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Transistor aging (sometimes called silicon aging) is the process of silicon transistors developing flaws over time as they are used, degrading performance and reliability, and eventually failing altogether. Despite the name, similar mechanisms may affect transistors made of any kind of semiconductor. Manufacturers compensate for this (as well as manufacturing defects) by running chips at slower speeds than they are initially capable of (underclocking).

The main causes of transistor aging in MOSFETs are electromigration and charge trapping.

Electromigration is the movement of ions caused by momentum from the transfer of electrons in the conductor. This results in degradation of the material, causing intermittent glitches that are very difficult to diagnose, and eventual failure.

Charge trapping is related to time-dependent gate oxide breakdown, and manifests as an increase in resistance and threshold voltage (the voltage needed for the transistor to conduct), and a decrease in drain current. This degrades the chip performance over time, until ultimately the thresholds collapse. Charge trapping occurs in several ways:

• Hot carrier injection (HCI) is where electrons gain enough energy to leak into the oxide, becoming trapped there and possibly damaging it.
• Random telegraph noise (RTN) can also result, where the drain current fluctuates between several discrete levels, and is worsened with increasing temperature.
• Bias temperature instability (BTI) is where charge leaks into the oxide when voltage is applied to the gate, even with no current flowing through the transistor. When the voltage is removed from the gate, the charges gradually dissipate between milliseconds or hours.

Charge trapping was determined by John Szedon and Ting L. Chu to be a viable means of storing digital information, and was developed into the SONOS, MirrorBit, and 3D NAND flash memory technologies (charge trap flash).

• High-temperature operating life
• Reliability (semiconductor)
• Underclocking
• Undervolting
• Raptor Lake § Instability and degradation issue

• Keane, John; Kim, Chris H (25 Apr 2011). "Transistor Aging". IEEE Spectrum. Retrieved 25 Jun 2024.
• Sguigna, Alan (25 Aug 2013). "Silicon Aging and Signal Integrity". ASSET InterTech. Retrieved 25 Jun 2024.
• Bailey, Brian (9 Aug 2018). "Chip Aging Becomes Design Problem". semiengineering.com. Retrieved 19 Jul 2024.
• Mutschler, Ann Steffora (13 Jul 2017). "Transistor Aging Intensifies At 10/7nm And Below". semiengineering.com. Retrieved 19 Jul 2024.