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Deep Learning


AI Emerging Technologies to Watch

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One of the most exciting projects I have been lucky enough to work on at Intel was leading the engineering team tasked with designing, implementing and deploying the software platform that enabled large-scale training based on Habana Gaudi processors for MLPerf. I learned a lot on how to scale AI Training across a large hardware cluster, as well the challenges of building just building a data center. One thing that stood out was the immense amount of hardware, manual labor and power required to drive such a compute-intensive effort. Modern AI/ML solutions have shown that given a large amount of computing resources, we can create amazing solutions to complex problems. Applications leveraging solutions such as DALL·E and GPT-3 to generate images or create human-like research papers are truly mind-blowing.


Remote Computer Vision Engineer openings in Seattle, United States on August 09, 2022 – Data Science Jobs

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Altana is an equal opportunity employer with a commitment to inclusion across race and ethnicity, gender, sexual orientation, age, religion, physical ability, veteran status, and national origin. We offer a comprehensive healthcare package and paid parental leave of 3 months for the primary caregiver and 1 month for the secondary caregiver.


Using AI Chips To Design Better AI Chips

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Chip design is as much of an art as it is an engineering feat. With all of the possible layouts of logic and memory blocks and the wires linking them, there are a seemingly infinite placement combinations and often, believe it or not, the best people at chip floorplans are working from experience and hunches and they can't always give you a good answer as to why a particular pattern works and others don't. The stakes are high in chip design, and researchers have been trying to take the human guesswork out of this chip layout task and to drive toward more optimal designs. The task doesn't go away as we move towards chiplet designs, either, since all of those chiplets on a compute engine will need to be interconnected to be a virtual monolithic chip and all of the latencies and power consumption will have to be taken into effect for such circuit complexes. This is a natural job, it would seem, for AI techniques to help in chip design.


PaddlePaddle deep learning framework expands AI to industrial applications – Dataconomy

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PaddlePaddle has recently received new updates from Baidu, along with 10 large deep learning models covering computational biology, vision, …


Deep Learning Part 3/4

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Hardware is the foundation that deep learning is based on, providing its capabilities and readiness to help people categorize objects, improve speech recognition, understand visualizations, or any other purpose motivating people to use deep learning. When analyzing deep learning computational needs, remembering acronyms is the best way to spell out the hardware requirements for deep learning. GPU, TPU, FPGA, and ASICs are all key hardware components necessary for making deep learning work, especially amid concerns in recent that its progress has stunted. These types of hardware consume a lot of power and facilitate large deep learning models that CPUs and regular laptops can't manage. How does each of these hardware types facilitate these needs while addressing the computational limits restricting deep learning from achieving maximum potential?


GitHub - Lightning-AI/metrics: Machine learning metrics for distributed, scalable PyTorch applications.

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Machine learning metrics for distributed, scalable PyTorch applications. TorchMetrics is a collection of 80 PyTorch metrics implementations and an easy-to-use API to create custom metrics. The module-based metrics contain internal metric states (similar to the parameters of the PyTorch module) that automate accumulation and synchronization across devices! This can be run on CPU, single GPU or multi-GPUs! Module metric usage remains the same when using multiple GPUs or multiple nodes.


Neural Scaling of Deep Chemical Models

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Massive scale, both in terms of data availability and computation, enables significant breakthroughs in key application areas of deep learning such as natural language processing (NLP) and computer vision. There is emerging evidence that scale may be a key ingredient in scientific deep learning, but the importance of physical priors in scientific domains makes the strategies and benefits of scaling uncertain. Here, we investigate neural scaling behavior in large chemical models by varying model and dataset sizes over many orders of magnitude, studying models with over one billion parameters, pre-trained on datasets of up to ten million datapoints. We consider large language models for generative chemistry and graph neural networks for machine-learned interatomic potentials. To enable large-scale scientific deep learning studies under resource constraints, we develop the Training Performance Estimation (TPE) framework to reduce the costs of scalable hyperparameter optimization by up to 90%.


Senior Machine Learning Scientist - AI Automation & Optimization

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Find open roles in Artificial Intelligence (AI), Machine Learning (ML), Natural Language Processing (NLP), Computer Vision (CV), Data Engineering, Data Analytics, Big Data, and Data Science in general, filtered by job title or popular skill, toolset and products used.


Deep Learning for bear image classification Using PyTorch & Fastai & DuckDuckGo API

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Let's install environment in google colab. Check my ipynb file here! By default Resize crops the images to fit a square shape of the size requested, using the full width or height. This can result in losing some important details. Instead, what we normally do in practice is to randomly select part of the image, and crop to just that part.


How to Start a Career in AI

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How do I start a career as a deep learning engineer? What are some of the key tools and frameworks used in AI? How do I learn more about ethics in AI? Everyone has questions, but the most common questions in AI always return to this: how do I get involved? Cutting through the hype to share fundamental principles for building a career in AI, a group of AI professionals gathered at NVIDIA's GTC conference in the spring offered what may be the best place to start. Each panelist, in a conversation with NVIDIA's Louis Stewart, head of strategic initiatives for the developer ecosystem, came to the industry from very different places. But the speakers -- Katie Kallot, NVIDIA's former head of global developer relations and emerging areas; David Ajoku, founder of startup aware.ai;