市场调查报告书
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下一代非挥发性记忆体全球市场评估:按类型、晶圆尺寸、组织规模、最终用户、地区、机会、预测(2016-2030)Next Generation Non-Volatile Memory Market Assessment, By Type, By Wafer Size, By Organization Size, By End-user, By Region, Opportunities and Forecast, 2016-2030F |
全球下一代非挥发性记忆体市场规模近年来呈现显着成长,预计未来几年将保持稳定的扩张速度。 预计2022年营收约28.2亿美元,预计2030年将达78亿美元,2023年至2030年复合年增长率为13.6%。
该市场是一个高度动态和进步的领域,对于推动不同行业的高品质图形和视觉计算至关重要。 通用记忆体的采用在全球范围内显着增加。 这一趋势以及电子产业的繁荣是市场扩张的主要动力。
此外,智慧型手机、平板电脑、USB 驱动器和 SSD 的销售量不断增长,推动了对 NAND 快闪记忆体和其他无需能源即可保留资料的非挥发性储存技术的需求。 此外,HBM 是一种先进的图形记忆体技术,在尖端图形、网路、HPC 和 AI 系统中迅速普及。 HBM 用于解码器、全自动车辆、神经网路设计以及其他需要低功耗和高频宽的复杂应用。 此外,穿戴式装置的使用不断增加、连网汽车的广泛采用以及 IT 产业的显着扩张预计将对未来几年的市场前景做出积极贡献。
云端运算和资料中心对于塑造非挥发性记忆体市场至关重要。 云端运算需要快速的资料存取和处理。 NAND快闪记忆体等非挥发性储存技术提供了高速读写能力,大大提高了资料检索效率。 储存和管理大量资料集的资料中心需要可扩充、节能且可靠的储存解决方案。 SSD 等非挥发性记忆体晶片符合这些标准,可提供更快的资料存取、更低的延迟和最低的功耗。
随着云端服务的扩展,对此类记忆体解决方案的需求不断增加。 基于云端的平台利用非挥发性记忆体来支援即时应用程式、大数据分析和人工智慧。 非挥发性记忆体技术的可靠性和低延迟特性对于这些高阶运算任务至关重要。 资料中心受益于非挥发性记忆体的灵活性,使其能够无缝适应不断变化的工作负载和动态资源分配。 云端运算和资料中心的持续创新正在推动非挥发性记忆体技术的研究和开发,以确保这些解决方案满足数位环境不断变化的需求,并成为云端和资料中心基础设施的重要组成部分。我是。
随着智慧型手机在全球的普及,对大容量、节能储存解决方案的需求显着增加。 非挥发性储存技术,尤其是 NAND 闪存,是智慧型手机的重要组成部分,可以以最低的功耗快速存取应用程式、照片和影片。 此外,物联网生态系统由智慧消费性电子产品、穿戴式装置和工业感测器等各种连接设备组成,大量使用非挥发性记忆体进行资料储存和检索。 这些设备通常以低功耗运行,需要可靠的记忆体解决方案来进行持久性资料储存。 随着智慧型手机和物联网设备的不断普及,非挥发性记忆体产业正在呈现持续成长,这是因为需要高效、紧凑和可靠的储存解决方案来支援不断扩大的数位环境。
北美正在迅速拥抱尖端技术和基础设施,其中 IT 产业在美国发挥着至关重要的作用。 技术的快速发展和各行业数据的显着增加需要更有效率的处理系统,从而推动了该地区对下一代记忆体解决方案的需求。
本报告研究和分析了全球下一代非挥发性记忆体市场,提供市场规模和预测、市场动态以及主要参与者的现状和前景。
Global next generation non-volatile memory market has experienced significant growth in recent years and is expected to maintain a strong pace of expansion in the coming years. With projected revenue of approximately USD 2.82 billion in 2022, the market is forecasted to reach a value of USD 7.8 billion by 2030, displaying a robust CAGR of 13.6% from 2023 to 2030.
The next generation non-volatile memory market is a highly dynamic and progressive sector that is pivotal in enhancing high-quality graphics and visual computing across diverse industries. There is a notable increase in the global adoption of universal memory. The trend is coupled with the booming electronics sector, as a significant driving force behind the market's expansion.
Additionally, the rising sales of smartphones, tablets, universal serial bus (USB) drives, solid-state drives (SSD), fueling the demand for NAND flash memory, and a non-volatile storage technology that retains data without requiring energy. Furthermore, high-bandwidth memory (HBM), an advanced memory technology for graphics, is swiftly finding applications in cutting-edge graphics, networking, high-performance computing (HPC), and artificial intelligence (AI) systems. HBM is being utilized in decoders, fully autonomous vehicles, neural network designs, and other sophisticated applications that demand low power consumption and extensive bandwidth. Further, the increasing use of wearable devices, the growing prevalence of connected cars, and substantial expansion in the IT sector are anticipated to contribute positively to the market's outlook in the coming years.
Cloud computing and data centers are pivotal in shaping the non-volatile memory market. In cloud computing, rapid data access and processing are essential. Non-volatile memory technologies, like NAND flash, offer high-speed read/write capabilities, significantly enhancing data retrieval efficiency. Data centers, which store and manage massive datasets, require scalable, energy-efficient, and reliable storage solutions. Non-volatile memory chips, such as SSDs, meet these criteria, ensuring faster data access, reducing latency, and minimizing power consumption.
