarc F.A.Q. | Liggy & Dee's NEC/Optiarc Firmware Page
Dee is offline   Reply With Quote
Old 29-09-2012   #6
New Member
 
Join Date: Sep 2012
Posts: 2
this looks good thanks.
mr2sang is offline   Reply With Quote
Old 29-09-2012   #7
New Member
 
Join Date: Sep 2012
Posts: 4
Thanks to this short tutorial i was able to overclock my brand new i5-2500k. I have Fatal1ty Z77 pro-M board. Using thermalright 120 ultra extreme at 1.26V have stable 4.5GHz(60C-4-cores). 4,8 at 1,32V. Anything above that freq generates so much heat. Max stable freq was 5.0Ghz 1,42V but that was just for show. My factory VID is 1.3V so running on 1.26V with 4,5GHz is enough. Especial that I5 is 100$ chipper than i-7 2600k. At least in Poland.
Wacholek is offline   Reply With Quote
Old 09-11-2012   #8
New Member
 
Join Date: Oct 2012
Posts: 2
That's helpful, thanks. I will use it when I do my new build.
AlWakRa is offline   Reply With Quote
Old 09-11-2012   #9
New Member
 
Join Date: Nov 2012
Posts: 7
Quote:
Originally Posted by AlWakRa View Post
That's helpful, thanks. I will use it when I do my new build.
Same here...
falconexe is offline   Reply With Quote
Old 11-11-2012   #10
Dee
Senior Administrator and Reviewer
 
Dee's Avatar
 
Join Date: Jul 2004
Location: Scotland, UK
Posts: 14,016
Updated the guide with a small section on overclocking the Integrated Graphics processor (iGPU).
__________________
We came to wreck everything and ruin your lives, God sent us

MyCE SSD Reviews

To become a member of MyCE.com just click here to join
The Forum Rules | The SSD FAQ | The NEC/Optiarc F.A.Q. | Liggy & Dee's NEC/Optiarc Firmware Page
Dee is offline   Reply With Quote
Old 07-12-2012   #11
MyCE Rookie
 
Join Date: Feb 2005
Posts: 36
Hi! I didn´t post in ages and the first time i did a hardware upgrade in a while did lead me here again while i searched about overclocking
Thanks for summarizing it that simple. I only want to say that it works well here also. Exactly the reasoning that makes sense, no unnecessary fixed voltage things.
I have an Asrock extreme6 with a 3570k. I simply use 44x, add an offset +0,03 and use LLC medium (3)
This way all powersaving features work flawlessly and heat isn´t a prob at all.
pokuly is offline   Reply With Quote
Old 03-02-2013   #12
New Member
 
Join Date: Feb 2013
Posts: 1
hi, thanks for the guide. much more concise than anything else I've read.
I'm using a gigabyte board and the only way I could get the vcore to stay below 1.3 on load was by setting the offset all the way down to 0.010 and setting LLC to low. Maybe I'm doing something wrong?
my mobo is gigabyte ga-z77-d3h and cpu is i5-3570k

Thanks
wilhelm1983 is offline   Reply With Quote
Old 03-02-2013   #13
Dee
Senior Administrator and Reviewer
 
Dee's Avatar
 
Join Date: Jul 2004
Location: Scotland, UK
Posts: 14,016
Welcome to the forum.
Take a look at CPU power phase control (not sure what its called on Gigabyte boards), and make sure its not set on high or extreme, a mid setting should be fine. Having said that, the CPU offset voltage method will not be the same for every board or CPU.
If 0.010V is good for yours then I wouldn't worry about it. Perhaps you can set it even lower and still have stability.
__________________
We came to wreck everything and ruin your lives, God sent us

MyCE SSD Reviews

To become a member of MyCE.com just click here to join
The Forum Rules | The SSD FAQ | The NEC/Optiarc F.A.Q. | Liggy & Dee's NEC/Optiarc Firmware Page
Dee is offline   Reply With Quote
Old 31-07-2013   #14
New Member
 
Join Date: Jul 2013
Posts: 2
I'm going to give this a go on a Gigabyte board. Is there anything else I need to look out for that might be different from your Asus? Do I need to fiddle with LLC?

