Abstract :
This paper presents an LSI-oriented approach to computer-maintained rectangular arrays of programmable logic. No signal line connects more than a few cells. A loading mechanism in each cell allows a computer directly connected to one cell to load any good cell that is not walled off by flawed cells. A loading arm is grown by programming cells to form a path that carries loading information. Cell mechanisms allow a computer to monitor the growth of a loading arm, and to change the arm´s route or retract the arm to avoid faulty cells. Properly loaded cells carry test signals between a tested cell and a testing computer directly connected to only a few cells. The computer discovers the faulty cells in an array, and repairs the array by loading the array´s good cells. This allows a computer to embed a perfect, very reliable digital machine on an entire flawed semiconductor wafer.
Keywords :
Cellular arrays, computer maintenance, fault-tolerance, programmable logic, reliability, self-repairing machines, very large-scale integration.; Circuit faults; Costs; Helium; Integrated circuit interconnections; Integrated circuit noise; Logic arrays; Logic programming; Logic testing; Maintenance; Programmable logic arrays; Cellular arrays, computer maintenance, fault-tolerance, programmable logic, reliability, self-repairing machines, very large-scale integration.;
