Future of Memory: Comprehensive Report on Non-Volatile Technologies

The global next generation non-volatile memory market size is expected to reach USD 18.23 billion by 2030 and is projected to grow at a CAGR of 17.8% from 2024 to 2030, according to a new study by Grand View Research, Inc. Increasing need for fast and economical storage solutions across diverse applications is estimated to drive industry growth over the forecast period.

Next Generation Non Volatile Memory is used for various applications such as enterprise, industrial and automotive to store and manage information, which is expected to augment market growth over the next six years. Increasing use of Next Generation Non Volatile Memory in mobile phones to enhance customer experience is expected to fuel market growth.

The increasing demand for wearable electronics and replacement of flash memory storage may provide new growth avenues to the Next Generation Non Volatile Memory industry. Low environment stability and high design cost may act as a restraint to market growth over the forecast period.

All common computing platforms from handheld devices to supercomputers use storage systems to store data permanently or temporarily. Smart cards store a few bytes of data and are expected to grow at a significant rate over the forecast period. Economical and efficient solution development is expected to be a critical success factor for industry players.

The Asia Pacific market is expected to grow at a considerable rate owing to increasing demand for smartphones and tablets. Additionally, presence of key market players in countries such as China, India, Japan and South Korea is also expected to positively impact the regional market over the forecast period.

Next Generation Non-Volatile Memory Market Report Highlights

In 2023, high-bandwidth memory (HBM) segment emerged as the market leader, capturing the largest revenue share of 59.1% owing to the growing need for high band-with, low power consumption and adoption of emerging technologies like AI & big data analytics and rising trend of consumer electronic devices.

BFSI accounted for the largest market revenue share of 23.1% in 2023. The BFSI sector extensively leverages IoT and AI technologies to achieve substantial benefits.

The next generation non volatile memory market in North America is projected to witness the fastest CAGR of 18.9% during the forecast period, driven by factors the increasing construction of new infrastructures like data centers and the rapid growth of the digital economy in countries such as the U.S. and Canada.

In 2023, Asia Pacific next generation nonvolatile memory market emerged as the leader in the market, capturing a significant revenue share of 49.20%, driven by factors inherent in its dynamic business environment.

Next Generation Non-Volatile Memory Market Segmentation

Grand View Research has segmented the global next generation non volatile memory market on the basis of product, application and region:

Next Generation Non-Volatile Memory Type Outlook (Revenue, USD Billion, 2018 - 2030)

Hybrid Memory Cube (HMC)

High-bandwidth Memory (HBM)

Next Generation Non-Volatile Memory Wafer Size Outlook (Revenue, USD Billion, 2018 - 2030)

200 mm

300 mm

Next Generation Non-Volatile Memory Application Outlook (Revenue, USD Billion, 2018 - 2030)

BFSI

Consumer Electronics

Government

Telecommunications

Information Technology

Others

Next Generation Non-Volatile Memory Regional Outlook (Revenue, USD Billion, 2018 - 2030)

North America

US

Canada

Mexico

Europe

UK

Germany

France

Asia Pacific

Japan

China

India

Australia

South Korea

Latin America

Brazil

Middle East & Africa

South Africa

Saudi Arabia

UAE

Order a free sample PDF of the Next Generation Non-Volatile Memory Market Intelligence Study, published by Grand View Research.

Next Generation Memory Market Trends and Analysis: Comprehensive Overview of Market Size, Share, Growth

The global next generation memory market size is estimated to reach at USD 22.65 billion in 2030, and is projected to grow at a CAGR of 17.6% from 2024 to 2030. Next-generation memory represents an innovative category of computer memory technologies currently under development. These advancements are aimed at overcoming the limitations associated with traditional memory types like DRAM and NAND Flash. Their primary objective is to offer significant improvements in areas critical to business success, including speed, reliability, energy efficiency, and data storage capacity. Notably, these technologies often provide higher data storage density, allowing organizations to maximize data storage in smaller physical spaces.

Embracing these state-of-the-art solutions can confer a competitive advantage, enabling faster and more efficient data processing, which is an imperative in today's data-centric business landscape. Moreover, emerging technologies such as Artificial Intelligence (AI), Machine Learning (ML), and edge computing heavily rely on memory technologies that facilitate swift access to extensive datasets. These advancements play a pivotal role in facilitating the creation and deployment of cutting-edge applications and services, further driving business innovation.

