HexaData HD‑H231‑H60 Ver Gen001 – 2U High-Density Dual‑Node Server

The HexaData HD‑H231‑H60 Ver Gen001 is a 2U, dual-node high-density server powered by 2nd Gen Intel Xeon Scalable (“Cascade Lake”) CPUs. Each node supports up to 2 double‑slot NVIDIA/Tesla GPUs, 6‑channel DDR4 with 32 DIMMs, plus Intel Optane DC Persistent Memory. Features include hot‑swap NVMe/SATA/SAS bays, low-profile PCIe Gen3 & OCP mezzanine expansion, Aspeed AST2500 BMC, and dual 2200 W 80 PLUS Platinum redundant PSUs—optimized for HPC, AI, cloud, and edge deployments. Visit for more details: Hexadata  HD-H231-H60 Ver: Gen001 | 2U High Density Server Page

Advantages of PCIE produced by Chinese manufacturers

PCI Express (Peripheral Component Interconnect Express), commonly known as PCIe, is a high-speed interface standard for connecting various components in a computer system. It is widely used in modern desktops, laptops, servers, and other computing devices to enable high-speed data transfer between components such as graphics cards, network cards, storage devices, and more. PCIe technology has evolved over the years, offering increased bandwidth and improved performance compared to older interface standards like PCI and AGP.

Chinese manufacturers have been playing an increasingly important role in the production of PCIe components, offering a wide range of products that cater to the needs of different market segments. In this article, we will discuss the advantages of PCIe produced by Chinese manufacturers, highlighting the key features and benefits that make them a preferred choice for many customers.

Advantages of PCIe produced by Chinese manufacturers:

Cost-effective solutions: Chinese manufacturers are known for their ability to offer cost-effective solutions without compromising on quality. By leveraging their expertise in manufacturing and economies of scale, Chinese companies are able to produce PCIe components at competitive prices, making them an attractive option for customers looking to build high-performance computing systems on a budget.The chart compares one of AMP's products with that of Chinese manufacturer HOYATO.------AMP 649-18783-10100TLF vs.Hoyato PCIECP10-36GX. We can clearly find that there is little difference between the two products in the comparison of materials and various attributes of the products.What's more, most Chinese manufacturers have their own factories, so prices are more competitive.

Wide range of products: Chinese manufacturers offer a wide range of PCIe products to meet the diverse needs of customers. Whether you are looking for a basic PCIe x1 expansion card or a high-end PCIe x16 graphics card, Chinese manufacturers have you covered. They also offer specialized PCIe products for specific applications such as data storage, networking, and gaming, allowing customers to choose the right product for their requirements.

High-quality components: Despite their competitive pricing, PCIe components produced by Chinese manufacturers are known for their high quality and reliability. Chinese companies adhere to strict quality control standards and use advanced manufacturing processes to ensure that their products meet the highest industry standards. This commitment to quality has earned Chinese manufacturers a reputation for producing reliable and durable PCIe components that perform well under demanding conditions.

Cutting-edge technology: Chinese manufacturers are at the forefront of PCIe technology, continuously innovating and developing new products that push the boundaries of performance and efficiency. They invest heavily in research and development to stay ahead of the competition, resulting in PCIe components that offer the latest features and capabilities. Whether you need support for the latest PCIe Gen 4 or PCIe Gen 5 standards, Chinese manufacturers have the technology and expertise to deliver cutting-edge solutions.

Customization options: Chinese manufacturers offer customization options for PCIe components, allowing customers to tailor their products to meet specific requirements. Whether you need a custom form factor, specialized features, or unique specifications, Chinese companies can work with you to develop a bespoke PCIe solution that fits your needs perfectly. This flexibility and willingness to collaborate with customers set Chinese manufacturers apart and make them a preferred choice for businesses and individuals seeking personalized PCIe solutions.

Strong supply chain: Chinese manufacturers benefit from a robust supply chain that enables them to source high-quality components and materials at competitive prices. This streamlined supply chain allows Chinese companies to reduce lead times, lower production costs, and improve overall efficiency, resulting in faster delivery times and better value for customers. By leveraging their supply chain capabilities, Chinese manufacturers can offer PCIe components that are not only cost-effective but also readily available when you need them.

Global presence: Chinese manufacturers have a strong global presence, with products distributed and sold in markets around the world. This widespread availability makes it easy for customers to access Chinese-made PCIe components regardless of their location, ensuring that they can benefit from the advantages of Chinese manufacturing no matter where they are. Chinese manufacturers also have a reputation for providing excellent customer support and after-sales service, further enhancing their appeal to customers worldwide.

