A system and method for detecting and rectifying a proscribed non-complementary output from a complementary logic circuit. A complementary logic circuit having a true tree and a complement tree is provided. The true tree produces a true signal utilized to generate a true output signal from the complementary logic circuit. The complement tree produces a complement signal utilized to generate a complement output signal from the complementary logic circuit. Logic means coupled to the output of the complementary logic circuit detect an occurrence of a non-complementary output from the complementary logic circuit. Multiplexing means within the true tree is utilized to selectively replace the true signal with the complement signal within the true tree in response to detection by the logic means of a non-complementary output, such that a non-complementary output is seamlessly detected and rectified.
CROSS REFERENCE TO RELATED APPLICATIONS
The present application is related to the following copending U.S. Patent Applications: U.S. patent application Ser. No. 09/270,468 filed on Mar. 15, 1999, titled "System and Method For Diagnosing And Repairing Errors In Complementary Logic". The above mentioned patent application is assigned to the assignee of the present invention. The content of the cross referenced copending applications are hereby incorporated herein by reference thereto.
The invention includes an error correcting logic system that allows critical circuits to be hardened with only one redundant unit and without loss of circuit performance. The system provides an interconnecting gate that suppresses a fault in one of at least two redundant dynamic logic gates that feed to the interconnecting gate. The system is applicable to dynamic or static logic systems. The system prevents propagation of a fault, and addresses not only soft errors, but noise-induced errors.
The invention includes an error correcting logic system that allows critical circuits to be hardened with only one redundant unit and without loss of circuit performance. The system provides an interconnecting gate that suppresses a fault in one of at least two redundant dynamic logic gates that feed to the interconnecting gate. The system is applicable to dynamic or static logic systems. The system prevents propagation of a fault, and addresses not only soft errors, but noise-induced errors.
