Abstract :
An overview is given of the MAU, an IEEE-compatible floating-point accelerator that operates as a coprocessor for the WE 32100 CPU. The chip provides virtually all the features that the IEEE-754 floating-point standard requires, with added software that provides a fully conforming system. A description is then given of the approach used for its design verification, which resulted in a unit that has exhibited no bugs, even two years after its first silicon implementation. Designers used two sets of tools during verification. With the first set, they reduced the time needed to create and execute tests and simplified the development of system tests. With the second set, they created a random test system, which plugged the holes left by system tests. Work underway to apply the techniques to other chips is described.
Keywords :
circuit CAD; logic testing; microprocessor chips; satellite computers; IEEE-754 floating-point standard; IEEE-compatible floating-point accelerator; WE 32100 CPU; WE 32106 math accelerator unit; coprocessor; design verification; random test system; system tests; Circuit simulation; Circuit testing; Computer bugs; Design engineering; Error correction; Fabrication; Information systems; Silicon; System testing; Timing;
