Clock generation and distribution for the first IA-64 microprocessor

Abstract

The clock design for the first implementation of the IA-64 microprocessor is presented. A clock distribution with an active distributed deskewing technique is used to achieve a low skew of 28 ps. This technique is capable of compensating skews caused by within-die process variations that are becoming a significant factor of the clock design. The global, regional and local clock distributions are described. A multilevel skew budget and local clock timing methodology are used to enable a high-performance design by providing support for intentional clock skew injection and time borrowing. By providing a test access port interface to the deskew architecture and the incorporation of the on-die-clock-shrink, this design is equipped with two very powerful post-silicon timing debug tools that are critical to high-performance microprocessor design and enabled quick time-to-market.