Next Generation Memory Market Report Highlights

Next-generation memory is a crucial component in modern computing systems, data centers, mobile devices, and a wide range of other applications where fast and reliable data processing is essential

Based on technology, the volatile segment is projected to grow at the fastest CAGR over the forecast period

Based on wafer size, the 200 mm segment is projected to grow at the fastest CAGR of 18.5% over the forecast period

Based on application, the telecommunication segment is projected to grow at the fastest CAGR of 18.5% over the forecast period

For More Details or Sample Copy please visit link @: Next Generation Memory Market Report

The increasing demand for faster data processing directly results from the growing complexity of contemporary applications and workloads, which generate massive volumes of data. This surge in data intensity underscores the critical need for advanced memory technologies capable of seamlessly adapting to the ever-evolving demands of computing systems. Furthermore, with the continuous expansion of the user base for mobile devices and Internet of Things (IoT) applications, the spotlight has shifted firmly toward non-volatile and low-power memory solutions. These innovations are pivotal in ensuring energy efficiency and data preservation, two vital factors significantly influencing mobile devices and IoT systems' performance and durability.

The rapid growth of data centers, particularly within the thriving cloud computing sector, calls for memory solutions that precisely balance speed and energy efficiency. Moreover, the COVID-19 pandemic has notably impacted the next-gen memory market. While the demand for cutting-edge memory technologies continues to grow, primarily due to the growing requirement for rapid and efficient data processing in remote work setups, e-commerce, and digital services, the pandemic has caused disruptions in global supply chains and manufacturing processes. These disruptions have led to delays in producing and distributing critical components essential for developing next-gen memory solutions. This, in turn, has affected the availability and pricing of these components, posing challenges for the industry.

List of major companies in the Next Generation Memory Market

Samsung

Micron Technology, Inc.

Fujitsu

SK HYNIX INC

Honeywell International Inc.

Microchip Technology Inc

Everspin Technologies Inc

Infineon Technologies AG

Kingston Technology Europe Co LLP

KIOXIA Singapore Pte. Ltd

For Customized reports or Special Pricing please visit @: Next Generation Memory Market Analysis Report

We have segmented the global next generation memory market based on technology, wafer size, application, and region.

Next-Generation Memory Market Revenue, Statistics, and Business Strategy Until 2032

Next-generation memory technologies are set to transform data storage and processing, offering faster speeds, higher capacities, and lower power consumption than traditional memory solutions. These advanced memory types, including Resistive RAM (ReRAM), Magnetoresistive RAM (MRAM), Phase-Change Memory (PCM), and 3D XPoint, are designed to meet the growing demands of modern applications such as artificial intelligence, big data analytics, cloud computing, and autonomous systems. With the limitations of traditional DRAM and NAND flash memory becoming more evident, next-generation memory solutions provide a path forward for industries that require faster, more efficient data handling and retrieval.

The Next-Generation Memory Market size was valued at USD 6.3 billion in 2022 and is expected to grow to USD 33.65 billion by 2030 and grow at a CAGR of 23.3% over the forecast period of 2023-2030.

Future Scope

The future of next-generation memory lies in its ability to address the needs of data-intensive applications. As AI, machine learning, and autonomous systems evolve, there will be an increasing demand for memory that can process large datasets with minimal latency. Next-generation memory solutions will enable faster training of AI models and real-time data processing, making them essential for technologies like self-driving cars, smart cities, and high-frequency trading systems. Additionally, as data centers become more power-conscious, the adoption of energy-efficient memory technologies will grow, reducing the environmental impact of large-scale data storage.

Trends

Key trends in next-generation memory include the move towards non-volatile memory (NVM) technologies, which retain data even when power is turned off, making them ideal for applications requiring persistent storage. Another trend is the development of memory technologies that can combine the speed of DRAM with the non-volatility of traditional storage. The rise of 3D memory architectures, where memory cells are stacked vertically, is also revolutionizing the industry by enabling higher storage densities. Furthermore, the increasing demand for memory solutions optimized for AI and machine learning workloads is driving innovation in next-generation memory technologies.

Applications

Next-generation memory technologies are being deployed across various industries, particularly in areas that require high-speed data processing and storage. In AI and machine learning, these memory solutions enable faster model training and real-time inference, improving overall system performance. Data centers are adopting next-generation memory to enhance data retrieval speeds while reducing energy consumption. In the automotive industry, next-generation memory is crucial for autonomous driving systems, where rapid data processing is needed for real-time decision-making. Consumer electronics, such as smartphones and laptops, also benefit from next-generation memory, with faster boot times and enhanced application performance.

