THE MANAGEMENT DEVELOPMENT OF CHINESE ARCHITECTURAL DESIGN CHIP ENTERPRISES BASED ON COMPARATIVE ADVANTAGE FEATURES
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Abstract
Against the backdrop of the China US trade friction, the importance of management and development of China's architectural design chip enterprises has risen to the level of national strategic security. Evaluating the performance of China's architectural design chip enterprises through scientific and objective methods is not only beneficial for identifying their development advantages, but also for the government to efficiently allocate resources to these enterprises. Therefore, based on the characteristics of architectural design chip enterprises, a performance evaluation method for Chinese architectural design chip enterprises based on comparative advantage features was developed, and combined with the established indicator evaluation system applicable to architectural design chip enterprises, applied research was conducted on 9 listed architectural design chip enterprises in China. Finally, based on the evaluation results and combined with the current national conditions in China, reasonable countermeasures are proposed for the future development of China's architectural design chip enterprises.
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References
Binyamin, S., & Hoque, R. (2020). Understanding the drivers of wearable health monitoring technology: An extension of the unified theory of acceptance and use of technology. MOPI 12 (9605), pp. 1-20.
Bolotin E, Cidon I, Ginosar R, et al. QNoC. (2004) QoS architecture and design process for network on chip [J]. Journal of systems architecture, 50(2-3), pp. 105-128.
Różanowski K, Sondej T. (2013). Architecture design of the high integrated System-on-Chip for biomedical applications[C]//Proceedings of the 20th International Conference Mixed Design of Integrated Circuits and Systems-MIXDES 2013. IEEE, pp. 529-533.
Bertozzi D, Benini L. Xpipes. (2004). A network-on-chip architecture for gigascale systems-on-chip[J]. IEEE circuits and systems magazine, 4 (2), pp. 18-31.
Bertozzi D, Benini L. Xpipes. (2004). A network-on-chip architecture for gigascale systems-on-chip[J]. IEEE circuits and systems magazine, 4(2), pp. 18-31.
Mohanty S P, Gomathisankaran M, Kougianos E. (2014). Variability - aware architecture level optimization techniques for robust nanoscale chip design [J]. Computers & Electrical Engineering, 40(1), pp. 168-193.
Liu, J., & Sun, H. (2020). Addressing the urban-rural divide in music education. Educational Research Review, 29(4), pp. 47-62.
Wang, L., & Lee, C. (2016). The impact of integrated music education on early childhood cognitive development. Journal of Early Childhood Research, 14(2), pp. 112-128.
Zhao, M. (2018). Music education in China: Current trends and future directions. Music Education Review, 56(3), pp.215-230.
Zuk, J., Benjamin, C., Kenyon, A., & Gaab, N. (2014). Behavioral and neural correlates of executive functioning in musicians and non-musicians. PLoS One, 9(6), e99868.