In conclusion, PCIe components produced by Chinese manufacturers offer a compelling combination of cost-effectiveness, quality, technology, customization, supply chain efficiency, and global availability. Whether you are a business looking to upgrade your computing infrastructure or an individual building a high-performance gaming rig, Chinese manufacturers have the PCIe solutions you need. With their commitment to innovation, quality, and customer satisfaction, Chinese manufacturers are poised to continue leading the way in PCIe technology for years to come.

email:[email protected]

References:

"PCI Express" - Wikipedia, https://en.wikipedia.org/wiki/PCI_Express

"PCIe Interface Card" - Advantech, https://www.advantech.com/products/pcie-interface-card/sub_1-2jk2h5

"Chinese PCIe Manufacturers" - Alibaba, https://www.alibaba.com/showroom/chinese-pcie-manufacturers.html

https://www.dghoyato.com/

Enterprise Hard Drives and SSD Market 2025-2032

Enterprise Hard Drives and SSD Market Overview

The Enterprise Hard Drives and SSD market plays a crucial role in the semiconductor industry, catering to demanding application scenarios such as enterprise-level data centers, servers, and high-performance computing. Compared to consumer-grade storage devices, Enterprise Hard Drives and SSDs require superior performance, reliability, and durability. These enterprise-grade storage solutions are manufactured using higher-quality materials and undergo stringent production processes to meet the needs of mission-critical operations.

As the Enterprise Hard Drives and SSD market size continues to expand, businesses are increasingly investing in high-capacity, high-speed, and energy-efficient storage solutions. According to Enterprise Hard Drives and SSD industry analysis, key factors driving market growth include the rising demand for cloud computing, AI-driven workloads, and big data applications.

With competition intensifying, leading manufacturers are focusing on increasing their Enterprise Hard Drives and SSD market share by developing next-generation storage technologies such as PCIe Gen5 SSDs, NVMe-based solutions, and AI-powered storage optimization. The Enterprise Hard Drives and SSD industry growth is expected to accelerate further, driven by advancements in non-volatile memory (NVM), 3D NAND technology, and high-endurance storage solutions tailored for enterprise workloads.

In a word, this report is a must-read for industry players, investors, researchers, consultants, business strategists, and all those who have any kind of stake or are planning to foray into the Enterprise Hard Drives and SSD market in any manner.

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Enterprise Hard Drives and SSD Market Analysis:

The global Enterprise Hard Drives and SSD Market size was estimated at USD 17500 million in 2023 and is projected to reach USD 36771.09 million by 2032, exhibiting a CAGR of 8.60% during the forecast period.

North America Enterprise Hard Drives and SSD market size was estimated at USD 5257.05 million in 2023, at a CAGR of 7.37% during the forecast period of 2025 through 2032.

Enterprise Hard Drives and SSD Key Market Trends  :

Growing Adoption of SSDs Over HDDs Enterprises are increasingly shifting towards SSDs due to their higher performance, faster data access speeds, and lower power consumption compared to HDDs.

Rising Demand for Data Centers The expansion of cloud computing, AI, and big data analytics is driving demand for high-capacity and high-performance enterprise storage solutions.

Technological Advancements in Storage Solutions Innovations like NVMe SSDs, PCIe 5.0, and QLC NAND are enhancing storage performance and efficiency, making enterprise SSDs more attractive.

Increase in Data Security and Reliability Requirements With growing cybersecurity concerns, enterprises are prioritizing highly secure and reliable storage solutions, influencing market trends.

Sustainability and Energy-Efficient Storage Solutions Companies are focusing on energy-efficient storage solutions to reduce operational costs and align with sustainability initiatives.

Enterprise Hard Drives and SSD Market Segmentation :

The research report includes specific segments by region (country), manufacturers, Type, and Application. Market segmentation creates subsets of a market based on product type, end-user or application, Geographic, and other factors. By understanding the market segments, the decision-maker can leverage this targeting in the product, sales, and marketing strategies. Market segments can power your product development cycles by informing how you create product offerings for different segments. Key Company

Samsung

SK Group

Western Digital (WDC)

Seagate Technology

Toshiba (Kioxia)

Micron Technology Inc.

