Global Enterprise SSD Market 2023-2030

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    GLOBAL ENTERPRISE SSD MARKET

     

    INTRODUCTION

     

    For usage in storage systems, servers, and direct-attached storage (DAS) devices, an enterprise SSD (enterprise solid-state drive; sometimes known as an enterprise solid-state disc) is a device that stores data persistently or caches data momentarily in nonvolatile semiconductor memory.

     

    NAND flash memory is typically used in enterprise SSDs, which perform better than spinning hard disc drives (HDDs) and use less power. However, these SSDs typically cost more.

     

    The characteristics that set enterprise SSDs apart from consumer or client SSDs used in PCs, laptops, and tablet computers may vary depending on the manufacturer and market research company. In comparison to a client or consumer SSD, a corporate SSD often offers a higher level of endurance.

     

    GLOBAL ENTERPRISE SSD MARKET SIZE AND FORECAST

     

    infographic: Enterprise SSD Market, Enterprise SSD Market Size, Enterprise SSD Market Trends, Enterprise SSD Market Forecast, Enterprise SSD Market Risks, Enterprise SSD Market Report, Enterprise SSD Market Share 

    The Global Enterprise SSD market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.

     

    NEW PRODUCT LAUNCH

     

    Samsung Electronics, a leading manufacturer of memory chips unveiled a high-performance enterprise SSD that supports the most recent serial attached SCSI (SAS) interface. According to Samsung, the PM1653 is the first 24G SAS SSD on the market produced using sixth-generation V-NAND memory chips, and it has a storage capacity that ranges from 800 GB to 30.72 TB for enterprise server systems.

     

    An interface for high-speed data transport used by servers or storage for powerful computers is called SAS. Two times as much speed can be supported by the most recent 24G SAS, or SAS-4 standard, as compared to the 12G SAS-3 version.

     

     The PM1653 was designed with high-performance enterprise servers in mind, providing the fastest random read speed in the market (up to 800K IOPS),

     

    Solid-state drives for data centres have been introduced by US NAND flash memory solutions provider Solidigm and South Korean memory chip manufacturer SK Hynix. Since the second-largest memory chip manufacturer in the world purchased San Jose-based Solidigm’s SSD division, the new product, known as P5530, is their first joint venture.

     

    P5530 will combine the 128-layer NAND flash technology from SK Hynix with the SSD controller and software know-how from Solidigm. The bulk production of 128-layer NAND flash storage devices has begun at SK Hynix. 

     

    The drives will be offered in 1-terabyte, 2-terabyte, and 4-terabyte variants and will support the PCIe Gen 4 interface, according to the businesses.

     

    The flash memory and controller made by KIOXIA are equipped with their corporate SSDs, which provide excellent reliability, data protection using power-loss protection (PLP) and encryption technology to serve business settings and applications. The systems will be more energy-efficient because of their small size and low power requirements.

     

    The FL6 series uses low latency, high durability KIOXIA XL-FLASH Storage Class Memory and is a dual-port PCIe® 4.0 / NVMeTM SSD (SCM). For latency-sensitive applications like server caching, write logging, and read/write cache for tiered storage in businesses and hyperscale data centres, it offers quick system response.

     

    The Data Center DC500M Enterprise SSD is now available, according to Kingston Digital, Inc., the Flash memory division of Kingston Technology Company, Inc., a leader in memory products and technology solutions. The business started distributing its DC500R SSD, which is designed for read-centric applications.

     

    The DC500M is developed for mixed-use workloads in programmes with more evenly distributed read and write I/O requirements on the SSD. It is perfect for software-defined storage architects and cloud service providers who require an adaptable infrastructure to efficiently manage transactional workloads.

     

    The world leader in NAND flash controller and storage solutions, Phison Electronics Corp., today announced the release of its X1 controller-based solid state drive (SSD) platform, which offers the most cutting-edge enterprise SSD solution in the market. 

     

    The X1 SSD greatly increases computational power while using less energy and offers a cost-effective platform that removes bottlenecks.

     

    A new generation of Artificial Intelligence (AI) has been empowered by X1 SSD to provide data and insights that may be used to explore adaptive models in a number of significant areas, including science, education, healthcare, and others.

     

    With best-in-class performance and exceptional endurance to carry enterprise data over the long haul, the X1 SSD is built to handle enterprise workloads.

     

    An innovative NAND algorithm used in a new generation of enterprise NVMe SSDs from Inspur Information, a top provider of IT infrastructure solutions, extends the lifespan of flash memory by 40% while enabling 1.6 million IOPS per drive using PCIe 4.0 ultra-wide channel and ZNS (Zoned Namespace) storage.

