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All Journal Elkom: Jurnal Elektronika dan Komputer MURAKOM
Supriyanto Supriyanto
Universitas Sains dan Teknologi Komputer
Education

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Sistem Monitoring Dan Kontroling Irigasi Sawah Menggunakan Microcontroller Wemos D1 Berbasis Internet Of Things Supriyanto Supriyanto; Eka Satria Wibawa
Elkom : Jurnal Elektronika dan Komputer Vol 13 No 2 (2020): Desember: Jurnal Elektronika dan Komputer
Publisher : STEKOM PRESS

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Abstract

Irrigation is a land irrigation system by damming water sources. Irrigation as the provision, regulation and disposal of water to support agricultural needs. Irrigation is generally used by farmers, especially farmers in rice fields to irrigate and provide water supply to agricultural land, monitoring water stock in rice fields must be done frequently because rice water needs must be balanced with a lack of water supply or excess water supply in rice fields is not good for rice growth . So far, farmers have monitored irrigation channels manually, the location of the rice fields from the farmer's house often causes rice plants to experience scarcity because the floodgates are not opened when the water supply is running low or experiencing water supply. excess because the floodgates are opened for too long, this will greatly disturb the growth of rice plants. Making a monitoring and control system for irrigation channels using a water level sensor installed on the ESP 8266 microcontroller (Wemos D1), the system uses a programming language c. This tool can be used to open the irrigation door if the water supply in the rice fields is below the minimum limit and will close the water gate when the water supply has reached the maximum limit, the servo motor is used to open and close the floodgates. . . The monitoring results obtained will be displayed to users in real time through the android application interface and will be stored in the form of a text file on the storage media.
Sistem Monitoring Dan Kontroling Irigasi Sawah Menggunakan Microcontroller Wemos D1 Berbasis Internet Of Things Supriyanto Supriyanto; Eka Satria Wibawa
Elkom : Jurnal Elektronika dan Komputer Vol 13 No 2 (2020): Desember: Jurnal Elektronika dan Komputer
Publisher : STEKOM PRESS

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Irrigation is a land irrigation system by damming water sources. Irrigation as the provision, regulation and disposal of water to support agricultural needs. Irrigation is generally used by farmers, especially farmers in rice fields to irrigate and provide water supply to agricultural land, monitoring water stock in rice fields must be done frequently because rice water needs must be balanced with a lack of water supply or excess water supply in rice fields is not good for rice growth . So far, farmers have monitored irrigation channels manually, the location of the rice fields from the farmer's house often causes rice plants to experience scarcity because the floodgates are not opened when the water supply is running low or experiencing water supply. excess because the floodgates are opened for too long, this will greatly disturb the growth of rice plants. Making a monitoring and control system for irrigation channels using a water level sensor installed on the ESP 8266 microcontroller (Wemos D1), the system uses a programming language c. This tool can be used to open the irrigation door if the water supply in the rice fields is below the minimum limit and will close the water gate when the water supply has reached the maximum limit, the servo motor is used to open and close the floodgates. . . The monitoring results obtained will be displayed to users in real time through the android application interface and will be stored in the form of a text file on the storage media.
Generative AI untuk Optimasi Rancangan Sirkuit Terintegrasi Supriyanto Supriyanto; Nuris Dwi Setiawan; Bima Satria
MUARA KOMPUTER : Jurnal Ilmiah Ilmu Komputer & Elektronika Vol. 2 No. 1 (2026): Jurnal Ilmiah Ilmu Komputer & Elektronika
Publisher : CV MUARA EDUKASI

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64365/murakom.v2i1.240

Abstract

Perancangan sirkuit terintegrasi (IC) modern menghadapi tantangan kompleksitas yang meningkat pesat, di mana fase physical design seperti penempatan dan perutean komponen memakan waktu hingga 60-70% dari siklus desain keseluruhan dengan biaya verifikasi yang sangat tinggi. Penelitian ini mengusulkan pendekatan revolusioner dengan memanfaatkan kecerdasan artifisial generatif untuk mengotomatisasi proses tersebut secara signifikan. Framework yang dikembangkan mengintegrasikan Model Bahasa Besar (LLM) yang dilatih khusus untuk memahami spesifikasi hardware description language (HDL) dan dokumentasi teknis, berfungsi sebagai asisten desain cerdas yang menerjemahkan kebutuhan fungsional menjadi arahan strategis desain. Selanjutnya, Jaringan Adversarial Generatif (GAN) hierarkis mengambil arahan tersebut untuk menghasilkan layout fisik geometris yang optimal, dengan mekanisme discriminator yang secara simultan memverifikasi kelayakan manufaktur melalui design rule checking (DRC) dan electrical rule checking (ERC). Hasil eksperimen pada node teknologi 7nm dan 5nm menunjukkan bahwa metode ini berhasil mengurangi waktu iterasi desain hingga 70%, menurunkan konsumsi daya sebesar 15%, serta mengoptimasi luas area sebesar 10% dibandingkan alur kerja EDA konvensional. Yang lebih signifikan, framework ini mencapai tingkat keberhasilan 92% dalam menghasilkan layout yang langsung lolos verifikasi DRC/ERC pada percobaan pertama. Temuan penelitian membuktikan bahwa sinergi LLM dan GAN tidak hanya mengotomatisasi tugas repetitif, tetapi juga membuka paradigma baru eksplorasi desain yang lebih kreatif dan holistik, sehingga berpotensi mentransformasi industri semikonduktor dengan mempercepat inovasi dan menekan biaya produksi secara dramatis.
Co-Authors Bima Satria Eka Satria Wibawa Nuris Dwi Setiawan