Perancangan dan Purwarupa Raspberry PI CM4 dengan NVME SSD Menggunakan Allegro PCB Editor

Rizky Priyambudi*, Dian Budhi Santoso, Lela Lela Nurpulaela

Abstract


Raspberry Pi CM4 (Compute Module 4) adalah gadget kecil yang dibuat untuk memudahkan membuat barang elektronik yang terhubung ke internet. NVMe SSD (Non-Volatile Memory Express Solid State Drive), media penyimpanan yang lebih cepat dari kartu MicroSD, digunakan untuk meningkatkan kecepatan Raspberry Pi CM4. Dalam studi ini, kami menggunakan Allegro PCB Editor untuk merancang dan membuat papan sirkuit cetak (PCB) yang terintegrasi dengan Raspberry Pi CM4 dan NVMe SSD. Desain skematis, tata letak PCB, dan verifikasi koneksi antara Raspberry Pi CM4 dan NVMe SSD adalah semua bagian dari proses desain. Hasil tes menunjukkan bahwa desain PCB dapat diandalkan dan bahwa Raspberry Pi CM4 dapat mengenali SSD NVMe. Diperkirakan bahwa sistem yang menggunakan Raspberry Pi CM4 dengan penyimpanan SSD NVMe akan bekerja lebih cepat dan efisien dengan menggunakan PCB yang dibuat dalam penelitian ini.


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References


Xu, Qiumin & Siyamwala, Huzefa & Ghosh, Mrinmoy & Suri, Tameesh & Awasthi, Manu & Guz, Zvika & Shayesteh, Anahita & Balakrishnan, Vijay. (2015). Performance analysis of NVMe SSDs and their implication on real world databases. 1-11. 10.1145/2757667.2757684.

Rahardjo, B., et al. (2021). Enhancing Raspberry Pi 4 Model B Performance with NVMe SSD Storage Using Eagle PCB Designer. International Journal of Electrical Engineering and Computer Science, 10(3), 76-82.

Ruiz, Edgar & Ortiz, Manuel & Vinces, Leonardo. (2022). A Computational Comparative Analysis Between Nvidia Jetson Nano and Raspberry Pi CM4 for the Classification of White Asparagus with SVM. 10.1007/978-3-031-08545-1_49.

Chen, H., Lai, K., & Zhou, M. (2020). Design and Simulation of Differential Transmission Line in High-speed PCB. Journal of Physics: Conference Series, 1602(1), 012034.

Wang, W., & Chen, H. (2018). Design of high-speed PCB based on signal integrity analysis. 2018 15th IEEE International Conference on Electronic Measurement and Instruments (ICEMI), 200-205

Riazi, A.. (2008). PCB stack-up analysis and design, part 1. 25. 18-19.

Manoharan, S., & Balakrishnan, V. (2019). PCB Stack-up Optimization for Noise Reduction in High-Speed Digital Systems. 2019 International Conference on Communication and Signal Processing (ICCSP), Chennai, India, pp. 183-186

Wang, Y., Li, C., Li, X., & Song, Y. (2021). Design of Differential Transmission Lines Based on Analysis of Crosstalk and Jitter. In Journal of Physics: Conference Series (Vol. 1832, No. 1, p. 012008). IOP Publishing

Amn-e-Elahi, Ali & Rezaei, Pejman & Karami, Farzad & Hyjazie, Fayez & Boutayeb, Halim. (2022). Analysis and Design of a Stacked PCBs-Based Quasi-Helix Antenna. IEEE Transactions on Antennas and Propagation. 10.1109/TAP.2022.3209197.

Asadi, Farzin. (2023). Current Sources and Differential Pair. 10.1007/978-3-031-25122-1_4.

Li, Qiong & Wei, Dengping & Gao, Wenqiang & Xie, Xuchao. (2020). NV-BSP: A Burst I/O Storage Pool Based on NVMe SSDs. 10.1007/978-981-15-8135-9_13.




DOI: https://doi.org/10.24815/jimps.v8i2.24811

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