Automatic Verification of External Interrupt Behaviors for Microprocessor Design

Automatic Verification of External Interrupt Behaviors for Microprocessor Design

Interrupt behaviors, particularly the external ones, are difficult to verify in a microprocessor. Because the external interrupt arrival time and the microprocessor response time must be precise, verification requires sophisticated hardware and software design. This paper proposes a computer-aided d...

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Bibliographic Details
Published in:IEEE transactions on computer-aided design of integrated circuits and systems Vol. 27; no. 9; pp. 1670 - 1683
Main Authors: Yang, Fu-Ching, Huang, Wen-Kai, Zhong, Jing-Kun, Huang, Ing-Jer
Format: Journal Article
Language:English
Published: New York IEEE 01-09-2008
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Architecture description language (ADL)
Architecture description languages
Computer architecture
Computer bugs
Computer programs
Computer simulation
Delay
Design
Design automation
Design engineering
dynamic assertion based
external interrupt verification
Hardware
Interrupts
microprocessor verification
Microprocessors
monitor
Monitoring
Program verification (computers)
simulation based
Software
Software design
System-on-a-chip
trigger
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Summary:Interrupt behaviors, particularly the external ones, are difficult to verify in a microprocessor. Because the external interrupt arrival time and the microprocessor response time must be precise, verification requires sophisticated hardware and software design. This paper proposes a computer-aided design tool, called processor exception verification tool (PEVT), to verify the external interrupt behaviors of microprocessors, including individual, multiple, and nested interrupts. An architecture description language extension, called Exception Description Language (EXPDL), is developed for the designer to capture the external interrupt behaviors for the microprocessor under verification. PEVT is responsible for generating the verification cases, consisting of both the hardware and software modules, which are then used to trigger the expected behaviors. A monitor is also generated from the EXPDL description to verify these cases. PEVT has been applied to the verification of an academic implementation of the ARM7 microprocessor core and a public domain scalable processor architecture (SPARC) microprocessor core. The ARM7 has had a system-on-a-chip test chip and software porting including multimedia applications (MP3/JPEG/ ...) and a real time operating system muC-OSII. PEVT successfully identified several sophisticated remaining bugs with 527 lines of EXPDL description and took only 4 204 961 cycles of register transfer language simulation with execution time of 4.5 h in a SUN Blade2000 workstation. The experiment shows that PEVT could generate highly focused verification cases, less than 98 cycles per case on the average, which identify potential bugs with much less simulation cycles at the early verification stage, compared with traditional manual-based approaches.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:0278-0070
1937-4151
DOI:10.1109/TCAD.2008.927737