The Manchester prototype dataflow computer
Communications of the ACM - Special section on computer architecture
Performance and evaluation of LISP systems
Performance and evaluation of LISP systems
MULTILISP: a language for concurrent symbolic computation
ACM Transactions on Programming Languages and Systems (TOPLAS)
Concert: design of a multiprocessor development system
ISCA '86 Proceedings of the 13th annual international symposium on Computer architecture
A case study of parallel execution of a rule-based expert system
International Journal of Parallel Programming
Computer
Structure and interpretation of computer programs
Structure and interpretation of computer programs
An architecture for mostly functional languages
LFP '86 Proceedings of the 1986 ACM conference on LISP and functional programming
POPL '76 Proceedings of the 3rd ACM SIGACT-SIGPLAN symposium on Principles on programming languages
The Incremental Garbage Collection of Processes
The Incremental Garbage Collection of Processes
THE DESIGN OF A MULTIPROCESSOR DEVELOPMENT SYSTEM
THE DESIGN OF A MULTIPROCESSOR DEVELOPMENT SYSTEM
A transputer-based parallel Lisp implementation
CSC '92 Proceedings of the 1992 ACM annual conference on Communications
Linear logic and permutation stacks—the Forth shall be first
ACM SIGARCH Computer Architecture News - Special issue: panel sessions of the 1991 workshop on multithreaded computers
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Multilisp is a parallel programming language derived from the Scheme dialect of Lisp by addition of the future construct. Multilisp has been implemented on Concert, a shared-memory muitiprocessor that uses a novel RingBus interconnection. Concert currently has 28 MC68000 processors, with a design goal of 32 processors. Several application programs have been developed and measured using Concert Multilisp. Experience with these programs has contributed to tuning the Multilisp language design and will ultimately contribute to the design of a parallel architecture streamlined for high performance on Multilisp programs.