Core i7 4790k overclock: First time overclocker using an i7-4790k

Some Core i7 4790K «Devil’s Canyon» Overclocking On OpenBenchmarking.org

Written by Michael Larabel in Intel on 14 June 2014 at 10:22 AM EDT. 4 Comments

Earlier this week I published the first Linux review of the Intel Core i7 4790K «Devil’s Canyon» processor that’s a refreshed Haswell CPU with 4GHz base frequency and 4.4GHz Turbo.

Read that aforelinked article for the complete Ubuntu Linux review of the i7-4790K compared to other Intel and AMD processors with a slew of benchmarks done using the Phoronix Test Suite and OpenBenchmarking.org so you can compare the data against your own Linux system in an easy and fully reproducible way.

For your viewing pleasure this weekend, I have some very basic overclocking Linux tests for the i7-4790K. With the ASRock Z97 Extreme6 motherboard I wasn’t able to get a good overclock with the limited time I spent with the board prior to leaving for Russia, but will be back with more Devil’s Canyon testing next month on Phoronix.

With the few minutes I spent toying with Devil’s Canyon overclocking, 4.5GHz was the best stable overclock (compared to 4.0GHz base / 4.4GHz Turbo). I was able to boot up to 4.6GHz and then 4.65GHz, but ultimately these 4.6+ GHz overclocks weren’t stable with the motherboard used and eventually under load would run into kernel issues with machine check errors.

Anyhow, for those wanting some basic results at 4.5GHz or just some new i7-4790K Linux reference points to compare to your own system, head on over to the data in 1406121-KH-INTELCORE47.

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Intel Core i7 4790K — Haswell gets a refresh

Shawn Michaels

July 6, 2014
CPU/Processors, Hardware, Intel, Reviews & Articles

3 Comments

Say Hello To Devils Canyon and the 4790K

Devils Canyon is here, and well honestly has been here for a while but upon starting the writing for this article I struggled alot with how to start it as like we have seen many times recently with Intel, this is another refresh which too many raises the question of “Why bother” when we can just wait for the next-gen part for major changes. Well of any refresh in quite some time that I have seen this one promises to bring some real changes and even more so real proof that Intel does listen to its customer base and implements things to make that user base happy..

One way we had proof of this “listening to customers” can be seen some time ago when they announced the enthusiasts protection plan where you can pay a nominal fee and you are protected even while overclocking or any other activity pending you do not cause physical damage to the chip via negligence or simple recklessness. Then again some had to question why this was needed since Intel made chips with unlocked bus multipliers yet “technically” if you overclock them or use aftermarket cooling you void the warranty so I kinda play the devils advocate on this one and say “Hey I don’t mind paying the few extra bucks for the protection rather than sitting on the phone with support and pretending I did not torture the chip and lying through my teeth to get a RMA, so I guess you could say that I’m paying for that warm fuzzy feeling of knowing I’m being up front…. and I guess that’s more of a question of what is it worth to you for your integrity.

Now that I have completely derailed the new Devils Canyon article I guess its time to veer this ship back on course. Now to present day Ivy Bridge came out and was some pretty hot runners, then Haswell came out and there was mass hysteria about the hotter running chips due to the quality of thermal material used between the die and the IHS. Well there’s not alot you could do about that unless you wanted to remove the IHS or “Delid” the CPU and replace the TIM and thereby void your warranty all in the effort for acceptable temps and better performance. Well with that on the new Devils Canyon chips Intel instituted a new TIM which is said to drastically reduce temps and also included additional capacitors on the lower side of the CPU to ensure smoother power delivery to the die which is claimed to help with overclocking stability and performance overall. If you look above you can see the old vs new comparison from 4770K to 4790K with the extra capacitors in place.

There is one more thing worth mentioning and this is the fact that the new 4790K comes out of the box with all 4 cores with HT at 4.0GHz base clock speed and can turbo up to 4.4GHz depending upon loading, This makes the Devils Canyon refresh one of the largest performance jumps we have seen in at least the last few generations.

