In what is touted as one of the biggest advancements in fundamental transistor design, Intel Corporation is now using dramatically new materials to make 45-nm devices that allow faster processor speeds and enhanced PC performance. However, this technological breakthrough will require a reconfiguration of the microprocessor power supply.

A microprocessor's operating voltage usually comes from a VRM (voltage regulator module) or a circuit on the motherboard, the VRD (voltage regulator down). A 5- to 8-bit voltage identity code (VID) controls the VRM/VRD output voltage. These VID pins connect to corresponding pins on the microprocessor, which adjusts the VRM/VRD output to optimize the microprocessor's operating voltage.

According to the 2006 International Technology Roadmap for Semiconductors (ITRS), the 45-nm feature size will require as low as a 0.7-V operating voltage with a maximum of 198 W. Intel's present 8-bit VR11 specification for the VRM/VRD has an operating range of 0.5 to 1.6 V in 6.25-mV increments. This needs to be changed to a narrower operating voltage adjustment range with smaller increments for tighter voltage regulation. And 45-nm microprocessors may require up to 200 A, depending on the number of transistors employed and the power dissipation per transistor.