Abstract: A computer array (10) has a plurality of computers (12) for accomplishing a larger task that is divided into smaller tasks, each of the smaller tasks being assigned to one or more of the computers (12). Each of the computers (12) may be configured for specific functions and individual input/output circuits (26) associated with exterior computers (12) are specifically adapted for particular input/output functions. An example of 24 computers (12) arranged in the computer array (10) has a centralized computational core (34) with the computers (12) nearer the edge of the die (14) being configured for input and/or output. Mechanisms are described for communications between computers (12) and the outside environment.

Abstract: A microprocessor system in which an array of processors communicates more efficiently through the use of a worker mode function. Processors that are not currently executing code remain in an inactive but alert state until a task is sent to them by an adjacent processor. Processors can also be programmed to temporarily suspend a task to check for incoming tasks or messages.

Abstract: A computer array (10) has a plurality of computers (12). The computers (12) communicate with each other asynchronously, and the computers (12) themselves operate in a generally asynchronous manner internally. When one computer (12) attempts to communicate with another it goes to sleep until the other computer (12) is ready to complete the transaction, thereby saving power and reducing heat production. The sleeping computer (12) can be awaiting data or instructions (12). In the case of instructions, the sleeping computer (12) can be waiting to store the instructions or to immediately execute the instructions. In the later case, the instructions are placed in an instruction register (30a) when they are received and executed therefrom, without first placing the instructions first into memory. The instructions can include a micro-loop (100) which is capable of performing a series of operations repeatedly.

Abstract: A computer array (10) has a plurality of computers (12). The computers (12) communicate with each other asynchronously, and the computers (12) themselves operate in a generally asynchronous manner internally. When one computer (12) attempts to communicate with another it goes to sleep until the other computer (12) is ready to complete the transaction, thereby saving power and reducing heat production. The sleeping computer (12) can be awaiting data or instructions (12). In the case of instructions, the sleeping computer (12) can be waiting to store the instructions or to immediately execute the instructions. In the later case, the instructions are placed in an instruction register (30a) when they are received and executed therefrom, without first placing the instructions first into memory. The instructions can include a micro-loop (100) which is capable of performing a series of operations repeatedly.