Market Segmentation (by Type)

Solid State Drive (SSD)

Hard Disk Drive (HDD)

Market Segmentation (by Application)

SMEs

Large Enterprise

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FAQs

Q: What are the key driving factors and opportunities in the Enterprise Hard Drives and SSD market? A: The market is driven by increasing data generation, expansion of hyperscale data centers, and rising adoption of high-performance computing. Opportunities lie in emerging markets, advancements in flash storage, and the growth of edge computing.

Q: Which region is projected to have the largest market share? A: North America is expected to hold the largest market share, driven by strong demand from data centers, cloud providers, and enterprises. Asia-Pacific is also growing rapidly due to digital transformation initiatives.

Q: Who are the top players in the global Enterprise Hard Drives and SSD market? A: Major players include Samsung, SK Group, Western Digital (WDC), Seagate Technology, Toshiba (Kioxia), and Micron Technology Inc.

Q: What are the latest technological advancements in the industry? A: Key advancements include NVMe SSDs, PCIe 5.0 interfaces, QLC NAND technology, and energy-efficient storage solutions for sustainability.

Q: What is the current size of the global Enterprise Hard Drives and SSD market? A: The market was valued at USD 17,500 million in 2023 and is projected to reach USD 36,771.09 million by 2032, growing at a CAGR of 8.60%.

How do I configure an HPE DL380 Gen11 server?

The HPE DL380 configuration steps should include hardware selection, network settings, storage configuration, system management, power cooling, and initialization and security settings. The following is a step-by-step guide to configure the HPE ProLiant DL380 Gen11 server, combining hardware selection, network settings, system management and other functions.

1. Hardware Configuration

Processor Selection

Supports the fourth generation (Sapphire Rapids) and fifth generation (Emerald Rapids) Intel® Xeon® Scalable Processors, with a maximum of 64 cores per processor and a maximum TDP of 385W.

Select the suffix model according to the workload (such as H type for database analysis and N type for network edge computing).

Note: Processors with TDP >150W require a high-performance heat sink (such as P48818-B21).

Memory Configuration

Supports up to 8TB DDR5 RDIMM memory, 32 DIMM slots (16 per processor), and a maximum speed of 5600 MT/s.

Supports advanced memory protection features such as mirroring, combined channel, and HPE Fast Fault Tolerant Memory (ADDDC).

Storage configuration

Drive support:

Front: 24x SFF or 12x LFF hard drives.

Mid/rear expansion: supports 8x SFF or 6x NVMe rear drives.

Optional NVMe U.2/U.3, EDSFF, or M.2 SSDs.

Storage controller: Optional HPE Smart Array series (such as MR408i-o), supporting RAID 0/1/10/5 and NVMe pass-through.

Expansion slot and GPU support

Up to 8 PCIe Gen5 slots and 2 OCP 3.0 slots.

Supports 8 single-width or 3 double-width GPUs for AI and graphics-intensive tasks.

2. Network configuration

NIC selection and aggregation

Optional OCP 3.0 NIC or PCIe adapter (such as Broadcom P210tep 10Gb), support 10/25/100/200Gb network.

Port aggregation example (taking Windows Server as an example):

Create a NIC team in the operating system, select LACP mode and dynamic load balancing.

The switch needs to configure a dynamic aggregation interface and add the corresponding port to the aggregation group.

iLO management network

Use the dedicated iLO service port (rear) for out-of-band management, support remote monitoring, firmware updates, and troubleshooting.

3. System management and initialization

iLO 6 configuration

Complete system initialization, BIOS settings, and firmware updates through the iLO 6 management interface. Support RESTful API and mobile management.

Enable security features: Silicon Root of Trust, firmware consistency detection, and memory encryption.

Operating system deployment

Use Intelligent Provisioning tools to quickly install operating systems (such as Windows Server or Linux).

Optional hot-swappable M.2 boot devices (such as NS204i-u) support RAID 1 redundancy.

4. Power and cooling

Power supply options: 800W/1000W/1600W redundant power supplies, support Titanium level energy efficiency (96%).

Cooling requirements: Processors with TDP >205W require a high-performance fan kit3, Operating temperature range: 5°C–45°C.

5. Security and maintenance

Physical security: Standard TPM 2.0, optional bezel lock and intrusion detection kit.

Firmware updates: Regularly upgrade firmware through HPE SUM tool or iLO 6 to ensure vulnerability fixes and performance optimization.

AMD EPYC 9575F Vs Intel Core i5 14600K Features, Use Cases

Core i5 14600K vs AMD EPYC 9575F

Understanding how and why Intel's Core i5 leads the desktop CPU market and AMD's EPYC leads the server market is crucial. We compare AMD EPYC 9575F vs Intel Core i5-14600K architecture, performance, power, memory, and use case benefits.

