Overclocking Intel's Core i9-7900X CPU Up to 5.8 GHz (2024)

Page 1 of 8:

Preparing To Overclock: Hardware and Software

Page 1: Preparing To Overclock: Hardware and Software
Page 2: Delidding An Intel Core i9 CPU
Page 3: Installing The Direct Die Frame
Page 4: Temperatures: Stock Vs. Delidded Vs. Direct Die Cooling
Page 5: Overclocking: Frequency, Power, And Temperature Scaling
Page 6: Optimized Overclocking And Load-Line Calibration
Page 7: The Main Event: Overclocking With LN2
Page 8: Conclusion

Preparing To Overclock: Hardware and Software

Intel's Core i9-7900X is an incredibly fast 10-core CPU. For the privilege of owning one, expect to pay a cool grand. However, Intel's decision to slather thermal paste between the processor's die and heat spreader really put a cap on the highest frequencies most overclockers can coax from it right out of the box.

But what if you're willing to get a little (or a lot) more adventurous? We de-lidded our sample, cleaned it up really well, replaced Intel's thermal paste with a couple of third-party alternatives, and collected plenty of data to show how Core i9-7900X's overclocking headroom improves as it's cooled more effectively. The culmination of our experiments was a -7900X under the effects of liquid nitrogen, running at a screaming 5.8 GHz, yet stable enough to complete a multi-core run of Cinebench.

Prepping Our Motherboard For Extreme Overclocking

By default, most motherboards aren't equipped to handle that kind of extreme testing. So, we had to do a bit of prep work and perform a couple of modifications first. Accomplished overclockers don't just make BIOS adjustments, after all. You also have to be handy with a soldering iron, drill, razor blade, and fingernail polish.

The MSI X299 Xpower Gaming AC we used is built for overclocking, so it served as the perfect platform to support our endeavor. Soldering a few wires to the board at various voltage detection points allowed us to monitor critical levels with a multimeter during our tests. While it's all well and good to dial in specific voltages through the motherboard firmware, operating at this level calls for precision only possible through verification.

Overclocking Intel's Core i9-7900X CPU Up to 5.8 GHz (1)

BIOS: Expert Mode

We used MSI's BIOS version E7A91IMS.150, which was the latest one available when we started testing. It's the only firmware we used from start to finish, so feel free to track that one down if you want to retrace our steps. Of course, if you have an X299 board from a different manufacturer, the settings and terminology we use should still give you a good idea of what to adjust. The same principles apply from one platform to another, even if the nomenclature varies.

To access Expert mode on MSI's X299 Xpower Gaming AC, press F7 on the BIOS welcome screen.

Overclocking Intel's Core i9-7900X CPU Up to 5.8 GHz (2)

The following settings come from the OC menu:

Stay On the Cutting Edge: Get the Tom's Hardware Newsletter

Get Tom's Hardware's best news and in-depth reviews, straight to your inbox.

Extreme OC Setup: This toggle allows you to deactivate energy-saving options, certain protection features, and functionality that has no bearing on overclocking, such as the audio controller. This option isn't used for our ambient cooling tests, but it's mandatory for benchmarking under liquid nitrogen.
CPU Ratio Apply Mode: The [All Core] setting ensures that all cores have the same multiplier and operating frequency.
CPU Ratio: Set to 44 and multiplied by the 100 MHz CPU Base Clock, we get an operating frequency of 4400 MHz. The clock rate can then be adjusted via software running under Windows.
CPU Ratio Offset: In order to limit frequency variation during our most demanding tests, we applied an offset of [-4]. This constrains throttling to four 100 MHz bins during benchmarks that utilize AVX instructions, all the while improving stability.
Ring Ratio: A coefficient of [34] sets the ring bus to 3400 MHz.
EIST & Intel Turbo Boost: These settings default to [Disabled] when we modify the previous parameters. Since we are going after a static frequency, and don't want the clock rate to bounce around, we leave both features deactivated.
CPU Base Clock: We used a BCLK of 100 MHz to keep things simple for our frequency calculations. Later, we'll modify this from the operating system to fine-tune our overclock.

Overclocking Intel's Core i9-7900X CPU Up to 5.8 GHz (3)

DRAM Setting: With fast G.Skill TridentZ modules on-hand, we're able to use the memory's XMP profile for reproducible results. These 8GB sticks operate at 4000 MT/s with 18-19-19-39 timings.
DigitALL Power: This is a very important sub-menu on the X299 platform, and the settings we used are shown below:

Overclocking Intel's Core i9-7900X CPU Up to 5.8 GHz (4)

Buried among all of those other options, this is one of the BIOS' most important menus. As you may know already, Core i9-7900X's power consumption ramps up quickly when it's overclocked. Without any intervention on our part, the CPU's frequency throttles back in order to keep from exceeding defined power and thermal limits.

The worst part of this is that you may not even realize what is happening. You'll see the Adjusted CPU Frequency right where it should be, but performance won't correspond. What good is it to display high clock rates if they can't be sustained? We won't tease you like that. When we say the CPU hit 4800 MHz, rest assured that we took the time to validate its stability.