Now before we dig into the 4790K further and its performance data lets take a look at the new Intel chipset as well.

Intel’s new Z97 Chipset

As everyone knows Intel for the most part has stepped away from the desktop board market and our Z87 board we received was the very last in a long history of stable but feature lacking boards. I think I have covered this previously saying that I do think this was a good move by Intel as they simply could not compete in the board market and unless they were to start partnering with one of their board partners eventually it just simply would not be something they could ever excel in. And well lets face it their core competency is in chipsets and innovation so leave the boards to the partners to squabble over market share and put more resources toward the innovation of new feature sets and components which can add value to the end-user when upgrading platforms.

The Z97 Chipset or 9 series in general is actually very much the same as Z87 with only some minor refreshes in terms of some technology support. Things such as SATA Express, various protection technologies but I think the biggest change is in terms of storage implementations and with the new M.2 SATA and the SATA Express that in itself is actually a very powerful upgrade, even if at the time of writing SATA Express storage is all but non-existent for consumers. This is more just being ready for the ongoing and supercharged march toward faster and faster interfaces.

Since we did not get a board from Intel on this go around I kept it fair and did the launch article for the CPU with the first Z97 board I received on hand so that goes to MSI and their Z97 Gaming 9 motherboard so all tests will be run on this board for the performance section. However do keep eyes out for more boards later down the road so we can see how performance scales for this chipset launch.

Intel Core i7-4790K Processor

The new Devils Canyon is yet another 22nm model actually same basic die from the previous Haswell just with some extra goodies strapped on. The Caps on the bottom of the chip smooth out power and give it a cleaner power source to allow the much higher base clock speed to be out of the box stable and who knows maybe even lower operating voltages, but only time will tell.

Click Image to Enlarge

Here is the 4790K CPU and as you can see it is visually identical in every way to the previous 4770K model being pin to pin compatible and only way of differentiating would be the stamping on the top or the extra capacitors on the bottom.

Here you see the major changes listed and of course the big stand out here is the 4GHz base frequency which is awesome and means excellent performance for a really powerful gaming rig. The integrated HD4600 is the same model in place on the 4770K model along with basically everything else in line with the previous gen chip.

Click Image to Enlarge

Here we have a view into the LGA1150 socket, using the ILM system that has traditionally worked quite well for keeping the processor firmly seated against the socket pins. Good pin contact is very important to ensure a clean signal transmission and optimal performance. Poor pin contact can cause heat and even damage so a proper socket/ILM setup is essential. You can see that the socket looks very similar to the LGA1155 socket, and if you were to count them there are just 5 pins less.

Overclocking

For overclocking I did not simply rely on the sample sent from Intel but I spent a couple extra weeks testing retail processors performance for comparative purposes. Many times I get replies of ES being Cherry picked from the factory and therefore not representative of real world performance so I have some interesting data to share on this front.

I’ll make this clear up front if Intel binned these chips before shipment then the people doing the binning are not that great as I tested 5 random pick retail from two etailers and even a local retail store just to test variance and 3 of the 5 exceeded the capabilities of the chip I got from Intel. This in all means that the argument of better performance from press samples can be canned, but also brings to light another issue which is the “CPU Lottery” we have seen in the last few generations where rather than having all the chips be really good and the board being the limitation or overclocking capability being the limit we ar enow faced with a game of binning to find a really good chip to be competitive.

So now to numbers, I tested starting on air then moving to water and finally to LN2 to see what was possible with Devils canyon and well I will make one very clear statement right out of the gate and that is that so far subzero performance is a bit lacking on these chips at least from my limited sample range so far and while 4770K’s may have their flaws they definitely seem to be the better and more consistent cold performers. The Devils Canyon chips really seem to shine in the gamer region or enthusiasts level region where liquid cooling is employed as you can use an AIO and easily hit between 4.7-5.1GHz without too much hassle depending on quality of your chip. The chip I got direct from Intel as a press sample achieves full stability on water at around 4.75-4.8GHz and temps are not horrible but I had two retails that could do 5GHz and even to 5.1 with complete stability although temps definitely began to creep up.