Audience and Use Case

AMD EPYC 9575F

Designed for cloud, data centre, and corporate workloads.

For scientific computing, data analytics, virtualisation, high-volume multitasking, and machine learning.

Ideal for multi-socket servers, not PCs.

Core i5-14600K

Targeting home/office users, multimedia creators, and gamers.

Good for productivity tools, web development, gaming, and little content.

DIY PCs and consumer desktops.

Architecture Foundation

AMD EPYC 9575F

Built on TSMC's 5nm node using Zen 4 architecture.

Genoa family member with 128 threads and 64 cores.

An IOD and numerous CCDs make up its chiplet design.

Supports PCIe 5.0, SME/SEV encryption, and AVX-512 on a big I/O system.

Core i5-14600K

Raptor Lake uses Intel 7 (10nm Enhanced SuperFin).

A hybrid core architecture with 14 cores and 20 threads (8 efficiency, 6 performance).

Intel's Thread Director improves core-wide job scheduling.

PCIe 5.0/4.0, DDR4/DDR5, and integrated UHD Graphics 770 are supported.

Conclusion: EPYC 9575F is for scale and throughput, whereas i5-14600K is for desktop multitasking and real-time responsiveness.

Comparison of Performance

Performance Multi-Core

The EPYC 9575F excels at thread-intensive tasks. With Cinebench R23, multi-core points exceed 90,000.

Easily manages hundreds of workloads, containers, or virtual machines.

Despite being weaker than EPYC's server processors, the Core i5-14600K scores 26,000 in Cinebench R23 multi-core.

Single-Core Performance

With its 5.3 GHz boost clock, the Core i5-14600K outperforms EPYC in single-threaded jobs

While the EPYC's single-thread performance is great (4.1 GHz boost), it cannot match the i5's high-frequency P-cores in latency-sensitive workloads like gaming.

Conclusion: EPYC excels at parallel workloads, whereas i5 excels in latency-sensitive, real-time applications like desktop programs and gaming.

Memory Capability

AMD EPYC 9575F

DDR5 ECC 12-channel registered memory compatible.

Supports 4TB RAM per socket and offers good bandwidth.

Data integrity is guaranteed by ECC for mission-critical systems.

Core i5-14600K

Motherboards support dual-channel DDR5-5600 or DDR4-3200.

Maximum non-ECC capacity is 128GB, enough for user workloads.

ECC is unsuitable for memory-critical settings since it is not supported.

Conclusion: EPYC has greater memory and integrity, which servers need. Core i5 is useful for desktop apps.

Extension and PCIe Lanes

EPYC 9575F

Network cards, accelerators, multi-GPUs, and high-speed storage arrays benefit from 128 PCIe 5.0 lanes.

Max I/O throughput was the design aim.

Core i5-14600K

20 lanes: 4 NVMe SSD and 16 GPU PCIe 4.0/5.0.

More than enough for most creative and gaming endeavours.

Less extensible than server CPUs.

Conclusion: EPYC allows rapid expansion and connectivity. The Core i5 is sufficient for modern desktops.

Power and cooling needs

EPYC 9575F

High-performance liquid or air cooling is needed for 360W rack-mounted servers.

Processing density and throughput justify high power consumption.

Core i5-14600K

Base power is 125W and maximum turbo power is 181W.

Easy cooling using AIO coolers or consumer air.

Much more power-efficient daily operations.

Final verdict: i5 is the more power-efficient desktop processor. EPYC needs business cooling infrastructure.

Platform/Socket Compatibility

EPYC 9575F

On server-quality motherboards like Genoa, use socket SP5.

Advanced VRMs, ECC memory, and enterprise power supply are needed.

Made for custom blade systems or 1U/2U server chassis.

Core i5-14600K

Compatible with LGA 1700 Z690, B660, and Z790 motherboards.

Plug-and-play for gamers, content creators, and system builders.

Conclusion: end customers will find i5 more approachable. EPYC systems are only for enterprise and OEM manufacturers.

Integrated Graphics, Features

EPYC 9575F

Most servers need standalone graphics or headless mode to leverage an integrated GPU.

Computation requires GPU accelerators like AMD Instinct or NVIDIA A100.

Core i5-14600K

Equipped with Intel UHD Graphics 770.

Allows display output, light operations, and rudimentary graphics acceleration.

Conclusion: EPYC is for compute or GPU-accelerated settings, whereas Core i5 can handle unusual arrangements.

