Publication

Effects of Process Variations on 3-D Global Clock Distribution Networks

Abstract

In three-dimensional (3D) integrated circuits, the effect of process variations on clock skew differs from 2D circuits. The combined effect of inter-die and intra-die process variations on the design of 3D clock distribution networks is considered in this article. A statistical clock skew model incorporating both the systematic and random components of process variations is employed to describe this effect. Two regular 3D clock tree topologies are investigated and compared in terms of clock skew variation. The statistical skew model used to describe clock skew variations is verified through Monte-Carlo simulations. The clock skew is shown to change in different ways with the number of planes forming the 3D IC and the clock network architecture. Simulations based on a 45-nm CMOS technology show that the maximum standard deviation of clock skew can vary from 15 ps to 77 ps. Results indicate that simply increasing the number of planes of a 3D IC does not necessarily lead to lower skew variation and higher operating frequencies. A multigroup 3D clock tree topology is proposed to effectively mitigate the variability of clock skew. Tradeoffs between the investigated 3D clock distribution networks and the number of planes comprising a 3D circuit are discussed and related design guidelines are offered. The skew variation in 3D clock trees is also compared with the skew variation of clock grids.

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Related concepts (37)
Integrated circuit
An integrated circuit or monolithic integrated circuit (also referred to as an IC, a chip, or a microchip) is a set of electronic circuits on one small flat piece (or "chip") of semiconductor material, usually silicon. Large numbers of miniaturized transistors and other electronic components are integrated together on the chip. This results in circuits that are orders of magnitude smaller, faster, and less expensive than those constructed of discrete components, allowing a large transistor count.
Clock skew
Clock skew (sometimes called timing skew) is a phenomenon in synchronous digital circuit systems (such as computer systems) in which the same sourced clock signal arrives at different components at different times due to gate or, in more advanced semiconductor technology, wire signal propagation delay. The instantaneous difference between the readings of any two clocks is called their skew. The operation of most digital circuits is synchronized by a periodic signal known as a "clock" that dictates the sequence and pacing of the devices on the circuit.
Clock synchronization
Clock synchronization is a topic in computer science and engineering that aims to coordinate otherwise independent clocks. Even when initially set accurately, real clocks will differ after some amount of time due to clock drift, caused by clocks counting time at slightly different rates. There are several problems that occur as a result of clock rate differences and several solutions, some being more acceptable than others in certain contexts.
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