The voltage scaling for these chips is not linear and progresses at a curve with 4.7-Hhz really starting to ramp upwards, so in essence this feels kinda like we got Sandy Bridge back which is not a bad thing for gamers looking for a nice chip but for extreme enthusiasts at least at this time may be left wanting.

It is worth noting that in the early stages of Z97 these boards are getting crazy amounts of BIOS updates so who knows what can happen if some magic firmware where to pop up but I’m sure if that happens we will come across that as boards trickle in to be tested.

Memory clocking for the Devils canyon is standard for Haswell it works very well and you can have XMP sticks over 3GHz with ease.

Temperature

To test for temperatures, we ran Prime95’s Blend stress test for 30 minutes and we have recorded the results. Then we waited for another 30 minutes before we wrote down the idle temperatures.

Well Intel definitely did it right with the TIM change as we saw a solid 8-10C drop at stock speeds against a 4770K and do keep in mind this is with the 4790K running a base frequency 0.5GHz (500Mhz) higher than the 4770K so this means much better results for users on air or AIO coolers. (This was tested across all 6 samples we have on hand)

This is a major improvement for Intel and I give them a lot of credit for listening to consumers and fixing this issue as it really does make for a better user experience.

Power Consumption

For overall power consumption we loaded the board in stock form with the Discreet GPU (GTX 780) in use and tested overall platform power with both the main SSD in use and a secondary storage drive to simulate normal system configurations. Loading was completed by running Metro 2033 along with Cinebench for a heavy rendering load on the CPU.

Here you can see that at stock conditions, the X79 chip simply pulls more power and the Haswell did a nice improvement on this but the real surprise comes to the Devils Canyon platform which at idle pulls significantly less than the 4770K pulling a full 50W less at idle than the 4770K. At first I thought this was a bug but tested across multiple chips still had the same result it does seem to engage the much lower power idle mode a lot more than the 4770K model does.

I will test this across more boards to see if we have similar activity but for this I would say well done to Intel as this means a gaming machine sitting idle or even surfing web will be much more power efficient.

Testing & Methodology

We’ve expanded our testing suite considerably for the X79 chipset, and will continue to use the same methods for most of the motherboards and CPU’s we test. In the interests of thoroughness and accurate results, we run each test at least three times, and some tests more than that. We average the total of all the tests from each benchmark then report the average here. If we had any ambiguous results we left those out and ran the benchmark once again.

The OS we use is Windows 7 Pro 64bit with all patches and updates applied. We also use the latest drivers available for the motherboard and any devices attached to the computer. We do not disable background tasks or tweak the OS or system in any way. We turn off drive indexing and daily defragging. We also turn off Prefetch and Superfetch. This is not an attempt to produce bigger benchmark numbers. Drive indexing and defragging can interfere with testing and produce confusing numbers. If a test were to be run while a drive was being indexed or defragged, and then the same test was later run when these processes were off, the two results would be contradictory and erroneous. As we cannot control when defragging and indexing occur precisely enough to guarantee that they won’t interfere with testing, we opt to disable the features entirely.

Prefetch tries to predict what users will load the next time they boot the machine by caching the relevant files and storing them for later use. We want to learn how the program runs without any of the files being cached, and we disable it so that each test run we do not have to clear pre-fetch to get accurate numbers. Lastly we disable Superfetch. Superfetch loads often-used programs into the memory. It is one of the reasons that Windows occupies so much memory. Vista fills the memory in an attempt to predict what users will load. Having one test run with files cached, and another test run with the files un-cached would result in inaccurate numbers. Again, since we can’t control its timings so precisely, it we turn it off. Because these four features can potentially interfere with benchmarking, and are out of our control, we disable them. We do not disable anything else.

