Delidding The AMD Ryzen 5 2400: Delidding The APU

To show if delidding the Ryzen 2000 series APUs yielded much benefit in terms of thermal performance and overclocking headroom, I selected the best overclocking chip for delidding from a CPU core frequency standpoint out of a pool of four APUs. The best one was our retail Ryzen 5 2400G chip, which managed 4.1 GHz with 1.387 volts applied in the BIOS (on our MSI B350I Pro AC motherboard).

Our Ryzen 2000 Series APU Overclocking Guide with results can be found here: link

For delidding, we purchased the Der8auer Delid Die Mate 2 delidding tool, and the Delid Die Mate 2 AMD Kit. This to our knowledge is the safest method to ensure the APU is not damaged during the delidding process and the Delid Die Mate 2 is manufactured from good quality anodized aluminum; much sturdier than a 3D printed acrylic one which relies on the quality of materials used to print. Ensuring the delidding process has minimal risks means a safe delid without damage which is ultimately is much cheaper than a dead piece of silicon, one which cannot be RMA’d due to voiding the warranty outright. The actual procedure for delidding the Ryzen 5 2400G ($169) is exactly identical to the Ryzen 3 2200G ($99) in every single way.

Step 1 – Ensuring the Tools Are Ready for the Job


Standard bolt on the left with AMD Kit on the right

The process in removing the IHS from the 2400G die is very simple (using the right tools), although it can be daunting to first timers and non-experienced users. The first step is ensuring the tools contents are correct and there is no present damage to the components; doing this is essential as any imperfections or cracks in the metal could cause the tool to break in operation and could destroy the chip.

Step 2 – Putting the Chip in the Tool

Making sure the chip is placed into the tool the correct way allows the tool can do its job properly; putting a case fan the wrong way around in a chassis wouldn’t give the right thermal dynamics to effectively cool a system, doing the same with a processor in a delidding tool wouldn’t be right either.

The way to make sure the chip is in the correct way is to line up the triangle indicator on the corner of the processor itself with the triangle indicator on the tool, the same way you would when installing a processor into a motherboard.

Step 3 – Assembling the Die Mate 2 with the AMD Kit Correctly

With the Ryzen 3 2200G ($99) or Ryzen 5 2400G ($169) correctly placed in the Delid Die Mate 2 tool, the next step is slotting in the red acrylic adapter at the open end of the tool; the U-shaped groove needs to be facing upwards as this is where the threaded bolt sits to protect it from touching and potentially damaging the pins on the chip.

Step 4 – Slotting in The Delidder

The Der8auer Delid Die Mate 2 as standard comes in three main components, the part that holds the chip, the part that removes the IHS from the chip, and an adjustable clamp to hold the chip in place. The clamp isn’t used when delidding the AMD Ryzen 2000 series APUs due to the chip using pins. Lining up the grooves in the black block of aluminum with that of the other part of the tool is essential and for ease of use, it can only be placed in one particular way.

Step 5 – Inserting the Threaded Bolt from the Delid Die Mate 2 AMD Kit

This is where the included acrylic adapter comes to use to prevent the bolt from hitting any pins and thus avoiding damage. The M6 x 60 mm threaded bolt screw included in the AMD kit is paramount and using the regular one supplied with the tool itself wouldn’t be adequate to delid a Ryzen 2000 series APU. The aim is to secure the bolt into the correctly sized slot on the Delid Die Mate 2 tool so that it’s ready to be used.

Step 6 – The Nitty Gritty: Applying Force and Twisting the Nut

The Delid Die Mate 2 comes included with an Allen key which is required to screw the bolt with enough pressure to ‘pop’ the heat sink off safely. Both the standard supplied bolt and the one with the AMD kit share the same M6 sizing making the key usable on both threaded screws. With the bolt in place and the Ryzen 5 2400G ($169) safely installed into the tool, it’s a case of simply twisting the Allen key until the loud popping sound is heard.

Do not be alarmed however, the crunch or popping sound is rather loud and resembles the same kind of crunch when installing a new Intel processor into a new motherboard, only much, much louder.

Step 7 – Safely Removing the Screw from The Tool

Once the ‘hard’ part has been completed, removing the threaded screw safely is as important as it was installing. When removing the screw, it’s a good idea to angle the screw as in the image and ensure your have two hands available when removing the screw. The best way to achieve this is loosen the bolt by using the Allen key until it’s loose enough to screw by hands. The consequence of losing grip on the bolt while removing it could result in pin damage don’t want the end of the screw to scrape or even touch the pins.

Step 8 – Checking the Delid Was Successful

If all the steps have been followed correctly, the result should be a clear one, a freshly delidded Ryzen 3 2200G or Ryzen 5 2400G APU. With the aluminum Die Mate 2 block removed and the adapter, the chip itself should be loose from the IHS and should be ambulatory.

Now that the Ryzen 5 2400G has been successfully delidded without any damage, it’s now time to prepare it for use on the test bench to see what/if there are any thermal benefits, as well as available overclocking headroom as a result of this process.

Delidding The Ryzen 2400G: The Methods and Risks Associated Delidding The AMD Ryzen 5 2400G: Preparing The APU
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  • JoeyJoJo123 - Thursday, May 10, 2018 - link

    >OUT
    >OF
    >BOX
    >THERMALS
    Reply
  • DanNeely - Thursday, May 10, 2018 - link

    A recent article on delidding Intel CPUs on [H]ardOCP suggested using clear nail polish to paint over SMD components to protect them against stray TIM. Reply
  • gavbon - Thursday, May 10, 2018 - link

    Yeah that does work, it's the exact same method as der8auer uses, but I wouldn't want to test the theory out of purposely trying to short SMDs with liquid metal; that's the main issue other than damaging the die. Reply
  • kupfernigk - Saturday, May 19, 2018 - link

    Given the cost of the CPU it's probably better to buy actual potting compound from somewhere like Element 14. This will also provide moisture protection. Reply
  • bill.rookard - Thursday, May 10, 2018 - link

    What I would like to see is a kit to delid, get some indium solder, some spring loaded clamps, and a very precise baking temp... Solder that sucker on. Reply
  • gavbon - Thursday, May 10, 2018 - link

    Would be interesting to say the least! Reply
  • edzieba - Thursday, May 10, 2018 - link

    Probably a very bad idea: http://overclocking.guide/the-truth-about-cpu-sold... Reply
  • rocky12345 - Thursday, May 10, 2018 - link

    Interesting read for sure from the link you provided. I am not sure if it is good or bad but all I know is my Sandy Bridge 2600K@5.1Ghz (soldered) has been running at this speed and has had the same temps since day one of me getting it way back then. I am not sure if there are micro cracks in the solder or not but it performs the same today as it did in 2012. Then again my temps 98% of the time are always at or around 45-63c under full load and idle temps 21-23c Reply
  • rocky12345 - Thursday, May 10, 2018 - link

    I wanted to add that I also do not spend very time doing stress tests that bake the CPU to the point of cooking itself. I spend most of my time just messing about in Windows and Gaming which is far easier on the whole system than running stress tests 24/7 like some people tend to do. Reply
  • DanNeely - Thursday, May 10, 2018 - link

    That was liquid N2 testing that he was cracking them so fast under, air/water cooled will have much smaller thermal gradients and thus much slower rates of crack formation. Reply

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