tool for lapping the IHS and Die

tool for lapping the IHS and Die

The smarter NUDEcnc company will sound to you, yes, it is the one that through Kickstarter made possible a direct water block to die with the peculiarity that its anchorage was the same as that of the Intel LGA 1151 processor.

But this block, although innovative as such and with several new versions on the way, is no longer enough for many users who intend to push their new generation Intel processors to the limit. So what can we do about it? NUDEcnc has the solution.

Nlap IHS and Nlap Die: the new tools to lap your processor

As we well know, reducing the distance between a hot object and its cooling solution improves the temperature of the first one. IHS and especially Intel die have periodically increased their thickness for various reasons, which makes them more thermally resistant to heat transfer.

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Therefore, reducing thickness is synonymous with better heat transfer to the heatsink or block and this is where NUDEcnc comes in, as they have created two tools to be able to measure lapping accurately.

The lapping technique is simply to sand the IHS or the die of the processor to either correct imperfections or reduce the number of layers it carries for different reasons. In the i9-9900Ks, for example, Intel increased the thickness of the die to achieve higher wafer yields because previous dies with Coffee Lake thicknesses did nothing but give out faulty chips.

Accuracy is the key to not having a dislike

As many may have thought, lapping is quite a delicate technique, since it requires many processors to break the weld between the die and the IHS if we intend to lap the first one. This is going to leave us some insuperable height differences if we do not eat the IHS because of its sealing area.

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For this reason, measuring to the tenth is essential to calculate the height differences and thus not be aggressive. The process to achieve this is simple (assuming that each tool is suitable for either the CPU or the IHS), simply place the processor or IHS in the tool and start linking them.

The tools bring a series of holes and grooves that will mark the initial height and after the first few passes we will be able to see how much we have gained from the metal. The improvements after 0.2 mm of lapping are up to 16 degrees, where obviously the risk of such a reduction is very high, since we could be left with an unusable CPU.

In any case, eating 0.15mm is already 12 degrees of improvement compared to Intel's stock STIM configuration and 4 degrees against a delid with conductonaut, so that's really interesting data.

Currently they are only available from their own website for purchase at a price of 29 euros for both tools, or 18 euros for each separately.

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