Daler Xusinov · Blog
@daler_xusinov · Post #544 · 01/08/2025, 05:35 PM
#3D#Modeling Blenderdagi birinchi modelim! Baho bersangiz xursand bo'lardim! @portlofio
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Source channel @githubtrending · Post #14686 · May 8
#python#asr#deeplearning#generative_ai#large_language_models#machine_translation#multimodal#neural_networks#speaker_diariazation#speaker_recognition#speech_synthesis#speech_translation#tts NVIDIA NeMo is a powerful, easy-to-use platform for building, customizing, and deploying generative AI models like large language models (LLMs), vision language models, and speech AI. It lets you quickly train and fine-tune models using pre-built code and checkpoints, supports the latest model architectures, and works on cloud, data center, or edge environments. NeMo 2.0 is even more flexible and scalable, with Python-based configuration and modular design, making it simple to experiment and scale up. The main benefit is that you can create advanced AI applications faster, with less effort, and at lower cost, while getting high performance and easy deployment options[1][2][3]. https://github.com/NVIDIA/NeMo
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djangoproject
@djangoproject · Post #533 · 12/21/2017, 02:21 PM
http://greenteapress.com/wp/modsimpy/ Free Book: #Modeling and #Simulation in Python Modeling and Simulation in Python is an introduction to physical modeling using a #computational approach. It is organized in three parts: The first part presents discrete models, including a bikeshare system and world population growth. The second part introduces first-order systems, including models of infectious disease, thermal systems, and chemical kinetics. The third part is about second-order systems, including mechanical systems like projectiles, celestial mechanics, and rotating rigid bodies.
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@githubtrending · Post #15575 · 03/20/2026, 11:30 AM
#java#aerospace#flight_simulator#java#modeling#optimization#rocket#rocketry#simulation#trajectory OpenRocket is a free tool to design, visualize in 3D, and simulate model rockets with six-degree-of-freedom flight analysis, real-time data on altitude/velocity, automatic optimization, and exports for 3D printing or other programs. It works on any platform via Java. You benefit by testing rockets virtually first, saving time/money on failed builds, predicting performance accurately, and flying safer, higher with optimized designs. https://github.com/openrocket/openrocket