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Global Next Generation Computing Market Report 2023: Bio Computing for Molecular Medicine and Gene Therapy Will Reach $19.1 and $12.1 Billion Respectively by 2028
[January 31, 2023]

Global Next Generation Computing Market Report 2023: Bio Computing for Molecular Medicine and Gene Therapy Will Reach $19.1 and $12.1 Billion Respectively by 2028


DUBLIN, Jan. 31, 2023 /PRNewswire/ -- The "Next Generation Computing Market: Bio-Computing, Brain-Computer Interfaces, High Performance Computing, Nanocomputing, Neuromorphic Computing, Serverless Computing, Swarm Computing, and Quantum Computing 2023 - 2028" report has been added to  ResearchAndMarkets.com's offering.

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This next generation computing market report evaluates next generation computing technologies, use cases, and applications. Market readiness factors are considered along with the impact of different computational methods upon other emerging technologies.

The report provides analysis of leading-edge developments such as computer integration with human cognition via bio-computing and brain-computer interfaces. Other pioneering areas covered include leveraging developments in nanotechnology to develop more effective computing models and methods.

The report includes critical analysis of leading vendors and strategies. The report includes next generation computing market sizing for the period of 2023 through 2028.

Select Report Findings:

  • The neuromorphic computing market will reach $8.3 billion by 2028
  • Swarm computing for the military segment will grow at 32.6% CAGR globally
  • Key swam computing components include optimization, clustering, scheduling, and routing
  • Banking, bioscience, and government sectors representing leading HPC verticals through 2028
  • Brain computer interface technology for repair/support of disabilities will reach $1.7 billion by 2028
  • Brain computer interface solutions in functional magnetic resonance imaging will reach $426 million by 2028
  • Bio computing for molecular medicine and gene therapy will reach $19.1 and $12.1 billion respectively by 2028

There are many technologies involved, including distributed computing (swarm computing), computational collaboration (bio-computing), improving performance of existing supercomputers, and completely new computer architectures such as those associated with quantum computing. Each of these approaches has their own advantages and disadvantages. Many of these different computing architectures and methods stand alone in terms of their ability to solve market problems.

Next generation computing technologies covered in this report includes:

  • High Performance Computing
  • Quantum Computing
  • Neuromorphic Computing
  • Serverless Computing
  • Biocomputing
  • Nanocomputing
  • Brain Computer Interface

More than simply an amalgamation of technologies, the next generation computing market is characterized by many different approaches to solve a plethora of computational challenges. Common factors driving the market include the need for ever increasing computation speed and efficiency, reduced energy consumption, miniaturization, evolving architectures and business models.

High-performance Computing

High-performance computing (HPC) solves complex computational problems using supercomputers and parallel computational techniques, processing algorithms and systems. HPC leverages various techniques including computer modeling, simulation, and analysis to solve advanced computational problems and perform research activities while allowing usage of computing resources concurrently.

Quantum Computing

The commercial introduction of quantum computing is anticipated to both solve and create new problems as previously unsolvable problems will be solve. This multiplicity of developments with next generation computing makes it difficult for the enterprise or government user to make decisions about infrastructure, software, and services.



Biocomputing

Biocomputing refers to the construction and use of computers using biologically derived molecules including DNA and proteins to perform computational calculations such as storing, retrieving and processing data. The computing system functions more like a living organism or contains biological components.


Neuromorphic Computing

Neuromorphic computing refers to the implementation of neural systems such as perception, motor control, and multisensory integration for very large-scale integration systems combining analog circuits or digital circuits or mixed mode circuits, and software systems.

Neuromorphic computing leverages the techniques of neuromorphic engineering that takes inspiration from biology, physics, mathematics, computer science, and electronic engineering to develop artificial neural systems including vision systems, head-eye systems, auditory processors, and autonomous robots.

Nanocomputing

Nanocomputing refers to miniature computing devices (within 100 nanometers) that are used to perform critical tasks like representation and manipulation of data. Nanocomputing is expected to bring revolution in the way traditional computing is used in certain key industry verticals, allowing progress in device technology, computer architectures, and IC processing. This technology area will help to substantially progress implantable technologies inserted into the human body, primarily for various healthcare solutions.

Key Topics Covered:

