Title :
Application of scan hardware and software for debug and diagnostics in a workstation environment
Author :
Dervisoglu, Bulent I.
Author_Institution :
Apollo Comput. Inc., Chelmsford, MA, USA
fDate :
6/1/1990 12:00:00 AM
Abstract :
An architecture for implementing scan technology for test and debug in a state-of-the-art workstation is described. Architectural features include controlling the scan and clock functions from a single resource that can also perform LFSR (linear feedback shift register) based pseudorandom testing and test result compression via signature capture. Operations of the scan subsystem are controlled from a service processor that uses a diagnostics bus to communicate with individual scan and clock resource units present on each system board. For debug purposes the service processor has been linked with a remote computer, and software has been developed to display and/or modify system state variables (flip-flops). Analysis of scan overhead indicates that benefits in test and debug of the target system far outweight the cost of implementing scan technology for the APOLLO DN10000 workstation
Keywords :
computer architecture; computer debugging; feedback; shift registers; workstations; APOLLO DN10000 workstation; clock functions; debug; diagnostics; diagnostics bus; flip-flops; linear feedback shift register; pseudorandom testing; scan hardware; signature capture; software; system state variables; test result compression; workstation environment; Application software; Clocks; Computer architecture; Computer displays; Hardware; Linear feedback control systems; Performance evaluation; Software debugging; Testing; Workstations;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