Pricing and Value Proposition

EPYC 9575F

Between $10,000 to $11,000 USD.

Has high computational density, long-term scalability, and top socket performance.

Unsuitable for casual use.

Core i5-14600K

Between $300-$350 USD.

Excellent value, especially for productivity and gaming.

Perfect price, power, and versatility.

Conclusion: i5 offers unmatched value, whereas EPYC gives data centres tremendous ROI.

ST2528U4 U.2/U.3 NVMe SSD Mobile Rack Enclosure

🚀 Introducing Our New U.2/U.3 NVMe SSD Mobile Rack Enclosure! 🚀 

Model: ST2528U4 Built for high-speed storage and industrial durability, our latest U.2/U.3 NVMe SSD Enclosure features: 

🔹 Supports 2 x 5mm to 9.5mm 2.5" U.2 / U.3 NVME PCIe SSD 

🔹 Installing any standard 3.5" floppy drive bay

🔹 Interface Support: 2 x SlimSAS 4i (SFF-8654) 

🔹 Compatibility: PCIe 4.0 (Up to 64Gbps bandwidth) 

🔹 Removable drive tray for easy maintenance 

Ideal for: 

✔️ High-performance enterprise storage systems 

✔️ Industrial PCs & servers requiring fast NVMe expansion 

✔️ Data centers & edge computing with U.2/U.3 SSD arrays 

✔️ Video editing & AI workloads needing ultra-low latency Ready to turbocharge your storage with enterprise-grade speed and reliability!

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Is PCI Express 3.0 Still Relevant in 2025?

As of 2025, PCI Express (PCIe) 3.0, which was first introduced back in 2010, may seem outdated compared to its newer counterparts like PCIe 4.0, 5.0, and even the emerging PCIe 6.0. However, despite its age, PCIe 3.0 continues to be relevant in various contexts due to its widespread adoption, adequate performance for many tasks, and the economic value it offers to a broad range of users.

One of the key reasons PCIe 3.0 remains viable is its sufficient bandwidth for the majority of general-purpose computing needs. PCIe 3.0 offers a per-lane throughput of 1 GB/s (8 GT/s), which scales to 16 GB/s in a full x16 slot. This level of performance is still more than adequate for many mainstream graphics cards, network adapters, storage devices, and other expansion cards used in consumer and business-grade desktops. Many popular graphics cards released up to 2022–2023, such as the NVIDIA GTX 1660 series or AMD RX 580, do not saturate a PCIe 3.0 x16 lane. Even modern GPUs, when used for gaming at 1080p or 1440p resolutions, often show minimal performance differences between PCIe 3.0 and 4.0 in real-world usage.

In the enterprise and data center sectors, where cutting-edge performance is often a priority, PCIe 4.0 and 5.0 have found more rapid adoption due to their higher bandwidths and improved latency. However, in budget-conscious environments or where older hardware is still operational, PCIe 3.0 remains in active use. It's not uncommon to find servers and workstations built around Intel Xeon or AMD EPYC platforms from a few years ago that still rely on PCIe 3.0, particularly in roles that don’t demand maximum throughput, such as file servers or office infrastructure.

Another reason PCIe 3.0 continues to be relevant is its broad compatibility. Many motherboards still include PCIe 3.0 slots, and most modern PCIe 4.0 and 5.0 devices are backward-compatible with PCIe 3.0. This means users can mix and match components more freely, extending the life of their systems without having to overhaul the entire platform.

From a cost perspective, PCIe 3.0 components are significantly cheaper than their newer counterparts. Budget-conscious users and small businesses can take advantage of these cost savings without compromising too much on performance. For example, PCIe 3.0 NVMe SSDs are still fast enough for everyday computing tasks and gaming, and they are often available at a fraction of the cost of newer PCIe 4.0 or 5.0 models.

In conclusion, while PCIe 3.0 is no longer cutting-edge, it remains a relevant and practical interface standard in 2025. Its combination of sufficient performance, widespread availability, backward compatibility, and cost-effectiveness ensures it still has a place in many systems—especially for those not operating at the bleeding edge of technology. As long as hardware demands stay within reasonable limits for general use, PCIe 3.0 will continue to serve reliably for years to come.

