Abstract

The SPUR microprocessor has a 40-bit tagged architecture designed to improve its performance for Lisp programs. Although SPUR includes just a small set of enhancements to the Berkeley RISC-II architecture, simulation results show that with a 150-ns cycle time SPUR will run Common Lisp programs at least as fast as a Symbolies 3600 or a DEC VAX 8600. This paper explains SPUR's instruction set architecture and provides measurements of how certain components of the architecture perform.

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