Solutions and Services

Next-generation memory providers offer solutions that cater to the unique needs of high-performance computing and data storage applications. These solutions include high-speed memory modules, non-volatile storage options, and hybrid memory architectures that combine the best attributes of DRAM and flash storage. Service providers offer integration services, helping industries adopt next-generation memory into their existing infrastructure. Additionally, companies are developing software tools to optimize memory usage for AI and data analytics workloads, ensuring seamless integration and maximum performance from these cutting-edge memory technologies.

Key Points

Next-generation memory offers faster speeds, higher capacities, and lower power consumption.

Emerging memory technologies include ReRAM, MRAM, PCM, and 3D XPoint.

Non-volatile memory and 3D architectures are key trends shaping the future of memory.

Applications range from AI and machine learning to data centers and autonomous vehicles.

Solutions include high-speed modules, hybrid architectures, and memory optimization services.

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New Study: 2024-2030 Radiation Hardened Electronics Market Trend and Forecast Report

Radiation Hardened Electronics Industry Overview

The global radiation hardened electronics market size was estimated at USD 1.7 billion in 2023 and is expected to grow at a CAGR of 5.7% from 2024 to 2030.

The increasing global demand for electronic products, driven by rising consumer disposable income, is a crucial factor propelling the radiation-hardened (rad-hard) electronics market. The growing interest of consumers for electronic gadgets, and dependable and safe electronics, such as radiation-hardened components are likely to expand growth opportunities in the market.

Gather more insights about the market drivers, restrains and growth of the Radiation Hardened Electronics Market

Continuous research and development efforts in the electronic field contribute to market growth. The focus on enhancing the performance, reliability, and affordability of these specialized components is opening new opportunities in various sectors, including aerospace, defense, nuclear power plants, and healthcare. Ongoing advancements in materials science, design techniques, and testing methodologies are improving the performance and reliability of radiation-hardened electronics. These technological developments make these components more affordable and suitable for various applications.

The increased focus on environmental factors is boosting the use of radiation-hardened electronics. There is a growing need to monitor and minimize radiation exposure in different settings, particularly in North America, where environmental issues are gaining more attention. This increased consciousness drives a higher requirement for electronics that can function efficiently in challenging environments.

Browse through Grand View Research's Semiconductors Industry Research Reports.

The global next generation non-volatile memory market size was valued at USD 6.15 billion in 2023 and is projected to grow at a CAGR of 17.8% from 2024 to 2030. 

The global load break switch market size was estimated at USD 2.98 billion in 2023 and is projected to grow at a CAGR of 4.7% from 2024 to 2030..

Global Radiation Hardened Electronics Market Report Segmentation

This report forecasts revenue growth at global, regional, and country levels and provides an analysis of the latest industry trends in each of the sub-segments from 2018 to 2030. For this report, Grand View Research has segmented the global radiation hardened electronics market report based on component, manufacturing technique, product type, application, and region:

Component Outlook (Revenue, USD Million, 2017 - 2030)

Mixed Signal ICs

Processors & Controllers

Memory

Power Management

Manufacturing Technique Outlook (Revenue, USD Million, 2017 - 2030)

Radiation Hardening By Design (RHBD)

Radiation Hardening By Process (RHBP)

Product Type Outlook (Revenue, USD Million, 2017 - 2030)

Commercial off-the-Shelf

Custom Made

Application Outlook (Revenue, USD Million, 2017 - 2030)

Aerospace & Defense

Medical

Nuclear Power Plants

Space

Others

Regional Outlook (Revenue, USD Million, 2017 - 2030)

North America

U.S.

Canada

Europe

UK

Germany

France

Asia Pacific

China

Japan

India

South Korea

Australia

Latin America

Brazil

Mexico

Middle East and Africa

Saudi Arabia

UAE

South Africa.

Key Radiation Hardened Electronics Companies:

The following are the leading companies in the radiation hardened electronics market. These companies collectively hold the largest market share and dictate industry trends.

Advanced Micro Devices, Inc.

BAE Systems.

Honeywell International Inc.

Infineon Technologies AG

Microchip Technology Inc.

Renesas Electronics Corporation.

STMicroelectronics

Teledyne Technologies Incorporated.

