Current trends in the design of general purpose VLSI chips are analyzed to explore what a truly modular, general-purpose component for digital computing systems might look like in the mid 1980's. It is concluded that such a component would be a complete single-chip computer, in which the hardware for effective interprocessor communication has been designed with the architecture
of the overall multiprocessor system in mind. Computation and communication are handled by separate processors in such a manner, that both can be performed simultaneously with full efficiency.
This paper then describes relevant features of X-TREE, a research project which addresses the question how the power of VLSI of the next decade can best be used to build general purpose computing systems of arbitrary size. In
X-TREE, a general VLSI component realizable in the mid 1980's is defined, and its interconnection into a hierarchical tree-structured network is studied. The
overall architecture, communications issues and the blockdiagram of the modular component used are discussed
