Deep Learning

While a single-layer neural network can still make approximate predictions, additional hidden layers can help optimize and refine for accuracy. We remain up to current on the latest developments in the Deep Learning world. As a result, we are in an excellent position to consistently, rapidly, and effectively answer our clients’ different needs. axiusSoftware has a team of professionals with years of Deep Learning experience. Using predictive analytics, data transformations and visualizations, data modeling APIs, facial recognition, natural language processing, and machine deep learning algorithms, our deep learning services assist you in managing production deep learning workflows at scale in an enterprise-ready environment. Businesses that use Pattern Recognition services can increase their product capabilities and offerings, improve the efficiency of ordinary business operations, simplify customer engagement, and leverage AI prediction capabilities to produce more precise business strategies.

Adaptable Systems

We concentrate on self-adaptive systems based on the standard Monitor-Analyze-Plan-Execute (MAPE) feedback loop. The research issues revolve around the problems that inspire the use of machine learning in self-adaptive systems, the key engineering features of learning in self-adaptation, and unresolved challenges in this field.

Genetic algorithms for issue solving

Genetic algorithms use code to simulate the power of evolution, as well as natural selection, to solve problems better and faster. In computing, our population consists of a collection of solutions to a certain problem.

Once we have a population, we may begin the evolution process, which consists of the following steps:

1. Fitness – Assigning a score to each solution to indicate how good it is.

2. Selection – Choosing parent solution pairings based on their Fitness value

3. Crossover – Crossing the selected parents to generate offspring

4. Mutation – With a very low probability, the offspring solution is mutated.
The evolution process in this case leads to the discovery of a “better” solution to the problem, or so we believe.

Enable troubleshooting automation

The Science Logic SL1 platform uses machine learning and event-driven automation to initiate proactive problem detection and troubleshooting, as well as to reduce mean time to repair (MTTR).

Efficient and precise cost-cutting solution

By connecting your model to a deep learning platform and utilizing AutoNAC technology, you will be able to create a cost-effective deep-learning model workload that is performance-optimized for any chosen target cloud compute instance. You can reduce cloud operating expenses by making better use of your existing cloud environment or even switching to cheaper instances while maintaining the same model accuracy and SLA.

Image processing in real time and at high speeds.

Image processing is a very important technology, and industrial need appears to be increasing year after year. Machine learning image processing was first developed in the 1960s as an attempt to imitate the human vision system and automate the image analysis process.

Advanced Analytics

When applied to data science, deep learning can provide better and more effective processing models. Its unsupervised learning ability fosters ongoing improvement in accuracy and outcomes. It also provides more dependable and succinct analytical results to data scientists. Most prediction software today is powered by this technique, with applications spanning from marketing to sales, HR, finance, and more. A deep neural network is likely to be used in a financial forecasting tool. Similarly, intelligent sales and marketing automation packages create predictions based on past data using deep learning algorithms.

Flexibility

Deep learning is extremely scalable because of its capacity to process large volumes of data and execute a large number of computations in a cost- and time-effective manner. This has a direct impact on productivity (faster deployment/rollouts), as well as modularity and portability (trained models can be used across a range of problems). For example, Google Cloud’s AI platform for prediction enables you to expand your deep neural network on the cloud. So, in addition to better model organization and versioning, you can scale batch prediction by leveraging Google’s cloud infrastructure. This then increases efficiency by scaling the number of nodes in use based on request traffic.

Torch:

Torch deep learning tools is a highly powerful open-source application. This logical calculating system makes use of a Graphics Processing Unit to enable ML algorithms. It makes use of the strong LuaJIT programming language as well as the basic Compute Unified Device Architecture execution. The light has transposing, slicing, a plethora of indexing techniques, a robust N-dimensional array feature, and so on. It features excellent Graphics Processing Unit support and is embeddable, allowing it to work with Android, iOS, and other platforms.

Neural Designer:

Neural Designer is a professional tool that uses neural networks to discover hidden patterns, complex relationships, and predict actual patterns from data indexes. Artelnics, a young company based in Spain, launched Neural Designer, which has become one of the most popular desktop apps for data mining. It employs neural networks as numerical models that mimic the work of the human cerebrum. Neural Designer creates computational models that function as the primary sensory system.

TensorFlow:

Deep Learning Instruments TensorFlow is frequently used for a variety of tasks, but it is particularly useful for inference and training of deep neural networks. It may be a well-known mathematical library that supported differentiable and dataflow programming. Through its broad interface of Compute Unified Device Architecture and Graphics Processing Unit, it supports the creation of both factual Machine Learning or ML arrangements as well as profound deep learning. TensorFlow provides assistance and capabilities for various machine learning applications, such as reinforcement learning, Natural Language Processing, and computer vision. TensorFlow is a must-know machine learning tool for newbies.

Microsoft Cognitive Toolkit:

The Microsoft Cognitive Toolkit for Deep Learning is a commercially available tool set that teaches deep learning frameworks to adapt in the same way that the human brain does.
It is simple to use and completely free. It has outstanding scaling capabilities as well as enterprise-level quality, accuracy, and speed. Through data learning, it enables clients to constrain the information contained inside large datasets.
Deep learning technologies from the Microsoft Cognitive Toolkit portray neural networks as an organization of computational steps represented by a coordinated diagram.

Pytorch:

Pytorch is a tool for deep learning. It is quite rapid as well as versatile. This is due to Pytorch’s superiority over the Graphics Processing Unit. It is possibly the most important ML tool because it is used in the most important elements of machine learning, such as generating tensor calculations and deep neural networks.
Python is the foundation of the Pytorch deep learning technology. In addition, it is the superior option to NumPy.

H20.ai:

The deep learning tool in H20 provides a versatile multi-layer AI neural network. H20 might be a completely open-source, adapted in-memory ML stage with direct adaptability. H20 supports the most widely used quantifiable and ML calculations, for example, deep learning, generalized linear models, gradient boosted machines, and so on. This artificial neural network has a few parameters and components that can be changed based on the stored data. It also has a rate-adaptive and annealing learning rate to produce a profoundly predictive yield.

Keras:

Keras’ deep learning tool is a deep learning library with minor functionality. Keras, a deep learning tool that works with TensorFlow and Theano, was designed with fast experimentation in mind. The main advantage is that it can quickly transport you from thought to action. Keras is a deep learning program written in Python that serves as an undeniable level neural networks library suitable for running on top of Theano or TensorFlow. It considers simple and quick prototyping through minimalism, extensibility, and total modularity. Keras is a deep learning tool that supports recurrent networks, convolutional networks, a combination of the two, and self-assertive availability plans such as multi-output and multi-input training.