Texas Instruments Incorporated

TTM Technologies Inc.

Order a free sample PDF of the Radiation Hardened Electronics Market Study, published by Grand View Research.

Non-volatile Memory Market Size, Status, Top Emerging Trends, Growth and Business Opportunities 2031

The global non-volatile memory (NVM) market is poised for unprecedented growth, with projections indicating a substantial surge from US$79 billion in 2024 to a staggering US$151 billion by 2031. This remarkable expansion is forecasted to be driven by a myriad of factors, including technological advancements, rising demand for data storage solutions, and a shifting landscape towards solid-state drives (SSDs).

For more information: https://www.fairfieldmarketresearch.com/report/non-volatile-memory-market

Unprecedented Growth Trajectory

Between 2019 and 2023, the non-volatile memory market experienced a significant growth spurt, attributed to escalating demands across key sectors such as electronics, automotive, and telecommunications. Building upon this momentum, the market is primed for sustained expansion from 2024 to 2031, fueled by the proliferation of data-driven technologies like Artificial Intelligence (AI) and the Internet of Things (IoT). Notably, the advent of next-generation NVM technologies such as Ferroelectric RAM (FeRAM) and Magnetoresistive RAM (MRAM) promises enhanced efficiency and performance, further bolstering market growth.

Key Drivers of Growth

The surge in non-volatile memory market is underpinned by several key determinants:

Technological Advancements: Continuous innovations in NVM technologies, including NAND flash and emerging solutions like 3D XPoint and MRAM, are driving market growth. These advancements result in increased storage capacities, faster data access speeds, and enhanced reliability, catering to the escalating demands across various applications.

Rising Demand for Data Storage: With the exponential growth of big data, IoT devices, and cloud computing services, there is an ever-growing need for high-performance, cost-effective, and energy-efficient storage solutions. NVM technologies fulfill this demand across diverse sectors, including IT, telecommunications, healthcare, and automotive.

Shift Towards Solid-State Drives (SSDs): The adoption of SSDs in consumer and enterprise markets is a significant growth driver for the NVM market. SSDs offer advantages such as faster read/write speeds, lower power consumption, and greater durability compared to traditional hard disk drives (HDDs), prompting more users to transition towards SSDs and thereby propelling the demand for NVM components.

Addressing Market Challenges

While the outlook for the non-volatile memory market is overwhelmingly positive, it is not without its challenges:

Cost Constraints: NVM technologies often incur high production costs due to intricate fabrication processes and materials involved, posing a barrier to market accessibility for smaller companies and startups.

Technological Complexity: Advancing NVM technologies face challenges related to miniaturization, scalability, and performance optimization, necessitating extensive research and development efforts.

Market Competition: The NVM market is fiercely competitive, with established players continually innovating and introducing new products. Competition can intensify price pressures and inhibit the market entry of emerging technologies or smaller companies.

Seizing Opportunities

Despite these challenges, several opportunities abound for market players:

Edge Computing Integration: The rising demand for edge computing presents a substantial opportunity for NVM market players. Edge devices require reliable storage solutions capable of handling data processing tasks efficiently in decentralized environments, thus creating a niche for NVM technologies.

Sustainable Storage Solutions: With sustainability becoming a key focus for businesses and consumers, there is a growing demand for eco-friendly storage solutions. NVM market players can capitalize on this trend by developing environmentally sustainable alternatives to traditional memory technologies.

Regulatory Influence

The regulatory landscape significantly shapes the NVM market, influencing aspects such as data security, environmental responsibility, innovation, and market stability. Strong intellectual property laws incentivize research in novel NVM technologies, while data privacy regulations drive innovation in encryption technologies.

Next-Generation Memory Market by Technology (Non-Volatile Memory (MRAM (STT-MRAM, SOT-MRAM, Toggle Mode MRAM), FRAM, RERAM/CBRAM, 3D XPoint, NRAM), and Volatile Memory (HBM, and HMC)), Wafer Size (200 mm, and 300 mm)

Samsung’s V-NAND Innovation On Track for 2024 Unveiling!

V-NAND Technology Upgrade

As the business that produces the most NAND memory chips in the world, Samsung has ambitious goals for the development of its V-NAND, which is what the company refers to as its 3D NAND. Some of these ambitions were shared with the public this week. The business has stated that its 9th Generation V-NAND memory would feature the largest number of active layers in the market and that it has confirmed that it is on schedule to develop its 9th Generation V-NAND memory with over 300 layers in the year 2024.

