Introduction

Previous chapters in this book have been devoted to the design of domino logic standard cells and methods to synthesize logic using them. In this chapter we describe some example circuits implemented using different automated domino logic design flows. Since the primary benchmark for synthesizable domino logic is against synthesizable static logic, comparisons are provided between the two. Silicon-measured data is also provided wherever it is available.

Domino integer execution unit

A typical application for high-speed logic is in the execution units of microprocessors. Execution units are the main arithmetic modules in processors, performing integer or floating point arithmetic. In order to understand the speed advantages possible with domino logic, we decided to build a simple integer execution unit. The block has an adder, a shifter, a multiplier, and a bit operations unit. Memory modules interact closely with execution units, to provide data and instructions. For this design two 32-entry, 32-bit wide register files are used in each execution unit. One register file supplies the 32-bit wide data operands that are applied to the datapath modules and stores the result. The other register keeps a simple set of instructions. These instructions allow the data operations to start and stop. They also determine the operations to be performed and the data memory locations to be accessed.

A schematic representation of the execution unit data flow is shown in Figure 5.1. Operation starts via instructions sent from the instruction register file. Each arithmetic function receives operands from the data register file.