Intel Core i3-12100F Review - 5.2 GHz OC with an Asterisk 105

Intel Core i3-12100F Review - 5.2 GHz OC with an Asterisk

Performance Summary & Performance per Dollar »

Clock Frequencies

The following chart shows how well the processor sustains its clock frequency, and which boost clock speeds are achieved at various thread counts. This test uses a custom-coded application that mimics real-life performance—it is not a stress test like Prime95. Modern processors change their clocking behavior depending on the type of load, which is why we provide three plots with classic floating point math, SSE SIMD code, and the modern AVX vector instructions. Each of the three test runs calculates the same result using the same algorithm, just with a different CPU instruction set.



Overclocking



The Core i3-12100F has its multiplier locked (no "K" suffix). You can technically overclock the base clock (BCLK) to 102.9 MHz, but that will only give you around 3% performance gains at best. Increasing BCLK beyond that limit isn't possible because Intel includes a BCLK counter in their CPU, which will shut off the CPU at 103 MHz and above.

That rule doesn't apply to motherboards that come with an external clock generator. Normally, all Alder Lake CPUs generate BCLK internally, with the 103 MHz limitation active, as mentioned in the previous paragraph. For hardcore overclocking purposes, Intel also included a way to feed an external clock signal to the CPU, bypassing the internal clock generator. Turns out the 103 MHz limit doesn't apply to BCLK provided by an external source.

Unfortunately, this capability is only available on few Z690 motherboards from ASUS, but given the results we're seeing here, I'm quite positive that all motherboard vendors are looking into bringing this capability to their whole lineup, possibly on cheaper B660 motherboards, too. On the other hand, I'm just as sure Intel is looking into methods to block this capability through BIOS updates.

With BCLK overclocking, things are a bit more complicated than with multiplier overclocking. While the multiplier will only affect the CPU's operating frequency, BCLK is also fed into the memory controller, so raising the BCLK will also overclock the memory. It might also affect other things, like PCIe speed, but all motherboards with BCLK overclocking support also support setting these secondary clocks to a fixed value. As an example, in order to keep the memory at the original frequency when overclocking the BCLK by 20%, you would pick a 20% lower memory setting in BIOS. Due to the multipliers not supporting fractions, the values here will often not line up perfectly; in my example, I ran the memory at DDR5-5900 MHz instead of DDR5-6000—a 1.6% difference, it's not a big deal.

A little trick to make your BCLK overclocking progress easier is to first downclock the CPU via the multiplier in BIOS—even non-K CPUs can lower their multiplier, just not increase it. I started with a BCLK of 150 MHz and a multiplier of x10 to boot into Windows with a perfectly safe and stable 1.5 GHz. I then fired up a Prime95 stability test and at the same time slowly increased the multiplier with ThrottleStop until the system crashed. This happened at x35 (5.25 GHz).

You can now fine-tune the overclock by changing the BCLK and playing with the multiplier. You can always only go in full BCLK steps. So BCLK 150 x20 = 3 GHz, and the next step is x21 = 3.15 GHz. If you want 3.1 GHz, you'll have to find a BCLK + multiplier combination that gives you that target while keeping the memory within your targeted range.

After a bit of fiddling, I reached 5.2 GHz completely stable. I increased the CPU voltage a bit for further stability—heat output is low anyway.
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Nov 14th, 2024 11:15 EST change timezone

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