Thanks for the guide. I've been surprised at how difficult this has been to research and figure out!
diabeto is offline   Reply With Quote
Old 31-07-2013   #15
Dee
Senior Administrator and Reviewer
 
Dee's Avatar
 
Join Date: Jul 2004
Location: Scotland, UK
Posts: 14,016
Welcome to the forum.
An overclock at this frequency, you can probably leave LLC as it is.
Just keep an eye on the core voltages, and the core temperatures.
__________________
We came to wreck everything and ruin your lives, God sent us

MyCE SSD Reviews

To become a member of MyCE.com just click here to join
The Forum Rules | The SSD FAQ | The NEC/Optiarc F.A.Q. | Liggy & Dee's NEC/Optiarc Firmware Page
Dee is offline   Reply With Quote
Old 02-08-2013   #16
New Member
 
Join Date: Jul 2013
Posts: 2
Quote:
Originally Posted by Dee View Post
Welcome to the forum.
An overclock at this frequency, you can probably leave LLC as it is.
Just keep an eye on the core voltages, and the core temperatures.
Thanks. So basically: Up the frequency to maybe 42, up the offset to maybe 0.050, then test load and idle. If temps and core voltage ok: Up frequency or lower offset. If unstable: increase offset. Keep fiddling to achieve highest desired clock speed with lowest offset value, while ensuring temps and vcore don't go above safe limits?

Does any of this affect sleep/wake at all?

Also do you ever overclock your ram or gpu?
diabeto is offline   Reply With Quote
Old 26-08-2013   #17
New Member
 
Join Date: Apr 2007
Posts: 7
great guide, thanks for all the work.
this is my first time trying to overclock, and loved the simplicity of your guide to get that extra little boost.

do I also need to change the ram speed or settings?
other guides I tried my hand in which were way to complicated for my wish of going up to perhaps 4,2GHz or so, always mentioned ram as an important section of the guide. What does changing the ram have to do with the CPU overclock?
and do I need to worry about this?

Last edited by screwed; 26-08-2013 at 16:26.
screwed is offline   Reply With Quote
Old 28-08-2013   #18
Dee
Senior Administrator and Reviewer
 
Dee's Avatar
 
Join Date: Jul 2004
Location: Scotland, UK
Posts: 14,016
I'm glad you guys find the guide useful.

Do I overclock my own RAM and iGPU. Yes, my RAM is clocked to 2400 MHz (it's rated at 1600MHz), and the iGPU is clocked to 1500MHz.

The iGPU is fairly easy to overclock, and there is a section in the guide which covers that.

RAM is not so easy to cover, as there are simply to many brands of RAM to cover.
There can be some benefits to clocking the RAM, but it depends on what you are doing if this translates into a noticeable boost in performance.
It's trial and error I'm afraid, as far as overclocking RAM is concerned.
__________________
We came to wreck everything and ruin your lives, God sent us

MyCE SSD Reviews

To become a member of MyCE.com just click here to join
The Forum Rules | The SSD FAQ | The NEC/Optiarc F.A.Q. | Liggy & Dee's NEC/Optiarc Firmware Page
Dee is offline   Reply With Quote
Old 28-08-2013   #19
New Member
 
Join Date: Apr 2007
Posts: 7
Quote:
Originally Posted by Dee View Post
I'm glad you guys find the guide useful.

Do I overclock my own RAM and iGPU. Yes, my RAM is clocked to 2400 MHz (it's rated at 1600MHz), and the iGPU is clocked to 1500MHz.

The iGPU is fairly easy to overclock, and there is a section in the guide which covers that.

