FrostyTech.com Heatsink Reviews and Analysis
      
TOP 5 Heat Sinks     TOP 5 Low Profile Heat Sinks     TOP 5 Liquid Coolers    
 Reviews + Articless     News     HSF Mfg's Index     Advanced Search    

Guide To Lapping your CPU
Guide To Lapping your CPU
  0%   
Abstract: The new Copper-Top Celeron! No, just our test Celeron after we tweaked it a wee bit. The results of our tests surprised even us... but the outcome didn't ;-)

 Company link  Category  Published  Author 
FrostyTech   Cooling / Heatsinks   Dec 30, 1999   Max Page  
Home > Reviews > Page Title: Get ready to Tweak that CPU...

Tweak your CPU!

To tweak our test Celeron we had to flatten and smooth the surface of the cpu-plate so it would make better contact with our heat sink. Sanding (or lapping) that plate had the benefit of not only smoothing the surface, but also polishing it. Polishing would help to ensures that when the heat sink is attached, the thin layer of thermal grease on it would easily fill any microscopic voids on either surface, and also make better contact all around.


Here is a list of what we used to do this. Keep in mind that if you try this, you can easily destroy your processor, and Intel's warrenties don't cover this kind of 'use'.

  • Absolutely flat surface (thick glass)
  • 600 grit wet/dry sandpaper
  • Anti-static foam
  • Machine oil
  • Water


This sandpaper is excellent for smoothing
out tiny imperfections in a CPU-plate

We found a surface that was smooth and absolutely flat - since thick glass (like a table top, or window) generally is, we used that. A piece of 600 grit silicon carbide sandpaper was placed rough-side up on the glass and a few drops of oil driped on. The processor was fliped over so that the CPU-plate was resting on the sandpaper and a small piece of anti-static foam placed overtop of the pins to pretect them. Pressing down gently, the processor was moved in small circles, changing direction every few seconds, and turned around every once in a while. This hopefully stopped any one side from being ground off more than another in the event pressure was not equally distributed to the back. A few drops of oil were added when things got dry.

It took us 15-20 minutes before our test Celeron was ready. We took an extra step, burnishing, then polishing the CPU-plate. As the sandpaper is worn away, it should be fairly smooth by the end, and shine up the CPU-plate nicely however.

BEFORE GRINDING

This picture shows you the minute differences in hight that existed on our Celeron. Areas in red measured highest, areas in orange were middleground, and areas in green were low-spots. The difference between the highest point and the lowest was 0.0024 inches.

AFTER GRINDING

Our test Celeron was measured once more to determine what impact the grinding actually had on the flatness of the CPU-plate. The center area (in red) where the processor die is located is the highest spot.The outside tips were the lowest spots, and the majority of the CPU-plate is flat to within 0.0005 inches.

Choosing the right heat sink

After all that effort we needed to use the right type of heat sink. As we mentioned most OEM heat sinks we looked at tended to bow out in the center slightly. The majority of today's heat sinks are extruded - molten aluminum is pushed through large steel dies in somewhat the same fashion as noodles are made. Anyhow, when the aluminum comes out of the die it is cooled and internal stresses develop as the metal solidifies. That sounds like a really complicated 10 page explanation, and it is ;-) All you need to know is those internal stresses warp and distort the heat sink a small degree. If you have a good steel ruler or something quite straight, hold its edge to the back of a heat sink, in front of a lightsource and see what I mean. You will most probably see a splinter of light shine through. If you don't then you've got a good heat sink and it is quite flat!

That said, we dicided to use the Cooler Master picuted above. We tested three we had, and two were out of wack, while this one was just about dead on for flatness - so flatness can vary heat sink to heat sink. We removed the thermal pad and quickly sanded the bottom (in the same way as with the processor) to ensure the best possible surface for our test anyhow.

Testing:

We took our tweaked Celeron and applied a small dab of Z9-thermal grease (silicon based), and did the same to the heat sink. Using a piece of old rubber inner-tube to spread the grease around till it was one uniform layer. I find rubber does a better job of this then using a finger. The Celeron went into the PPGA-370 socket and the heat sink went onto the CPU with some even pressure and a twisting motion to dislodge any excess thermal compound. One thermistor was placed in between the fins of the heat sink overtop of the center of the CPU, and another between the heatsink and the side of the CPU. The average of both measurements was used.

We did three types of tests, before the Celeron was modified and then after. The first test was normal usage, and the second a simulated CPU fan failure for 20 minutes and the third overclocking to 550 MHz - stability was not tested however. Here are the results we got.

(in Celcius)

System temp Before tweaking temp After tweaking temp

Normal usage

33

38.5

34.5

Fan failure

33

47

37

OC to 550Mhz

34

46

36

The results speak for themselves. Improving the surface finish and flatness of the CPU-plate (and heat sink), improves the performance of the computer by reducing the temperature the processor runs at. The average improvement we saw was about 18% .

This is how the CPU-plate looks after we 'modified' it. The copper surface is now much smoother, making better contact with the heat sink. It's also flatter then it was, increasing the area in direct contact with the heat sink, when the two are mounted together.

The CPU-plate as Intel ships it - rough, slightly out of wack, and eager for some tweaking! The colour is from the angle it was scaned in at.

Conclusions

The decrease in overall processor operating temperature is significant enough to make this a worthwhile modification for the Celeron. With better heatsinks like an Alpha, and case cooling, the temperature of this Celeron certainly could be brought down even further. While this isn't something for everyone to do, for those looking for that extra edge in performance, smoothing the kinks out of your CPU can help to keep things a lot cooler.

Our test Celeron in its final appearance, with characteristic copper-top look. Improved performance through cooler running temperatures.



 Previous Page °
Heat Sink Review Index  

Table of Contents:

 1:  Guide To Lapping your CPU
 2: — Get ready to Tweak that CPU...

List all FrostyTech heat sinks that Frostytech tested?

Follow Frostytech on FacebookFrostytech News RSS FeedFollow frostytech on Twitter
Resources
° Got Feedback?
° Mk.II Test Platform
° Where To Buy?
° Manufacturer Index
° Industry Dir.
° Cooling Projects

Scythe Ninja 4 SCNH-4000 Heatsink Review

DeepCool Maelstrom 240 Liquid Cooling System Review

DeepCool Gamer Storm Lucifer K2 Heatsink Review

Gelid Antarctica Heatsink Review

Noctua NH-D9L 3U Low Noise Heatsink Review

BeQuiet Shadow Rock LP Heatsink Review
...More Articles >>




Websites you may also like:
PCSTATS

Google Search Frostytech

Time stamped: 7:01PM, 11.24.2017
In Case You Missed it...
°  Scythe's Mugen 5 Rev. B

°  Noctua NH-L12S Low-Profile cooler

°  Corsair's ML120 Pro RGB fans pair

°  Scythe Mugen 5 Rev B SCMG-5100 Heatsink Review

°  Samsung to continue adopting heat pipes for smartphones in 2018

°  be quiet! Dark Base 700 Case Review




FrostyTech.com
Since June 1999


Find a Heatsink / RSS Feeds
Latest Heatsink Reviews
Top 5 Heatsinks Tested
News RSS Feed
Reviews RSS Feed


Social Media
Facebook
Twitter
Pinterest


FrostyTech.com Info
Feedback
Contact Us / Heatsink Submissions
Submit News
Legal
Suite 66
© Copyright 1999-2017 www.frostytech.com All Rights Reserved. Privacy policy and Terms of Use
Images © FrostyTech.com and may not be reproduced without express written permission.
Current students and faculty of accredited Universities may use Frostytech images in research papers and thesis, provided each image is attributed.