2000
DOI: 10.1109/54.895008
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Postsilicon validation methodology for microprocessors

Abstract: A proposed methodology targets microarchitectural attributes prioritized based on the importance of validating corner cases. Several test templates cover all the critical attributes.

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Cited by 27 publications
(10 citation statements)
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“…SBST is also a potentially effective solution for postsilicon validation. Execution of verification tests in early silicon prototypes is orders of magnitude faster than simulation-based verification tests and this enables designers to apply more comprehensive tests within a limited time period [17]. However, developing testbenches for post-silicon validation is a tedious task since it suffers from limited internal node observability compared to the full signal observability that a pre-silicon, simulationbased environment offers.…”
Section: Sbst Of Single-threaded Processorsmentioning
confidence: 99%
“…SBST is also a potentially effective solution for postsilicon validation. Execution of verification tests in early silicon prototypes is orders of magnitude faster than simulation-based verification tests and this enables designers to apply more comprehensive tests within a limited time period [17]. However, developing testbenches for post-silicon validation is a tedious task since it suffers from limited internal node observability compared to the full signal observability that a pre-silicon, simulationbased environment offers.…”
Section: Sbst Of Single-threaded Processorsmentioning
confidence: 99%
“…Tests in the post-silicon domain consists of directed tests checking specific features of the processor, automatically generated random tests, as well as compatibility checks, such as operating system boot-up and tests with legacy software [2,3]. Directed tests demand much engineering effort and are limited to short sequences or basic system activities.…”
Section: Post-silicon Validation and Its Challengesmentioning
confidence: 99%
“…While tests can be run at-speed on the hardware, test generation and simulation constitute the bottleneck in this process, almost reducing it to the performance level of pre-silicon simulation. Consequently, design houses are forced to spend enormous computational resources on test simulation server farms [3]. Nevertheless, verification with randomized programs remains a central component of the post-silicon validation process, since it can expose many unexpected behaviors of the system missed by directed tests.…”
Section: Post-silicon Validation and Its Challengesmentioning
confidence: 99%
“…Aggressive technology scaling and extreme chip integration, combined with the compelling requirement to diminish the time-to-market window have rendered modern microprocessors more prone to design bugs than ever [22], [25], [28]. As a result, silicon debug -the process of validating and debugging a new microprocessor design on its first silicon prototype chips -has evolved to a crucial, time-consuming, and labor-demanding step in a microprocessor's development flow.…”
Section: Introductionmentioning
confidence: 99%