     

    Inspur’s storage system ranked first for storage performance in the SPC-1 benchmark test thanks in large part to this SSD technology, which has also improved Inspur’s core competitiveness for storage in terms of reliability, performance, and system-level joint debugging and optimization.

     

    Micron has introduced the 7450 range in the same M.2, U.3, and E1.S form factors as well as Max and Pro variants, six months after releasing its 7400 PCIe gen 4 Enterprise SSD.

     

    Similar to the 7400’s 96-layer flash, the new 7450 employs Micron’s 176-layer 3D NAND, configured in TLC (3 bits/cell) format. simultaneously with PCIe Gen4 becoming the most widely used SSD interface in servers, Micron debuted the 7450 SSD.

     

    This item… enables quality of service in scale-out data centre workloads by bringing constant, dependable latencies below 2 milliseconds.

     

    The new DC600M Enterprise SSD has been launched by Kingston Digital, Inc., a subsidiary of Kingston technological Company, Inc. that specialises in flash memory. Kingston Technology Company, Inc. is a global leader in memory products and technological solutions.

     

    Assuring consistent latency and IOPS to meet SLAs, the DC600M is optimised for mixed-use applications with good Quality of Service (QoS)1.

     

    High-volume rack-mount servers can employ the DC600M, a 6Gbps SATA 3.0 storage device with 3D TLC NAND. The drive has hardware-based on-board power loss protection with power loss capacitors to safeguard data against unexpected power failure, lowering the chance of data loss, and ensuring the drive successfully re-initializes on the following system power-up.

     

    System integrators, hyperscale data centres, and cloud service providers may depend on the DC600M to deliver consistent low latencies across a broad range of read and write workloads.

     

    Enterprise SSD quality of service is crucial because workloads and data centres need stability and low latency for predictable storage performance levels to adhere to stringent client SLAs.

     

    Further factor in its enterprise-class durability, stringent QoS specifications, and legendary sales support from Kingston, the DC600M is also AES 256-bit encrypted, making it the ideal data centre storage solution.

     

    Two new enterprise SSDs from Micron are being launched. The Enterprise SSDs from the Micron 6500 ION range come first. We received two 30.72TB 6500 ION drives from Micron to experiment with, and I have had some time to put these drives through their paces.

     

    Additionally, Micron is introducing the Micron XTR, an SLC-based drive designed for high-intensity write applications like front-line cache arrays. We just have the press materials for the XTR, no drive in the house. Both U.3 and E1.L form factors of the Micron 6500 ION SSD will be offered at the 30.72TB capacity level.

     

    While none of this is particularly novel, read performance pushing at the same levels as TLC drives is unquestionably commendable. Although Micron claims a 5-year guarantee, many 6500 ION drives will actually be covered by a vendor rather than Micron directly.

     

    These are capacity drives, therefore historically, endurance would be the main issue. According to Micron, the 6500 ION can handle a minimum of 0.3 DWPD and can scale up from there depending on your particular workload. The Micron 6500 ION is designed to be used as primary storage for larger datasets with higher read demands.

     

    With a capacity of 30.72TB and TLC NAND technology, it is not intended to be utilised as a cache drive. I believe that we have attained endurance levels high enough that they no longer need to be the main focus of the spec sheet for this drive, scaling up to a minimum of 0.3 DWPD scaling up to 1.0 DWPD. In that vein, Micron asserts relatively low power consumption, even when just reading.

     

    Large-capacity Enterprise Series SSDs from Apacer have been launched and are excellent for industrial applications. Windows Hardware Quality Lab and VMware Ready certifications are anticipated to be obtained soon.

     

    It offers complete data protection and is best suited for use in a data centre or edge server thanks to value-added features like data encryption and power-off prevention technology. The primary function of most enterprise SSDs is as a boot drive or extra storage, although in most situations, this does not fully utilise the disc’s storage capacity.

     

    Apacer’s Enterprise SSD can be flexibly configured as a boot device or a storage device via user-adjustable parameters, depending on the actual application behaviour and requirements of organisations.

     

    In order to guarantee that the drive’s multifunctional performance satisfies high-speed and mass transmission requirements, Apacer maintains consistent performance in QoS (quality of service), IOPS (input/output operations per second, a measure of the number of reads and writes per second), and DWPD (drive writes per day, hard disc daily write volume).

     

    The security of data storage is crucial in the transfer of data over the cloud. AES (advanced encryption standard) is one of the value-added technologies that Apacer offers to guarantee extremely safe encryption.

     

    One major benefit of self-encrypting drives is the availability of TCG Opal specifications, which offer pre-boot authentication and distribute the content of data that different users can access through firmware technology.

     

    Furthermore, the issue of how to best provide stable and predictable data transmission is crucial because enterprise storage technology utilises dozens or even hundreds of hard discs that are functioning concurrently rather than just one.