Test Rig

Test Rig
Case	Open Test Bench
CPUs	Intel Core i7 4790K (Haswell – LGA1150 – Z97) Intel Core i7 4770K (Haswell – LGA1150 – Z87) Intel Core i7 3770K (Ivy Bridge – LGA1155 – Z77)
Motherboards	MSI Z97 Gaming 9 AC
Ram	GSkill TridentX 2666MHz
CPU Cooler	Thermaltake Water3. 0 Extreme
Hard Drives	Western Digital Velociraptor 1TB 10000RPM 6Gb/s Hard Drive
SSD	1x Kingston HyperX 240GB SATA III 6Gb/s SSD
Optical	ASUS DVD-Burner
GPU	Intel iGPU or Nvidia GTX 680
PSU	Thermaltake Toughpower XT 1475W Gold
Mouse	Tt eSPORTS Black Gaming Mouse
Keyboard	Tt eSPORTS Meka G1 Mechanical Gaming Keyboard

Test Suite

We will use the following applications to test the performance of the Z87 Chipset (Motherboard, Processor).

Benchmarks
SuperPi Mod 1.5
Wprime 1.55
PCMark 7
3DMark 11
Cinebench R11.5
X264HD
Truecrypt 7.1
Unigine Heaven 4.0
Metro 2033
Batman Arkham City
Sniper Elite V2

PCmark 7

First up is PCMark and, well I was not surprised to see the result as clock speed is king here apparently showing some very fine results especially leaping ahead in the computation tests.

3DMark 11

Switching over to 3DMark with the GTX 780 in place you see that all chips being PCIe 3.0 the limitation really is in the GPU side as they all score quite close to each other.

SuperPi

This tests single threaded performance and clock efficiency by processing digits of the number pi. Previous gen showed some decent results as efficiency climbed up with the new architecture and now with the higher clock speed we see even better performance.

Wprime

WPrime is similar to Superpi, but is multi core aware and you can set the core count. We used 8 cores to take advantage of the 4770K’s HyperThreading ability. (12 for 4960X) Here you can see the frequency gain is definitely verified as a performance boost as Wprime sees some definite quicker calculation times with a big jump in the long 1024 test.

Cinebench R11.5

“CINEBENCH is a real-world test suite that assesses your computer’s performance capabilities. MAXON CINEBENCH is based on MAXON’s award-winning animation software, CINEMA 4D, which is used extensively by studios and production houses worldwide for 3D content creation. MAXON software has been used in blockbuster movies such as Spider-Man, Star Wars, The Chronicles of Narnia and many more. MAXON CINEBENCH runs several tests on your computer to measure the performance of the main processor and the graphics card under real world circumstances. The benchmark application makes use of up to 16 CPUs or CPU cores and is available for Windows (32-bit and 64-Bit) and Macintosh (PPC and Intel-based). The resulting values among different operating systems are 100% comparable and therefore very useful with regard to purchasing decision-making. It can also be used as a marketing tool for hardware vendors or simply to compare hardware among colleagues or friends.”

Here you can see where the high-end rendering work can be done. The 4790K cannot beat up the 4960X for obvious reasons but with the increased clock speed it is easy to see why it lays a beating to the 4770K in comparison.

X264HD

Transcoding has become more popular now and the latest Sandy Bridge and on processors added support for AVX instruction for faster video transcoding. Just as we have seen major progressions in performance here as the faster speed allows even better performance but in terms of this the higher core/thread count of the 4960X still beats out the Haswell variants but for the price it’s still much more favorable to get a Haswell for this kind of usage.

Truecrypt 7.1

TrueCrypt is a real world application that gives a good indication of the true performance of our latest processor. The AES capability helps push the performance higher in the encryption performance here but once again the higher core count still wins but not by a huge enough margin to realistically recommend the CPU that costs 3X as much. the 4790K definitely sees the fruits of the speed bump getting a very nice jump in performance here.

Unigine Heaven 4.

Unigine Heaven is a benchmark program based on Unigine Corp’s latest engine, Unigine. The engine features DirectX 11, Hardware tessellation, DirectCompute, and Shader Model 5.0. All of these new technologies combined with the ability to run each card through the same exact test means this benchmark should be in our arsenal for a long time.

Unigine Heaven on a discrete GTX 780 sees very similar performance as the 3.0 PCIe bus simply moves more than enough data at great efficiency that there is really no major advantage from extra threads here. The frequency does help a little bit but the margin is small.