As cloud services expand, the demand for these memory solutions intensify. Cloud-based platforms utilize non-volatile memory to support real-time applications, big data analytics, and artificial intelligence. Features like reliability and low-latency of non-volatile memory technologies are vital for these advanced computing tasks. Data centers benefit from the flexibility of non-volatile memory, allowing seamless adaptation to changing workloads and dynamic resource allocation. Continuous innovation driven by cloud computing and data centers fuels research and development in non-volatile memory technologies, ensuring that these solutions meet the evolving demands of the digital landscape, making them indispensable components in the cloud and data center infrastructure.
For example, Cloudscene reported that in 2022 there will be 2,701 data centers in the United States. Vantage Data Centers revealed plans for a substantial investment of CAD 900 million (equivalent to USD 721.1 million) to expand its operations in Canada which further influenced the installation of non-volatile memory like SSD, FERAM, MRAM.
With the increasing adoption of smartphones globally, the demand for high-capacity and energy-efficient storage solutions rises significantly. Non-volatile memory technologies, particularly NAND flash, are essential smartphone components, providing quick access to apps, photos, and videos while consuming minimal power. Additionally, the IoT ecosystem, comprising various connected devices like smart home appliances, wearables, and industrial sensors, heavily relies on non-volatile memory for data storage and retrieval. These devices often operate on low power and require reliable memory solutions to store data persistently. As the number of smartphones and IoT devices continue to soar, the non-volatile memory industry experiences sustained growth, driven by the need for efficient, compact, and dependable storage solutions to support the expanding digital landscape.
For example, in November 2021, Macronix International Co., Ltd. became the first Serial NOR Flash memory manufacturer to commence mass production of 1.2V devices. The company introduced ultra-low power (ULP), high-speed 120MHz MX25S Serial NOR Flash memories, marking a significant advancement in the non-volatile memory market. The cutting-edge devices are designed for new products aimed at applications such as Internet of Things (IoT), wireless communications technologies, WiFi, Narrowband IoT systems, handheld, Bluetooth devices, and consumer applications. The development represents a noteworthy leap in the industry's technology landscape, catering to the demands of emerging technologies and fostering innovation in multiple sectors.
The non-volatile chip memory industry faces a significant challenge in the form of high design costs. These elevated expenses act as a deterrent to the growth and development of the sector. Designing intricate and technologically advanced non-volatile memory chips demands substantial financial resources, which often hampers the industry's progress. Companies invest significant amounts in research, development, and testing to create innovative and efficient memory solutions. These high costs affect the overall affordability and accessibility of non-volatile memory products.
To address the challenge, the industry players aim to streamline the design process, reduce complexities, and optimize production efficiency. Collaborative efforts between manufacturers, researchers, and policymakers can potentially lead to more cost-effective design methods, fostering innovation and sustainability in the non-volatile chip memory industry.
North America has quickly embraced cutting-edge technologies and infrastructure, with the IT industry playing a pivotal role in the United States. The rapid evolution of technologies and the substantial increase in data across various sectors necessitate more efficient processing systems, fueling the demand for next-generation memory solutions in the region.
North America is transitioning from individual devices and system storage to central cloud and network edge solutions. According to a survey conducted by Intel Security, companies' adoption of hybrid cloud services has tripled compared to previous levels. Cloud providers are enhancing the security of cloud services, providing organizations with more dependable and robust systems, which has been proven highly beneficial.
The Data Center Optimization Initiative (DCOI) launched by the United States government aims to enhance public services and improve taxpayer investment returns. The initiative involves consolidating numerous data centers nationwide, building large-scale facilities, and shutting down underperforming ones. The consolidation efforts are anticipated to open new avenues for the non-volatile memory market, leading to growth.
The COVID-19 pandemic significantly impacted the global next-generation non-volatile memory market. Initially, there were disruptions in the supply chain due to factory closures and transportation restrictions leading to delays in production and delivery of memory components. Also, the global economic uncertainty caused a slowdown in investments and spending across several industries, affecting the demand for non-volatile memory solutions.
However, as the pandemic accelerated the digital transformation of businesses, and increased the reliance on remote work, online services, and data storage, there was a growing need for high-performance and reliable memory solutions. The shift in demand positively influenced the market. Additionally, the healthcare sector, which faced unprecedented challenges during the pandemic, increased investments in technologies such as AI-driven diagnostics and genomic research, driving the demand for advanced non-volatile memory in these applications.
Global next generation non-volatile memory market is witnessing a swift growth trajectory due to the increasing emphasis placed by companies worldwide on establishing advanced digital infrastructure. Furthermore, the market expansion is greatly facilitated by increasing users in gaming industry, along with significant investments made by companies to enhance research and development resources, engage in collaboration projects, bolster marketing efforts, and expand distribution networks. These factors collectively contribute to the rapid expansion of the market.
In August 2022, Samsung unveiled the commencement of mass production for its 8th generation vertical NAND (V-NAND) chips, designed to enhance storage capacity in upcoming server systems. These chips boast the industry's highest bit density and storage capacity, enabling organizations to significantly increase storage capabilities in the next generation of enterprise servers. These advanced chips are also anticipated to extend their utility in the automotive market.
All segments will be provided for all regions and countries covered:
Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.