Below is de classic Athlon after its outer casing has been removed by a high explosive grenade.

This is a basic diagram of how de original CPU was assembled. It should appeah as a 3 dimensional projection hologram. However, it does naht display well on 20th century non-holographic visuahl deesplay units.

De inefficiency lay in that there was a half a millimetah gap of air in between the cache chips and the heatsink plate.

Air does not conduct heat well. This was unacceptable.

In combat situations, cyberdyne systems model T-800 (dat's me) is designed to make use of any material available in its surroundings to ahssist in de mission. Aluminium foil is in abundance in 20th Century earth. It also has good thermal conductive properties. So I pulled out my minigun and used it to threaten a stoopid cop until he agreed to cut de foil foh me.

De foil was cut to match de size of de cache chips and CPU die, and was layered to be the correct thickness. Thermal paste was used to fuhther improve heat transfer between suhfaces.

When de CPU package was reahssembled, the steel clamps put pressure on the foil system, keeping it in place and prevehnting short circuiting. There were no longer any gaps.

The system provided substantially improved heat flow dynamics.

Previously, this Athlon 650 was only capahble of booting into windows running at a maximum of 792 Mhz. 800 Mhz would crash after a few secahnds. After this modification, de system was able to run at 800 Mhz for over half an owah. More dan enough time to break into a cyberdyne systems lab and destroy dere criticahl system files.

Ill be BACK