Metro 2033

Once again, Metro 2033 shows that discrete GPU performance is relatively unaffected, simply due to the fact that there is already so much unused bandwidth available.

Batman Arkham City

Discrete GPU results once again hover with not much gain but Batman definitely shows a bit more favor to the Haswell based CPUs.

Sniper Elite V2

The Sniper Elite V2 results are not surprising as I have seen before that the game runs at such a high framerate it responds to speed bumps on the CPU side a bit more than other heavier loading titles.

Our Final Thoughts

The New Devils Canyon CPU is a very nice upgrade to the Intel stable. Bringing a default speed of 4.0GHz to the table and up to 4.4GHz means the need to overclock for a gamer is even further negated than we have seen before.

The processor feels alot more stable and gamer friendly with the much lower temps thanks to the addition of the new TIM in place which once again I feel was a major good move by Intel to correct a very big issue. This allows even air-cooled gamers to now have an even more silent system while still offering blazingly fast performance. The other side of the coin on this point is that on extreme cooled efforts these chips seem to be less responsive and a bit less capable but I will wait for some BIOS revisions and more OC related boards to fully pass judgement on this specific issue.

The new Z97 chipset doesn’t bring a lot to the table for your average gamer as it offers a few new technologies for high performance storage but I do question how much of that will truly be adopted by mass amounts of gamers since only recently as prices have dropped have I seen mass adoption of larger SSD drives by most gaming users.

Another noteworthy value to this new platform is the power savings we have observed. I will examine this further as I test more boards but if this ends up being the trend I see no reason why anyone would not get one of these chips for a 24/7 build.

The price being the same as the outgoing model makes this an easy decision for anyone looking to build a new high-end gaming rig or even a productivity rig on a budget.

Overclocking I7 4770K +30% to FPS

Hello everyone, today we are overclocking 4 core, eight thread i7 4770K.

I7 4770K will be overclocked on ASUS Z87-PRO motherboard. This overclocking is identical for all Haswell processors and intel processors in general.

We will overclock the Intel processor in order to increase the minimum and average FPS in games, as well as performance in professional programs.

We will not conquer overclocking records, it will be overclocking 4770K which every owner of this processor and budget motherboard can afford. But the boxed cooler will have to be replaced with something more serious. this processor without scalping heats up very much. But more on that later.

Let’s move on to the test configuration …

Test configuration for overclocking 4770K

Processor : I7 4770K generation Haswell, 4 cores, 8 threads, at a frequency of up to 3.9 GHz in turbo boost. TDP 84W.
Motherboard : Asus Z87-PRO. Socket 1150 LGA.
Cooling system : beQuiet Dark Rock 4 with heatsink up to 200W.
RAM : Corsair VENGEANCE. Kit for 16 Gb with four sticks of 4 at the factory frequency of 1600 MHz in dual-channel mode.
Video card from AMD : MSI RX5700XT Gaming. I deliberately took a powerful card so that we would not have an emphasis on the video card. And we were able to see the result of overclocking the processor at maximum settings.
SSD : Kingston A400 240 Gb. For Windows 10 operating system.
HDD : Western Digital Blue 1TB with 7200rpm spindle speed and 64MB cache for games.
Power supply : ZALMAN ZM700-SV 700W.

Instructions and recommendations before overclocking Haswell

Frequencies and voltages that were stabilized on the test stand, not the fact that they will work just as stably for you. And you may have to adjust the frequencies and voltages for your motherboard and processor, even if they are identical.
Make sure your cooler is capable of dissipating at least 200 watts of heat.
Be prepared for the fact that the system will behave unstable, crash into a blue screen, freeze, flicker and slow down at the time of entering the system. This is normal during acceleration.
Remember that you do this at your own peril and risk, I will give conditionally safe values of voltages and frequencies, above which it is advisable not to go.
Frame loss during ShadowPlay recording averages 3 frames. I also do not claim the accuracy of the FPS readings. But you will see the dynamics of personnel changes clearly.

