Swamp: a fast processor for Smalltalk-80

Abstract

A processor for the Smalltalk-80↑ programming language is described. This machine is implemented using a standard bit slice ALU and sequencer, TTL MSI, and NMOS LSI RAMS. It executes an instruction set similar to the Smalltalk-80 virtual machine instruction set. The data paths of the machine are optimized for rapid Smalltalk-80 execution by the inclusion of a context cache, tag checking, and a hardware method cache. Each context is only partly initialized when created, and has no memory allocated for it until a possibly non-LIFO reference to it is created. The machine is microprogrammed, and uses a simple next micro-address prediction strategy to obtain most of the performance of pipelining without the attendant complexity. The machine can execute simple instructions at over 7M bytecodes per second and has a predicted average throughput of 1.9M bytecodes per second. A processor for the Smalltalk-80↑ programming language is described. This machine is implemented using a standard bit slice ALU and sequencer, TTL MSI, and NMOS LSI RAMS. It executes an instruction set similar to the Smalltalk-80 virtual machine instruction set. The data paths of the machine are optimized for rapid Smalltalk-80 execution by the inclusion of a context cache, tag checking, and a hardware method cache. Each context is only partly initialized when created, and has no memory allocated for it until a possibly non-LIFO reference to it is created. The machine is microprogrammed, and uses a simple next micro-address prediction strategy to obtain most of the performance of pipelining without the attendant complexity. The machine can execute simple instructions at over 7M bytecodes per second and has a predicted average throughput of 1.9M bytecodes per second.