VR 12VIN OCP Expander: Increasing this value pushes the over-current limit higher. At too low of a level, maximum current is choked off and performance suffers. Moving it up to a maximum value of [20A] gives the processor more headroom when it's needed. Note that other manufacturers expose options as high as 180A. Following in our footsteps puts additional strain on your power supply, so make sure your PSU is up to the challenge first.
CPU Loadline Calibration Control: LLC is also an important parameter that we'll cover in more depth on the following pages. The ideal setting is [Mode 5].
CPU Over/Under Voltage Protection: OVP and UVP protect the system from over- and under-voltage conditions. Our primary interest is stability, and higher values offer more headroom.
CPU Over Current Protection: OCP protects the system from over-current conditions; the [Enhanced] option allows us to push the platform further before it forcibly intervenes.
CPU Switching Frequency: This is the frequency at which the voltage supply stages operate. Increasing it offers greater stability, but causes temperatures to rise. If your VRMs have a tendency to run hot, try setting this parameter to its minimum value and see if the system still runs stably.
CPU VRM Over Temperature Protection: The voltage supply stages on X299 motherboards have a tough job to perform, so ensure that you're using a well-ventilated case and plenty of airflow. We did not set this option to its maximum value. Instead, we went with a number that'd avoid damaging the motherboard. A temperature of [110°C] seemed high enough for our tastes.

If you put a fan on the supply stage, you can regulate its speed as a function of temperature. This also works for other fans and temperatures. Simply choose the temperature you're interested in (MOS, in the image below), select the name of the channel with a fan attached (CPU1, in our example), and place the colored points for each thermal range at the desired fan speed.

Overclocking Intel's Core i9-7900X CPU Up to 5.8 GHz (5)

Press the [F] key to set all fans to 100%.

Of course, we'll also need to make adjustments to various voltages. Remember: while overclocking isn't particularly dangerous when you're careful, it's important to be reasonable. Abusing these settings won't get you closer to your objective.

Overclocking Intel's Core i9-7900X CPU Up to 5.8 GHz (6)

VCCIN Voltage: This is the primary voltage responsible for supplying other parts of the processor. VCCIN feeds the Vcore, Vring, Vsa, Vio, and so on. Therefore, it's important to set this option higher than the others. Generally, we advise increasing it by 500 to 600mV. As you might imagine, a mismanaged VCCIN can have significant consequences.
CPU Core Voltage: This is the voltage applied to each core, and it's the main setting used for CPU overclocking.
CPU Ring Voltage: A higher Vring helps us hit higher ring bus frequencies without compromising stability.
CPU Uncore Voltage Offset: Adjusting this parameter helps us achieve stable memory overclocks. Without an offset, our RAM kit wouldn't run at 4000 MT/s. But it had no trouble with a setting of +300mV. The kit fired right up with this option set to [Auto], so it's safe to say an automatic configuration applies at least +300mV. Of course, we want to double-check using a multimeter since automatic settings have a tendency to get aggressive.
CPU SA and IO Voltage: Both options may also help stabilize the memory.
DRAM CH_X/X Voltage: These settings are also used to overclock the RAM, though they can be used to fine-tune each channel's voltage.

The following table should help guide your own overclocking endeavor, per MSI's own recommendations. It indicates the "safe" voltage operating ranges. But don't crank any of these up unless you determine that there's a useful reason to do so.

Swipe to scroll horizontally

Voltage	General	LN2
VCCIN Voltage	Up to 2.1V	Up to 2.6V
CPU Core Voltage	Up to 1.4V	Up to 1.52V
CPU Ring Voltage	Up to 1.4V	Up to 1.4V
CPU Uncore Voltage Offset	Up to +400mV	Up to +400mV
CPU SA Voltage	Up to 1.35V	Up to 1.35V
CPU IO Voltage	Up to 1.35V	Up to 1.35V
CPU PLL Trim Offset	Up to +200mV	Up to +300mV
DRAM Voltage	Up to 1.9V	Up to 2V

MORE:Best CPUs

MORE:

MORE:All CPUs Content

Intel Core i9-7900X

View Deal

Current page:Preparing To Overclock: Hardware and Software

Next Page Delidding An Intel Core i9 CPU

Jean Michel "Wizerty" Tisserand

Jean-Michel "Wizerty" Tisserand is a French extreme overclocker, and former OC world champion. Passionate and curious, he's always into pushing hardware to its limits. Willing to transmit his knowledge, he created the French Overclocking Federation, and writes merciless hardware torture articles!

See more CPUs News

More about cpus

AMD engineer discusses firm's 'Layoff Bug' — infamous Barcelona CPU bug revisited 16 years laterAlleged Ryzen 9 9900X result puts AMD on top as single-threaded CPU champ in Geekbench

Latest

US, China Chip War may continue for decades, says former ASML CEO — Wennick shares insights from selling chipmaking gear to both sides

See more latest►

Most Popular

Alleged Ryzen 9 9900X result puts AMD on top as single-threaded CPU champ in Geekbench

Microsoft’s official guide to switching from a Microsoft Account to a local account in Windows has been reinstated

AMD may unveil next-gen Radeon RX 8000-series GPUs at CES 2025 according to leaker

Tiny $10 Raspberry Pi 5 PCie board brings low-cost, high-speed storage – the end of micro SD is nigh

Key chipmaking tools are missing from China’s new self-made list of semiconductor industry challenges — lithography machines are curiously absent

Chinese GPU maker Moore Threads' MTLink fabric tech challenges Nvidia's NVLink, can now scale to 10,000 GPUs for AI clusters

Google claims new AI training tech is 13 times faster and 10 times more power efficient — DeepMind's new JEST optimizes training data for impressive gains

Ubisoft will add NFTs into Champions Tactics: Grimoria Chronicles

After 41 years Microsoft quietly adds spellchecking and autocorrect to Windows Notepad

2D quantum cooling system reaches temperatures colder than outer space by converting heat into electrical voltage

China's AI model glut is a 'significant waste of resources' due to scarce real-world applications for 100+ LLMs says Baidu CEO