1.0 Executive Summary

2.0 Introduction

3.0 Technology and Application Analysis
3.1 High Performance Computing
3.1.1 HPC Technology
3.1.2 Exascale Computation
3.1.2.1 Exascale Supercomputer Development
3.1.2.1.1 United States
3.1.2.1.2 China
3.1.2.1.3 Europe
3.1.2.1.4 Japan
3.1.2.1.5 India
3.1.2.1.6 Taiwan
3.1.3 Supercomputers
3.1.4 High Performance Technical Computing
3.1.5 Market Segmentation Considerations
3.1.6 Use Cases and Application Areas
3.1.6.1 Computer Aided Engineering
3.1.6.2 Government
3.1.6.3 Financial Services
3.1.6.4 Education and Research
3.1.6.5 Manufacturing
3.1.6.6 Media and Entertainment
3.1.6.7 Electronic Design Automation
3.1.6.8 Bio-Sciences and Healthcare
3.1.6.9 Energy Management and Utilities
3.1.6.10 Earth Science
3.1.7 Regulatory Framework
3.1.8 Value Chain Analysis
3.1.9 AI to Drive HPC Performance and Adoption
3.2 Swarm Computing
3.2.1 Swarm Computing Technology
3.2.1.1 Ant Colony Optimization
3.2.1.2 Particle Swarm Optimization
3.2.1.3 Stochastic Diffusion Search
3.2.2 Swarm Intelligence
3.2.3 Swarm Computing Capabilities
3.2.4 Value Chain Analysis
3.2.5 Regulatory Framework
3.3 Neuromorphic Computing
3.3.1 Neuromorphic Computing Technology
3.3.2 Neuromorphic Semiconductor
3.3.2.1 Hardware Neurons
3.3.2.2 Implanted Memory
3.3.3 Neuromorphic Application
3.3.4 Neuromorphic Market Explained
3.3.5 Value Chain Analysis
3.4 Biocomputing
3.4.1 Bioinformatics
3.4.2 Computational Biology and Drug Discovery
3.4.3 Biodata Mining and Protein Simulations
3.4.4 Biocomputing Platform and Services
3.4.5 Biocomputing Application
3.4.6 Biocomputing Products
3.4.7 Value Chain Analysis
3.5 Quantum Computing
3.5.1 Quantum Simulation, Sensing and Communication
3.5.2 Quantum Cryptography
3.5.3 Quantum Computing Technology
3.5.4 Quantum Programming, Software and SDK
3.5.5 Quantum Computing Application
3.5.6 Value Chain Analysis
3.6 Serverless Computing
3.6.1 Serverless Computing Solution
3.6.2 Serverless Computing Application
3.6.2.1 Event Driven Computing
3.6.2.2 Live Video Broadcasting
3.6.2.3 Processing IoT Data
3.6.2.4 Shared Delivery Dispatch System
3.6.2.5 Web Application and Bakends
3.6.2.6 Application Scalability
3.6.2.7 Sales opportunities and Customer Experience
3.6.3 Value Chain Analysis
3.7 Brain Computer Interface Technology
3.7.1 BCI Overview
3.7.2 Invasive vs. Non-Invasive BCI
3.7.3 Partially Invasive BCI
3.7.4 BCI Applications
3.7.5 Silicon Electronics
3.7.6 Value Chain Analysis
3.8 Nanocomputing
3.8.1 Nanotechnology
3.8.2 Nanomaterials
3.8.3 DNA Nanocomputing
3.8.4 Nanocomputing Market
3.8.5 Value Chain
3.9 Artificial Intelligence and IoT
3.10 Edge Computing Network and 5G
3.11 Blockchain and Virtualization
3.12 Green Computing
3.13 Cognitive Computing

4.0 Company Analysis

5.0 Next Generation Computing Market Analysis and Forecasts

6.0 Conclusions and Recommendations

Companies Mentioned

  • 1QB Information Technologies Inc.
  • ABM Inc.
  • Advanced Brain Monitoring Inc.
  • Advanced Diamond Technologies Inc.
  • Advanced Micro Devices Inc.
  • Agilent Technologies Inc.
  • Airbus Group
  • Alibaba Group Holding Limited
  • Amazon Web Services Inc.
  • Apium Swarm Robotics
  • Atos SE
  • Booz Allen Hamilton Inc.
  • CA Technologies
  • Cambridge Quantum Computing Ltd.
  • Cisco Systems
  • D-Wave Systems Inc.
  • DELL Technologies Inc.
  • Emotiv
  • Fujitsu Ltd
  • Gemalto N.V.
  • Google Inc.
  • Hewlett Packard Enterprise
  • Huawei Technologies Co. Ltd.
  • IBM Corporation
  • Intel Corporation
  • Iron.io
  • Juniper Networks Inc.
  • Keysight Technologies
  • Lockheed Martin Corporation
  • LunchBadger
  • MagiQ Technologies Inc.
  • Microsoft Corporation
  • Mitsubishi Electric Corp.
  • NEC Corporation
  • Nokia Corporation
  • NTT Docomo Inc.
  • NVidia
  • Oracle Corporation
  • Qualcomm Inc.
  • Rackspace inc.
  • Raytheon Company
  • Rigetti Computing
  • Robert Bosch GmbH
  • Salesforce
  • Samsung Electronics Co. Ltd.
  • SAP SE
  • Schneider Electric SE
  • Serverless Inc.
  • Siemens AG
  • TIBCO Software Inc.
  • Toshiba Corporation
  • Volkswagen AG
  • Waters Corporation

For more information about this report visit https://www.researchandmarkets.com/r/t8mz38-generation?w=5

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