Title :
A 90-nm variable frequency clock system for a power-managed itanium architecture processor
Author :
Fischer, Tim ; Desai, Jayen ; Doyle, Bruce ; Naffziger, Samuel ; Patella, B.
Author_Institution :
Intel Corp., Fort Collins, CO, USA
Abstract :
An Itanium Architecture microprocessor in 90-nm CMOS with 1.7B transistors implements a dynamically-variable-frequency clock system. Variable frequency clocks support a power management scheme which maximizes processor performance within a configured power envelope. Core supply voltage and clock frequency are modulated dynamically in order to remain within the power envelope. The Foxton controller and dynamically-variable clock system reside on die while the variable voltage regulator and power measurement resistors reside off chip. In addition, high-bandwidth frequency adjustment allows the clock period to adapt during on-die supply transients, allowing higher frequency processor operation during transients than possible with a single-frequency clock system.
Keywords :
clocks; microprocessor chips; nanotechnology; transients; 90 nm; CMOS; Foxton controller; Itanium architecture processor; adaptive frequency control; configured power envelope; delay-locked loop; frequency adjustment; phase-locked loop; power management scheme; power measurement resistors; power-managed processor; supply transients; variable frequency clock; voltage regulator; voltage-frequency converter; voltage-locked loop; Clocks; Control systems; Energy management; Frequency modulation; Microprocessors; Power measurement; Power system management; Regulators; Resistors; Voltage control; Adaptive frequency control; clocking; clocks; delay-locked loop (DLL); microprocessor; phase-locked loop (PLL); variable frequency; voltage-frequency converter; voltage-locked loop;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2005.859879