System baseline in BIOS (out of the box)

If you have not changed anything yet, then by default we will have the following values:

Processor frequency (CPU) : 3.5GHz with turbo boost up to 3.9GHz.
Random access memory (RAM) : 1333MHz.

RAM 1333MHz, it is with this frequency that our memory is loaded into the BIOS by default. Despite the fact that the memory has 1600MHz on the passport, it will operate at a frequency of 1333Mhz.

We will test at the maximum graphics settings. It was for this purpose that a powerful video card was taken. If you are interested in the performance of overclocked I7 4770k with more affordable cards, I have videos on my channel with RX580 at 8GB and GTX 1660 Super.

Tests will be conducted in FULL HD resolution, at maximum graphics presets. Let’s see what such a configuration is capable of out of the box.

Tests I7 4770K in default state (before overclocking)

Cinebench R20 (default bios settings)

Cinebench R20

Results:

Single core (sigle core): 335
Multi-threaded: 335

Corona 1.3 Benchmark (default bios settings)

Corona 1.3 Benchmark

Rendering a scene in 4 minutes 55 seconds.

Aida 64 Cash & Memory Benchmark (default bios settings)

Memory test in AIDA 64

Write speed to RAM is 20881 MB/s, read speed is 19697 MB/s. Let me remind you that this is at a frequency of 1333 MHz. Timings 9-9-9-24 CR1.

The Witcher: Wild Hunt (default bios settings)

Minimum and average FPS in The Witcher: Wild Hunt (default)

Maximum graphics settings:

1% Low — 64 fps
AVG — 98 fps

Shadow Of The Tomb Rider (default bios settings)

Minimum and average FPS in Shadow Of The Tomb Rider (default)

Maximum settings graphics:

1% Low — 58 fps
AVG — 87 fps

Battlefield V (default bios settings)

Minimum and average FPS in Battlefield V (default)

Maximum graphics settings:

1% low — 58 fps
AVG — 99 fps

Conclusions

Overall, not bad. But let’s make it even better!

Overclocking I7 4770K

Do not forget that the power profile — High performance is enabled in Windows, which can be changed in the Control Panel in the «Power Options» section.

We go into the BIOS (Del or F2) ?

Let’s start with overclocking the processor.

Our goal is 4400MHz, for this we need to increase the frequency multiplier and select the voltage.

Why this particular frequency? This frequency is optimal in terms of maximum performance increase and the ability to keep the processor at the declared temperatures.

Even for this frequency, we need an almost top-end cooler, only it can keep the declared 71 degrees. Further in the games, you will see how Dark Rock 4 barely copes with this task. And this is just a moment before the company’s top cooler with TDP 200W.

Anything higher will require top-end cooling systems from you, and a frequency of 4550 and higher is already water-cooled. If the processor is scalped, then perhaps everything is not so sad. Throtling for Haswell family processors turns on at a temperature of 90 degrees.

And some people think that FX at 4.7GHz with its 60 degrees oven … They definitely did not drive processors from intel.

One more point, Haswell processors have a very large spread in overclocking potential, even within one batch. Those. some instances can take 4600MHz and some will not be able to stable and 4200MHz. But most processors take 4400 MHz without any problems only at different voltages.

My L316C873 processor batch.

CPU overclocking

On Asus motherboards, in the AI Tweaker section, switch the Ai Overclock Tuner parameter to the Manual position (by default, the BIOS offers Auto mode).

We need to change the CPU frequency multiplier in the same AI TWEAKER section. We are looking for the CPU Ration parameter, switch to the Sync All Cores position.

As a coefficient, I set 44, for me it corresponds to 4400MHz. Your coefficients will probably work differently, and the values will be different. I have not overclocked the processor on other motherboards. Be careful.

We select the voltage for the processor

We are looking for the CPU Core Voltage in the same section.

In my case, I have achieved stable operation of the processor at 4400 MHz with a voltage of 1.185 volts.

In this configuration, the processor passes the AIDA stress test and works stably in games and editing programs.