“The ninth-generation V-NAND is well under way for mass production early next year with the industry’s highest layer count based on a double-stack structure,” Jung-Bae Lee, President and Head of Memory Business at Samsung Electronics, said in a blog post. “The ninth-generation V-NAND is well under way for mass production early next year with the industry’s highest layer count based on a double-stack structure.”

In August, we found out that Samsung was hard at work on the 9th Generation of V-NAND, which would have over 300 layers and will continue to use the double-stacking technique that Samsung used for the first time in 2020. Not only did Samsung affirm that it is on track with the development of its next-generation non-volatile memory, but it also stated that it will supposedly feature more active layers than the 3D NAND memory produced by Samsung’s competitors. Since we already know that the next generation of 3D NAND from SK Hynix will have 321 active layers, it would imply that Samsung anticipates that their memory will have even more.

Samsung will be able to boost the storage density of its 3D NAND devices because to the increased number of layers it has implemented. The business anticipates that future varieties of flash memory will not only improve in terms of storage density but also in terms of performance.

“Samsung is also working on the next generation of value-creating technologies, including a new structure that maximizes V-NAND’s input/output (I/O) speed,” according to Jung-Bae Lee.

Even though we do not know what kind of performance we can anticipate from Samsung’s 9th Generation V-NAND, we can be certain that the company will employ this memory for its next solid-state drives (SSDs). It is possible that this is when we will see the company’s retail SSDs with a PCIe Gen5 interface. These SSDs will be the successors of Samsung’s 990 Pro series, which are now among the top SSDs on the market.

In terms of technological innovation aimed at the longer term, Samsung is committed to achieving the lowest cell sizes in the industry by eliminating cell interference, lowering height, and maximizing the number of vertical layers. These goals will allow Samsung to achieve the smallest cell sizes in the industry. These advancements will play a significant role in pushing Samsung’s aim of building 3D NAND with over 1000 layers as well as highly differentiated memory solutions, and in ensuring that the company’s products and services continue to be relevant for datacenters, personal computers, and other applications.

Read more on Govindhtech.com

Non-Volatile Next Generation Memory Technologies Market To Receive Overwhelming Hike In Revenues By 2030

The Non-volatile next generation memory technologies market research examines constantly changing business trends, important industry segments, large investment pockets, value chains, the competitive landscape, and regional conditions in detail. The Non-volatile next generation memory technologies market research analyzes the growth rate, product price, profit, production capacity, production, supply, demand, market growth rate, and forecast of major regions of the world through 2030.  

It is estimated that during the forecast period from 2022 to 2030, the average annual growth rate of The Non-volatile next generation memory technologies market is higher than the previous one. Study the Non-volatile next generation memory technologies market using various techniques and analyses to provide reliable and detailed information about the industry. To better understand the market, it is broken into several parts to cover different elements, and an in-depth study of each area will allow readers to better understand the growth potential of each region.  

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Key questions answered in the report: 

What are the opportunities and challenges for newcomers? 

Who are the leading suppliers in the world Non-volatile next generation memory technologies market? 

Which segment offers the greatest opportunities for market growth? 

Where will current developments take the industry in the long term? 

Segmentation of Global Non-volatile next generation memory technologies Market

The study covers the competitive landscape of the major manufacturers

Samsung (South Korea) Toshiba (Japan) Micron (US) Intel (US) Western Digital (US) SK Hynix (South Korea) Fujitsu (Japan) Everspin (US) Adesto (US) Microchip (US) Avalanche (US) Cypress (US) 

Breakdown by Type: 

ReRAM STT-MRAM 3D XPoint 

Segmentation by Application: 

Mobile phones Cache memory and enterprise storage Industrial and automotive 

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Regional analysis: 

For the projection period 2022 to 2030, assumptions are made about the production volume and the business share of the individual regions in the industrial market. To help stakeholders make quick and informed decisions, the Non-volatile next generation memory technologies market study also provides an overview of the regional industry in terms of volume and consumption value, as well as price trends and profit margins.  

