• IEIE Transactions on Smart Processing and Computing
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• 제5권1호
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• pp.55-62
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• 2016

In this paper, we propose a hybrid multi.system-on-chip (H-MSoC) architecture that provides a high-flexibility system in a rapid development time. The H-MSoC approach provides a flexible system-on-chip (SoC) architecture that is easy to configure for physical- and application-layer development. The physical- and application-layer aspects are dynamically designed and modified; hence, it is important to consider a design methodology that supports rapid SoC development. Physical layer development refers to intellectual property cores or other modular hardware (HW) development, while application layer development refers to user interface or application software (SW) development. H-MSoC is built from multi-SoC architectures in which each SoC is localized and specified based on its development focus, either physical or application (hybrid). Physical HW development SoC is referred to as physical-SoC (Phy-SoC) and application SW development SoC is referred to as application-SoC (App-SoC). Phy-SoC and App-SoC are connected to each other via Ethernet. Ethernet was chosen because of its flexibility, high speed, and easy configuration. For prototyping, we used a LEON3 SoC as the Phy-SoC and a ZYNQ-7000 SoC as the App-SoC. The proposed design was proven in real-time tests and achieved good performance.

• KSBB Journal
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• 제4권3호
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• pp.246-253
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• 1989

Agorobacterium rhizogenes에 의하여 유도된 당근(Daucus carota L. )의 hairy root를 배양하였으며 opine 유무에 대한 형질전환 확인 및 배지조성을 달리하여 성장률에 따른 색소함량을 비교하였고, 재분화된 식물체의 형태적 차이를 관찰하여 몇가지 결론을 얻었다. Hairy root는 균 접종 2-4주 후에 형성층 부위를 중심으로 유도되었다. 유도된 hairy root의 초기 배양에는 R.C.M 배지가 적합하였으며 MSO(2, 4-D $10^{-4} ml/ l, pH6, sucrose 5%, 질소원 0.03M 등)에서 최대 성장을 보여주었고 성장의 증가에 따른 색소의 형성은 비교적 안정하였다. 재분화된 식물체는 정상 식물체에 비하여 형태적으로 차이를 나타내었으며 형질전환된 hairy root 및 재분화된 식물체에서 mannopine 분석으로 Ri-plasmid에 의한 형질전환이 이루어졌음을 확인하였다.