Deep Learning Stocks List
Symbol | Grade | Name | % Change | |
---|---|---|---|---|
NVDA | A | NVIDIA Corporation | -0.91 | |
CRWD | B | CrowdStrike Holdings, Inc. | 3.08 | |
AI | B | C3.ai, Inc. | 8.78 | |
LRNZ | B | TrueMark Technology, AI & Deep Learning ETF | 2.97 | |
XAIX | B | Xtrackers Artificial Intelligence and Big Data ETF | -0.12 | |
ZS | C | Zscaler, Inc. | 4.26 | |
AMD | F | Advanced Micro Devices, Inc. | -0.10 |
Related Industries: Information Technology Services Semiconductors Software - Infrastructure
Symbol | Grade | Name | Weight | |
---|---|---|---|---|
NVDX | C | T-Rex 2X Long NVIDIA Daily Target ETF | 96.08 | |
SHOC | D | Strive U.S. Semiconductor ETF | 34.22 | |
VCAR | B | Simplify Volt RoboCar Disruption and Tech ETF | 32.31 | |
USD | C | ProShares Ultra Semiconductors | 32.06 | |
LRNZ | B | TrueMark Technology, AI & Deep Learning ETF | 29.87 |
Compare ETFs
- Deep Learning
Deep learning (also known as deep structured learning) is part of a broader family of machine learning methods based on artificial neural networks with representation learning. Learning can be supervised, semi-supervised or unsupervised.Deep-learning architectures such as deep neural networks, deep belief networks, recurrent neural networks and convolutional neural networks have been applied to fields including computer vision, machine vision, speech recognition, natural language processing, audio recognition, social network filtering, machine translation, bioinformatics, drug design, medical image analysis, material inspection and board game programs, where they have produced results comparable to and in some cases surpassing human expert performance.Artificial neural networks (ANNs) were inspired by information processing and distributed communication nodes in biological systems. ANNs have various differences from biological brains. Specifically, neural networks tend to be static and symbolic, while the biological brain of most living organisms is dynamic (plastic) and analogue.The adjective "deep" in deep learning refers to the use of multiple layers in the network. Early work showed that a linear perceptron cannot be a universal classifier, and then that a network with a nonpolynomial activation function with one hidden layer of unbounded width can on the other hand so be. Deep learning is a modern variation which is concerned with an unbounded number of layers of bounded size, which permits practical application and optimized implementation, while retaining theoretical universality under mild conditions. In deep learning the layers are also permitted to be heterogeneous and to deviate widely from biologically informed connectionist models, for the sake of efficiency, trainability and understandability, whence the "structured" part.
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