The industry research for Non-volatile next generation memory technologies provides an in-depth analysis of market growth and other factors in key Countries (Regions) including: 

- North America (the US, Canada, and Mexico) 

- Europe (Germany), France, UK, Russia, Italy and Rest of Europe) 

- Asia Pacific (China, Japan, Korea, India, Southeast Asia, and Australia) 

- South America (Brazil, Argentina, Colombia, and rest of South America) 

- Middle East and Africa (Saudi Arabia, United Arab Emirates, Egypt, South Africa, and the rest of the Middle East and Africa) 

Highlights of Non-volatile next generation memory technologies Market Report

- A complete context analysis that provides an assessment of the market 

- Major changes in business dynamics 

- Industry segmentation into the second or third level 

- Historical, current, and forecast market size in value and volume view 

- Report and evaluate information on the latest industry developments

- Market shares and strategies of the main players 

- Emerging niche segments and regional markets 

- An objective assessment of the industry development 

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Customization available: 

Global Non-volatile next generation memory technologies Market Research can be adapted to your individual business needs be adjusted. We offer a customization service for custom reports because we understand what they want. 

The Impact of Covid19: 

The study considered the impact of COVID-19 on business growth. This report provides a detailed introduction to the impact of the COVID19 pandemic on the Non-volatile next generation memory technologies market and its key market segments. current and future consequences of the pandemic as well as post-COVID19 scenarios to enable a deeper understanding of the market dynamics. 

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Weebit Nano Rises on ReRAM Update

On Thursday, Weebit Nano [ASX:WBT] said it’s made significant progress, with new results showing its ReRAM technology fits embedded and discrete applications. On Thursday, Weebit Nano [ASX:WBT] said it’s made significant progress, with new results showing its ReRAM technology fits embedded and discrete applications. WBT thinks this result ‘greatly increases the number of possible applications for Weebit’s technology’. WBT shares were up 4.5% in late Thursday trade. Year-to-date, WBT is down 25%: www.TradingView.com Weebit’s new ReRAM developments On Thursday, Weebit announced noteworthy progress in its ReRAM technology. The company achieved this milestone together with development partner CEA-Leti, a micro and nanotechnology pioneer. Weebit reported that, together with CEA-Leti, it was able to show the potential of its ReRAM selector to achieve the densities required for ‘discrete chips using standard materials and tools’. WBT thinks the selector technology, by fitting embedded applications, can enable ‘unprecedented non-volatile memory (NVM) densities for future system-on-chips (SoCs)’. Why is this technology worthwhile to pursue commercially? In Weebit’s words: ‘Developing cost-efficient selectors using only standard materials and tools is a significant challenge, but has the potential to further minimise manufacturing cost and complexity. While additional development is still required, this new selector technology could be easily integrated into any CMOS fab, potentially enabling the high-capacity memory arrays needed while keeping size and power to a minimum.’ Weebit’s CEO, Coby Hanoch, commented: ‘We have worked hard to create a ReRAM selector that can achieve high densities using fab-friendly materials and standard tools, and accomplishing this is a significant development for Weebit. Such a selector will make it easy and cost-effective for any foundry to integrate the technology into existing processes and offer it to their customers. ‘In addition, we’re breaking down a barrier by making it possible to use the same selector for both discrete and embedded applications. This is an important step forward on our roadmap for discrete products and is a compelling value proposition for companies developing advanced SoCs for applications like edge AI, which need a reliable, cost-effective replacement for embedded flash. “Ongoing selector development will be carried out in parallel to rolling out our embedded technology to mass production.”’ Next-gen tech and bitcoin’s march to US$1 million Weebit considers itself a leading developer of next-generation semiconductor memory tech. But semiconductor memory tech isn’t the only thing undergoing an upheaval. You could argue that money itself is in the process of a technological revolution. And Bitcoin [BTC] could be the next generation — or iteration — of money. Yes, bitcoin has been hyped plenty. But hype often follows substance — excitement at a potentially game-changing technological development or breakthrough. Our leading crypto expert Ryan Dinse has just recently released a presentation on bitcoin, where it’s going, and why it’s so important. He argues that bitcoin’s importance will grow so much that it could see an explosion in its price. Ryan thinks bitcoin going to US$1 million by 2030 isn’t so far-fetched. US$1 million by 2030? It might sound ludicrous, especially as bitcoin is currently hovering around US$19,000 and is down 60% over the past 12 months. But Ryan thinks the idea isn’t ludicrous. And he’s actually preparing for the next crypto bull market. In this exclusive presentation he lays down his arguments for how bitcoin can hit US$1 million by 2030. It’s worth a watch! Regards, Kiryll Prakapenka For Money Morning Source link Originally published at Melbourne News Vine