Title :
Enhancing microprocessor immunity to power supply noise with clock-data compensation
Author :
Wong, Keng L. ; Rahal-Arabi, Tawfik ; Ma, Matthew ; Taylor, Greg
Author_Institution :
Technol. Manuf. Group, Intel Corp., Hillsboro, OR, USA
fDate :
4/1/2006 12:00:00 AM
Abstract :
This paper demonstrates an alternative to the conventional wisdom that microprocessors require a flat impedance spectrum across a broad range of frequencies in order to deliver maximum operating frequency. Delivering this impedance requires large amounts of on-die capacitance. We show through extensive analysis techniques that proper co-design of the clock and power distribution networks can relax this requirement, saving the area and leakage power needed for on-die decoupling. Measurements made on 130- and 180-nm processors validate the approach.
Keywords :
clocks; compensation; integrated circuit noise; microprocessor chips; power supply circuits; 130 nm; 180 nm; clock-data compensation; flat impedance spectrum; maximum operating frequency; microprocessor immunity; on-die capacitance; on-die decoupling; power distribution networks; power supply noise; Capacitance; Capacitors; Circuits; Clocks; Frequency; Impedance; Microprocessors; Packaging; Power supplies; Resonance; Clock distribution; Fmax; clock jitter; clock-data compensation; data-clock synchronization; microprocessor speed; package resonance; power delivery; power supply noise;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2006.870925
