Title :
Specifying a real-time kernel
Author :
Spivey, J. Michael
Author_Institution :
Tektronix, Portland, OR, USA
Abstract :
The application of formal methods to a safety-critical system is illustrated. The objective of the study was to improve the existing documentation of a diagnostic X-ray machine to serve later reimplementations. The separation of the kernel from applications helped identify a design flaw in the kernel that could have caused damage by the X-ray application. The case study which shows that mathematical techniques have an important role to play in documenting systems and avoiding design flaws, is a good example of the use of the Z (pronounced ´Zed´) notation and its methods for modeling systems. The limitations of this specification are delineated, showing that there is a need for other specification techniques to tackle the remaining properties, like real-time performance, for completeness and comparison.<>
Keywords :
X-ray applications; formal specification; medical diagnostic computing; safety; software reliability; X-ray application; Z; case study; completeness; design flaw; diagnostic X-ray machine; documentation; mathematical techniques; real-time kernel; real-time performance; safety-critical system; specification techniques; Data structures; Documentation; Embedded system; Hardware; Kernel; Mathematical model; Process control; Real time systems; Specification languages; System recovery;
Journal_Title :
Software, IEEE