When selecting the voltage, you need to find the minimum stable voltage at which the processor remains stable under load, lowering or increasing the voltage by one step.

For Haswell processors, I would not set the voltage above 1.250 thousandths of a volt. This may no longer be safe, and will require a serious cooling system.

How to choose voltage?

I recommend setting it to 1.2 volts and lowering it until you get stable operation. If 1.2 is not enough from the start, put 1. 250 and start lowering the voltage. We set this value so that it is guaranteed to work. If 1.250 is not enough, then the frequency of 4.4Ghz will most likely be unbearable for you, and start rolling back to lower frequencies.

At a lower frequency, everything is the same. The algorithm is understandable.

But try to find a frequency where the i7 4770K won’t require more than 1.2 volts. Even if it’s less than 4400MHz.

When overclocking Intel processors, there is such an indicator as the Ring bus. We will not drive it, since it will not be a bottleneck in Haswell processors.

My result:

Advanced Mode / Ai Overclock Tuner / ManualAdvanced Mode / CPU CORE RATION / Sync All Cores / 44Advanced Mode / CPU Core Voltage Override / 1.185

Overclocking the frequency of RAM (RAM overclocking)

Let’s move on to overclocking the RAM.

We will overclock the memory up to 2133MHz. You don’t have to stop at this frequency and go for 2300 or higher if your whale allows it. I didn’t touch the timings. Before overclocking, the timings are 9-9-9-24.

The same ADVANCED MODE / AI TWEAKER / DRAM Frequency — set DDR3-2133MHz.

Out of the box, the memory operates at 1.5 volts. Stable memory operation was achieved at 1.6 volts.

The DRAM Voltage parameter of the AI TWEAKER subsection is responsible for the voltage.

Timings after acceleration — 11-13-13-35.

Test the stability of the work in the AIDA stress test, or in games for 5-10 minutes.

My results: Overclocking RAM. ADVANCED MODE / AI TWEAKER / DRAM FrequencyDRAM Voltage

Test stability in AIDA 64 memory stress test or in games for 5-10 minutes.

Overclocking result I7 4770K

Cinebench R20

Cinebench R20 result

Results:

Single core (sigle core): 448 points
Multi-thread: 2083 points

Single-threaded processor improved7 in 24% by 25.18%.

Corona 1.3 Benchmark

Result in Corona 1. 3 Benchmark

Scene rendering sped up by 29.54%.

Aida 64 Cash & Memory Benchmark

Result in AIDA 64

RAM write speed is 31832 MB/s, read speed is 33244 MB/s.

This is already at a memory frequency of 2133 MHz, with timings of 11-13-13-35. Before overclocking the RAM, the timings were 9-9-9-24. The results are excellent. Write speed increased by 59.42%, read speed by 59.20%.

The Witcher: Wild Hunt

Overclocked i7 4770k in The Witcher: Wild Hunt

Maximum graphics settings:

1% Low — 83 fps
AVG — 121 fps.

An excellent result of an increase in the minimum FPS by 29.68%, the average by 23.46%.

Shadow Of The Tomb Rider

Overclocked i7 4770k in Shadow Of The Tomb Rider

Maximum graphics settings:

1% low — 86 fps
AVG — 115 fps

, on average 32.18%.

Battlefield V

i7 4770K overclocked result in Battlefield V

Maximum graphics settings:

1% low — 61 fps
AVG — 119 fps

Summing up Haswell 9 overclocking0015

The average increase was almost 30%. Which is an excellent result. At the same time, it took no more than 2 hours to overclock the 4770K. The only thing that will need to be updated is the processor cooling system.

Watch other videos on the i7 4770K processor:

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Compare Intel Core i7 4790T and Intel Core i7 4790K

Intel Core i7 4790T

2.7 GHz | 4 cores | LGA 1150

Intel Core i7 4790K

4GHz | 4 nuclei

benchmark

General result

Based on 15 tests:

Intel Core i7 4790k faster than

Intel Core i7 4790t

100,0003

4790k

5 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 2 -core) 9GHz

Unlocked multiplier makes it easier to overclock the processor

High critical temperature (74.