Abstract:
The VLSI industry is witnessing rapid changes driven by the growing mar-
ket requirements. In order to maintain their competitive quotient, reducing
the time to market of their IC products has become a prime concern of the
semiconductor companies. The reason is the direct impact of the time to
market on the pro t margins of a company. The product development cycle
includes formation of the product speci cations, design implementation and
design veri cation. The process of verifying a new product design consumes
a signi cant time portion of its development cycle. The verifying process
starts after the product speci cations are formed, continuing through the
various later phases. One of the phases is after the rst silicon prototype of
the product is fabricated, and is known as the post silicon validation (PSV).
Although considered as a bottleneck in the product development cycle, it
is an absolute requirement being the nal step towards mass manufactur-
ing of the product. While standardized automation tools exists for other
phases like veri cation, the PSV phase has remained void of such tools due
to the varying properties of IC products. Traditional PSV methods have
failed to keep pace with the VLSI advancements. Creative strategies are
required by the semiconductor industry to reduce the product cycle time
and address the new requirements of the PSV process. This work presents
one such approach which allows introduction of automation in PSV to re-
duce the time to market of the IC products along with other requirements
which are at-speed testing, hardware and software co-validation and reduc-
tion in the resource investment in PSV. Using this approach, the average
validation time of a PSV for NAND and an SPI NOR
ash controller IPs
are reduced by 76% and 61% respectively compared to the times required,
if the automation framework is not utilized.