Circuit for controlling and allocating embryonic hardware reconfiguration

Abstract

The invention uses multi-way selector tree (MuxTree) as basic cell to compose the embryo electronic array circuit; each basic cell of multi-way selector (MuxTree) is composed of the programmable functional unit(FU), switch block (SB) and configuration register (CREG). The programmable function unit mainly comprises a two-line to one-line multi-way selector and a D type flip-flop (F) for realizing the time sequence of clock; the switch block (SB) provide the input bus in east, south, west and north directions; the output end of basic cell (NOUT) is interconnected to the input bus in east, south, west and north directions.

Description

technical field

[0001] The invention relates to a reconfigurable control configuration circuit, more specifically to an embryonic hardware reconfiguration control configuration circuit, which belongs to the field of information technology. Background technique

[0002] The complexity of digital systems is increasing day by day, but its controllability and reliability have not been improved accordingly. Therefore, people put forward the requirement of dynamic self-detection and self-repair of faults, and strive to find new design methods of fault-tolerant systems. Inspired by biological characteristics such as the growth and development of embryonic cells, organism self-repair, individual learning, and population genetic evolution mechanisms, scholars have proposed a new type of hardware that mimics the multicellular tissue architecture of organisms, namely embryonic hardware. As an important part of the embryonic hardware, the reconfiguration control configuration circuit pl...

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