Prejudices are as tenacious in science and engineering as in any other human activity. One of the most firmly held prejudices in digital VLSI design is that asynchronous circuits-a.k.a. self-timed or delay-insensitive circuits-are necessarily slow and wasteful in area and logic. Whereas asynchronous techniques would be appropriate for control, they would be inadequate for data paths because of the cost of dual-rail encoding of data, the cost of generating completion signals for write operations on registers, and the difficulty of designing self-timed buses. Because a general-purpose microprocessor contains a complex data path, a corollary of the previous opinion is that it is impossible to design an efficient asynchronous microprocessor. Since we have been developing a design method for asynchronous circuits that gives excellent results, and since the above objections to large-scale data path designs are genuine but untested, we decided to "pick up the gauntlet" and design a complete processor. The design of an asynchronous microprocessor poses new challenges and opens new avenues to the computer architect. Hence, the experiment unavoidably developed a dual purpose: We are refining an already well-tested design method and we are starting a new series of experiments in asynchronous architectures. (As far as we know, this is the first entirely asynchronous microprocessor ever built.) The results we are reporting have a different implication depending on whether they are related to the first or second goal of the experiment. Whereas we are convinced that our design methods have reached maturity, we are quite aware that asynchronous techniques may influence the computer architects in completely new ways that this first design is just starting to explore.
CITATION STYLE
Martin, A. J., Burns, S. M., Lee, T. K., Borkovic, D., & Hazewindus, P. J. (1989). The design of an asynchronous microprocessor. ACM SIGARCH Computer Architecture News, 17(4), 99–110. https://doi.org/10.1145/71317.1186643
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