PCIe Connector Market to Hit $7.2 Billion by 2034 – Growth at 7.5% CAGR

PCI Express (PCIe) Connector Market is set to surge from $3.5 billion in 2024 to $7.2 billion by 2034, growing at a CAGR of approximately 7.5%. As a vital component in high-speed data transfer, PCIe connectors facilitate seamless communication between computer components. This market includes edge, socket, and cable connectors, serving diverse industries such as consumer electronics, data centers, and automotive. The demand for faster data processing and enhanced connectivity solutions is propelling the sector forward, fostering innovations that boost computing performance and efficiency.

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The market is experiencing rapid expansion, driven by advancements in data center infrastructure and the escalating need for high-speed connectivity. x16 connectors dominate the segment, widely utilized in graphics cards and high-performance computing devices, while x8 connectors gain momentum due to their cost-performance balance in server and storage applications. North America leads the global market, fueled by major tech companies and continuous computing innovations. Europe follows closely, leveraging a strong automotive sector and widespread adoption of advanced electronic systems. Among individual countries, the United States holds the top position, backed by its technological leadership and swift adoption of cutting-edge solutions, with Germany ranking second due to its robust manufacturing sector and Industry 4.0 investments.

Market Segmentation

Type: Edge Card Connectors, Board-to-Board Connectors

Product: x1, x4, x8, x16

Technology: Surface Mount Technology, Through-Hole Technology

Component: Contacts, Housing

Application: Data Centers, Telecommunications, Consumer Electronics, Automotive, Industrial, Networking

Material Type: Copper Alloy, Plastic

Device: Servers, Storage Systems, Desktops, Laptops

Deployment: On-Premises, Cloud

End User: IT and Telecom, Consumer Electronics, Automotive, Industrial

Functionality: Signal Transmission, Power Transmission

In 2024, the PCIe Connector Market reported a volume of approximately 300 million units, with projections to reach 500 million units by 2028. The x16 connectors segment holds a dominant 45% market share, followed by x8 connectors at 30% and x4 connectors at 25%. This surge is fueled by escalating demand in data centers and high-performance computing applications. Leading industry players include Amphenol Corporation, TE Connectivity, and Molex LLC, all driving innovation through cutting-edge product offerings and strategic collaborations.

#pcie #pciexpress #pcieconnector #datacenters #highspeedconnectivity #techinnovation #cloudcomputing #servertechnology #computingpower #electronicsindustry #consumertech #automotivetechnology #networkinghardware #semiconductorindustry #nextgentech #graphiccards #hardwareengineering #highperformancecomputing #signaltransmission #powertransmission #digitaltransformation #aiinfrastructure #industrialautomation #cloudinfrastructure #smarttechnology #industry40 #dataprocessing #connectivitysolutions #embeddedtechnology #futureofcomputing #circuitdesign #datacenterequipment #cloudservers #computingtrends #electronicsmanufacturing #advancedtechnology #hardwaredevelopment #digitalconnectivity #chipsetdesign #globaltech #techtrends

PCIe DC-DC Converter Market - Forecast(2025 - 2031)

PCIe DC-DC Converter Market Overview

PCIe DC-DC Converter Market is analyzed to grow at a CAGR of 16.6% during the forecast period 2021-2026 to reach $9.5 billion. PCIe or PCI Express generally refers to a high speed serial computer expansion bus standard that is designed with more advantages in comparison to older standards. PCIe standards are capable of providing benefits including better performance scaling, lower latency, synchronous rectification, pulse amplitude modulation, larger bandwidth support, higher data speeds and so on making it an ideal choice for various application areas like graphic cards, storage devices, network interface cards, and many other high performance peripherals. With rise in data traffic and need for high performance computing devices and integrated circuits, different generation models be it PCIe 5.0, PCIe 4.0 and so on are selected according to end-use requirements. Increasing rate of data center infrastructure growth as well as shift towards advanced technologies including artificial intelligence and machine learning are considered as some of the major drivers impacting the growth of PCIe DC-DC Converter Market. In addition, investments towards advancing telecom communication infrastructure with 5G technology along with rise of adoption in automotive applications like ADAS systems, infotainment systems and so on are further analyzed to fuel the growth of PCIe technology in the long run.

Report Coverage

The report: “PCIe Industry Outlook – Forecast (2021-2026)”, by IndustryARC covers an in-depth analysis of the following segments of the PCIe industry.

By Generation: PCIe 1.0 & 2.0, PCIe 3.0, PCIe 4.0, PCIe 5.0.

By Form Factor: Mini PCIe, PCIe.

By Product: SLC, MLC.

By Output Voltage: Upto 3.3V, 3.3-5V, 5-10V, 10-15V, 15-24V And Above 24V.