RAM is not so easy to cover, as there are simply to many brands of RAM to cover.
There can be some benefits to clocking the RAM, but it depends on what you are doing if this translates into a noticeable boost in performance.
It's trial and error I'm afraid, as far as overclocking RAM is concerned.
I was only wondering if I needed to change anything to my ram, like set it to 1600MHz as its rated and manually put in the 9-9-9-24 setting (whatever that is). its all on auto. Not really interested in overclock in that sense, just if the ram settings will affect the CPU overclock at all.

iGPU disabled and running purely from video card.
screwed is offline   Reply With Quote
Old 28-08-2013   #20
Dee
Senior Administrator and Reviewer
 
Dee's Avatar
 
Join Date: Jul 2004
Location: Scotland, UK
Posts: 14,016
Quote:
Originally Posted by screwed View Post
I was only wondering if I needed to change anything to my ram, like set it to 1600MHz as its rated and manually put in the 9-9-9-24 setting (whatever that is). its all on auto. Not really interested in overclock in that sense, just if the ram settings will affect the CPU overclock at all.

iGPU disabled and running purely from video card.
Ah.
OK
To set your RAM at its rated speed, you probably only have to adjust seven settings.

Set RAM frequency to 1600MHz
Set the RAM voltage as specified by your RAM for 1600MHz. (1.50V for example).

The rest of the settings are timing related.
Your RAM is 9-9-9-24, and they are as follows.
  • CAS Latency (CL) = 9 clocks.
  • RAS to CAS delay (tRCD) = 9 clocks
  • RAS Precharge (tRP) = 9 clocks
  • Cycle Time (tRAS) = 24 clocks
The other setting that will be required is Command rate
Command Rate (CR) =1T or 2T (check the RAM specs when clocked to 1600MHz).
__________________
We came to wreck everything and ruin your lives, God sent us

MyCE SSD Reviews

To become a member of MyCE.com just click here to join
The Forum Rules | The SSD FAQ | The NEC/Optiarc F.A.Q. | Liggy & Dee's NEC/Optiarc Firmware Page
Dee is offline   Reply With Quote
Old 28-08-2013   #21
New Member
 
Join Date: Apr 2007
Posts: 7
thank you for the input, I will get right on it.
what about the internal PLL overvoltage? I see you have it disabled.
screwed is offline   Reply With Quote
Old 28-08-2013   #22
Dee
Senior Administrator and Reviewer
 
Dee's Avatar
 
Join Date: Jul 2004
Location: Scotland, UK
Posts: 14,016
PLL overvoltage is really for extreme overclockers, and required if you intend to go beyond 4.6GHz. Unless you have a really bad overclocking CPU, it shouldn't be required for an overclock of between 4GHz and 4.5GHz.

I have it disabled because it pushes more voltage through the CPU, and therefore generates more heat.
__________________
We came to wreck everything and ruin your lives, God sent us

MyCE SSD Reviews

To become a member of MyCE.com just click here to join
The Forum Rules | The SSD FAQ | The NEC/Optiarc F.A.Q. | Liggy & Dee's NEC/Optiarc Firmware Page
Dee is offline   Reply With Quote
Reply


Thread Tools

Posting Rules
You may not post new threads
You may not post replies
You may not post attachments
You may not edit your posts

BB code is On
Smilies are On
[IMG] code is On
HTML code is Off
Trackbacks are Off
Pingbacks are Off
Refbacks are Off


Similar Threads
Thread Thread Starter Forum Replies Last Post
Intel Sandy Bridge and P67 - Review Dee CPUs, Motherboards, RAM & Overclocking 22 18-06-2012 16:44
Intel launches 22nm Ivy Bridge CPUs using "3D transistors" Seán Latest News Headlines 8 03-05-2012 21:32
Intel talks Ultrabooks, Ivy-Bridge & a new chip dubbed Haswell etdragon Consumer electronics 0 14-09-2011 02:30
Intel P67/H67/Z68 and Sandy Bridge CPU Dee General Hardware Forum 480 04-08-2011 04:17


All times are GMT +2. The time now is 06:29.
Top