     

    Unexpected power outages, which can result in device failure or data loss, are another issue. When the SSD suffers an unexpected power failure, Apacer’s CorePower technology helps keep data transmission going. In order to provide enterprise users with dependability and stability, these three technologies are used to establish a safe transmission method.

     

    SSD storage requirements have shifted from large-scale data centres to small and medium-sized application fields, such as data centres in the financial or telecommunications industry, and cloud computer rooms, as a result of the development of technologies like the cloud, the Internet of Things, high-speed computing, and big data.

     

    A rise in server demand is anticipated when this is combined with the recent drop in memory prices and ChatGPT, which is taking the world by storm. Customers will be able to improve their modest operations thanks to the current availability of enterprise-level SSDs, which is anticipated to have positive effects on operations.

     

    NEW TECHNOLOGY

     

    DDN QLC SSD storage delivers 10x speed for AI and data centres at any scale.A significant development for DDN’s all-flash and hybrid storage solutions has been made, according to the company, a pioneer in artificial intelligence (AI) and multi-cloud data management solutions.

     

    In generative AI, machine learning, and other business high-performance applications, DDN’s parallel file system technology, paired with AI and data centre-specific data compression, gives the maximum performance efficiency.

     

    DDNs new AI400X2 QLC and hybrid storage arrays combine DDNs parallel file system with novel client-side data compression, eliminating the need for complicated networking and severely constrained performance found in other data storage solutions.

     

    This results in performance increases of up to 10x, increases in effective capacity of up to 15x, and a 2x decrease in data centre footprint.Application performance is directly impacted by DDN appliances since they control and optimise the whole data route. Additionally, the platform requires less infrastructure, draws less power, and uses less space in data centres.

     

    AI storage needs specialised infrastructure tailored to support data-hungry operations. While generative AI is making headlines, other exciting applications such as ultra-realistic 3D and immersive universes in gaming, sophisticated new protein and molecule creations for drug discovery, and autonomous driving are also fueling the need for reliable, dependable performance that is easily scalable.

     

    Customers may increase storage capacity by adding more appliances or enclosures without re-architecting to suit growing performance or capacity requirements, starting with as little as a single 2U appliance with no extra components.

     

    Furthermore, by exchanging network traffic for more available CPU cycles, DDN’s EXAScaler parallel file system with client-side compression can enhance performance. The sole industry-wide method for managing generative AI is DDN’s brand-new, incredibly efficient QLC storage technology.

     

    THIS REPORT WILL ANSWER FOLLOWING QUESTIONS

    1. How many Enterprise SSDs are manufactured per annum in Globally ? Who are the sub-component suppliers in different regions?
    2. Cost breakup of a Enterprise SSD and key vendor selection criteria
    3. Where is the Enterprise SSD Manufactured? What is the average margin per unit ?
    4. Market share of Enterprise SSD manufacturers and their upcoming products
    5. Cost advantage for OEMs who manufacture Enterprise SSD in-house
    6. key predictions for next 5 years in Enterprise SSD      
    7. Average B-2-Bl Enterprise SSD price in all segments
    8. Latest trends in Enterprise SSD ,by every market segment
    9. The market size (both volume and value) of the Enterprise SSD market in 2023-2030 and every year in between?
    10. Production Enterprise SSD ,by suppliers and their OEM relationship
    1 Market Segmentation
    2 Scope of the report
    3 Abbreviations
    4 Research Methodology
    5 Executive Summary
    6 Introduction
    7 Insights from Industry stakeholders
    8 Cost breakdown of Product by sub-components and average profit margin
    9 Disruptive innovation in the Industry
    10 Technology trends in the Industry
    11 Consumer trends in the industry
    12 Recent Production Milestones
    13 Component Manufacturing in US, EU and China
    14 COVID-19 impact on overall market
    15 COVID-19 impact on Production of components
    16 COVID-19 impact on Point of sale
    17 Market Segmentation, Dynamics and Forecast by Geography, 2023-2030
    18 Market Segmentation, Dynamics and Forecast by Product Type, 2023-2030
    19 Market Segmentation, Dynamics and Forecast by Application, 2023-2030
    20 Market Segmentation, Dynamics and Forecast by End use, 2023-2030
    21 Product installation rate by OEM, 2023
    22 Incline/Decline in Average B-2-B selling price in past 5 years
    23 Competition from substitute products
    24 Gross margin and average profitability of suppliers
    25 New product development in past 12 months
    26 M&A in past 12 months
    27 Growth strategy of leading players
    28 Market share of vendors, 2023
    29 Company Profiles
    30 Unmet needs and opportunity for new suppliers
    31 Conclusion
    32 Appendix
     
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