By Output Power: Upto 20W,20-50W,50-100W and Above 100W.

By Application: Graphic Processor Units, Network Interface Cards, Storage Device & Controllers, PCIe Switches (Gen 1, Gen 2, Gen 3, Gen 4 and Gen 5), Servers.

By End Users: Telecommunication, Industrial, Residential, Data Centers (Hyperscale, Colocation, Others), Automotive, Infrastructure, Others.

By Geography: North America, South America, Europe, APAC and RoW.

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Key Takeaways

Growing shift towards advanced technologies like artificial intelligence and machine learning along with increasing growth of data center infrastructures is analyzed to significantly drive the PCIe DC-DC Converter Market during the forecast period 2021-2026.

Storage Device & Controllers application segment had accounted for the largest market share in 2020, attributed to the factors including rise of cloud based data storage requirements, infrastructural developments for data centers and so on.

High investments towards research and development activities by some of the key market players such as Samsung Electronics Co. Ltd, Renesas Electronics Corporation and Toshiba Corporation with others have helped in boosting the growth of PCIe across APAC markets.

PCIe DC-DC Converter Market Segment Analysis- By Generation

Based on generation, the PCIe DC-DC Converter Market is segmented under PCIe 1.0 & 2.0, PCIe 3.0, PCIe 4.0 and PCIe 5.0. PCIe 3.0 generation had dominated the PCIe DC-DC Converter Market with 46.5% share in 2020, and is analyzed to grow significantly at a rate of 16.4% during the forecast period 2021-2026. Generation PCIe 3.0 can be referred to as a Gen 3 expansion card comprising of a four-lane configuration, used across some of the major end-use industries be it telecom, data centers and so on. However, with growing advancements towards Gen 4 and Gen 5, adoption of PCIe 3.0 based solutions has been still maintaining a significant growth in the markets, due to its long time presence. Capable of reaching speeds upto 1000 Mbps, PCIe 3.0 architecture incorporate features like enhanced signaling and data integrity, channel enhancements, clock data recovery, pulse amplitude modulation and so on, retaining its market position. Factors including growth in video streaming, video conferencing, online gaming, social networking and many others have surged the internet traffic amidst the COVID-19 pandemic situation, attributing towards the need for PCIe 3.0 interfaces. In addition, usage of PCIe 3.0 has been still in demand owing to rising rate of investments from various key vendors towards developing products with Gen 3 support. In 2020, AMD announced about the launch of A520 chipset, as a part of supporting its third generation Ryzen desktop processors. Through this, the company wanted to help its customers offer a path for future upgrades, based on Zen 3 architecture. Such factors have eventually helped in creating a positive impact towards the deployment of PCIE 3.0 solutions for the end-use markets.

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PCIe DC-DC Converter Market Segment Analysis- By Application

Based on application, Storage Device & Controllers had accounted for the largest share of 32.1% in 2020, analyzed to grow significantly with a CAGR of 15.5% in the global PCIe DC-DC Converter Market during the forecast period. The need for PCIe had evolved in the storage applications overtime with the introduction of technologies namely SATA Express and Non-Volatile Memory Express. With the shift towards ultra thin laptops, tablet PCs and so on, there is significant need towards connectors used in peripheral devices capable of fitting into narrower spaces. In order to address such requirements, PCI-SIG specified the M.2 connectors, thereby gaining it wide popularity. In addition, growing number of investments towards construction of new data centers or upgradation of existing facilities can be considered as some of the major factors attributing towards its market growth owing to rise of cloud based data storage and improved integrated circuits. NVMe and PCIe have been becoming highly popular owing to technological advancements in the field of solid state storage applications. Deployment of PCIe based solid state drives are raising its demand in the markets serving cloud computing requirements, with comparitively higher data transmission as well as high speed connectivity. Owing to these advantages, PCIe had turned as a popular choice among data centers and telecom sectors due to shift towards high-performance computing while storage applications. In 2021, Interface Concept announced about the launch of a removable SSD mass storage XMC module, named IC-EM2-XMCa, capable of supporting PCIe x1/x2/x4 Gen2/Gen3 interface connection. Owing to its capability of increasing storage capacity upto 2TB, as a part of adding mass storage capacity to any third party Single Board Computer or host carrier board, used across VPX, cPCI or VME systems, thus making it suitable for computing as well as storage-intensive applications. Such factors are further set to propel the growth of PCIe within storage devices or controllers in the long run.

