Self-correction of FPGA-Based Control Units

This paper presents a self-correcting control unit design using Hamming codes for finite state machine (FSM) state encoding. The adopted technique can correct single-bit errors and detect two-bit errors in the FSM register within the same clock cycle. The main contribution is the development of a parameterizable VHDL package and the respective error-correcting modules, which can easily be added to an FSM specification using any state assignment strategy and having any number of inputs, outputs and states. Besides of application to FSM error correction, the developed tools can easily be adapted to other applications where error detection and correction is required.

[1]  Peter J. Ashenden,et al.  The Designer's Guide to VHDL , 1995 .

[2]  Ilya Levin,et al.  Self-checking of FPGA-based control units , 1999, Proceedings Ninth Great Lakes Symposium on VLSI.

[3]  John F. Wakerly Digital Design , 1990 .

[4]  Donatella Sciuto,et al.  Design of VHDL-based totally self-checking finite-state machine and data-path descriptions , 2000, IEEE Trans. Very Large Scale Integr. Syst..

[5]  Edward J. McCluskey,et al.  Finite state machine synthesis with concurrent error detection , 1999, International Test Conference 1999. Proceedings (IEEE Cat. No.99CH37034).

[6]  John F. Wakerly,et al.  Digital design - principles and practices , 1990, Prentice Hall Series in computer engineering.