PCIe DC-DC Converter Market Segment Analysis- Geography

APAC had accounted for the largest share of 36.5% in 2020, followed by North America and Europe in the PCIe DC-DC Converter Market, analyzed to grow at a rate of 19.6% during the forecast period 2021-2026. Factors including growing demand for cloud computing services, shift of telecom sector towards advancing network or communication infrastructures and many others have acted as some of the major factors attributing to the market growth. Presence of key players such as Renesas Electronics Corporation, Samsung Electronics Co. Ltd, Toshiba Corporation with many others opting for R& D activities overtime have been also helping in creating significant growth of PCIe across the region. In 2020, Samsung announced about the launch of PCIe 4.0 NVMe SSD (solid state drive), named SSD 980 Pro. This development was meant to help professionals as well as consumers opting for high performance PCs, workstations and gaming consoles, also making it an ideal choice for consumers working with 4K or 8K contents or playing high graphic games. High investments towards building data center facilities as well as growing shift towards improving virtualization, high-performance computing, and many others for automotives is further analyzed to drive the market growth in the coming years. In 2020, China revealed about constructing one of the world's highest-altitude cloud-computing data center in Tibet in order to meet data storage requirements for China as well as various South Asian nations including Bangladesh, Nepal and Pakistan. As per Ningsuan Technology Group, an investment of about 11.8 billion yuan (around USD 1.8 billion) has been planned for this project, which will help in providing services such as video rendering, distance-learning data backup, autonomous driving and so on in the long run. Such construction projects related to data centers are set to drive the need for high-speed switches, storage devices, and so on, impacting the market growth of PCIe during the forecast period 2021-2026.

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PCIe DC-DC Converter Market Drivers

Increasing growth towards data center infrastructures:

Increasing growth towards data center infrastructures can be considered as one of the vital factors driving the market growth of PCIe. This growth is significantly impacting the need for high-speed devices capable of offering faster data transmission owing to rise of data traffic for optimizing data center facilities. Enterprise workloads have already started migrating towards cloud, which in turn requires the need for high performance computing, virtualization and related applications, making it beneficial for the use of PCIe based devices. In addition to this, with the surging COVID-19 pandemic situation, there is a rapid rise of remote work or work from home, driving the growth of data centers towards handling bulks of data with higher efficiency. Moreover, data centers have been continuously focusing on leveraging hyperscale computing networks to be able to meet growing cloud-based workloads, thereby accelerating the demand towards high-speed networking devices be it PCIe switches, servers, storage devices and many more. Large Enterprises including Microsoft Corporation, Google, Amazon Web Services and many others have been constantly focusing on expanding data center facilities across various regions alongside renovation or upgradation for the existing facilities to cope up with the growing data traffic is further set to propel the demand for PCIe based solutions. As a part of this, in 2021, Microsoft had revealed about its plans of investing about $200 million towards construction of two data centers of around 200,000 square feet outside Chicago, expected to become operational by 2022. Such factors are further set to propel the need for PCIe switches, servers, storage devices and so on owing to conducting various processes be it high-performance computing, optimum network connectivity and many others during the forecast period 2021-2026.

Growing shift towards advanced technologies like artificial intelligence and machine learning:

Growing shift towards advanced technologies including artificial intelligence (AI) and machine learning (ML) can be considered as one of the major drivers impacting the growth of PCIe DC-DC Converter Market. With technological advancements, there is significant rise towards AI or ML based workloads, eventually raising the need for upgraded or new generation of computing architectures. Since AI based applications work on generating as well as processing of massive amounts of data within real-time data speeds, there is significant demand towards various high speed PCIe devices like graphic processor units, switches, controllers and many others, capable of handling large bandwidth requirements at high-speeds. In comparison to traditional CPUs, the need for computational models is rising, owing to growing demand towards high-bandwidth and low latency communication channels. Rise of demands have been eventually attributing towards various PCIe generation models, particularly PCIe 4.0 or PCIe 5.0 for serving such application requirements. Leveraging PCIe technology can help CPU models to keep up with the increasing data flow from edge devices across various enterprises, thereby creating a positive impact on market growth. In 2020, an AI chipmaker, Hailo had introduced high-performance AI acceleration modules, namely M.2 and mini PCIe designed for empowering edge devices. The development of the modules was meant to allow customers integrate high-performance AI capabilities within edge devices, while offering a more flexible and optimized solution. Deployment of such modules can help in accelerating a large number of deep learning based application areas with higher efficiency, thereby creating its significant growth in the PCIe DC-DC Converter Market in the long run.

PCIe DC-DC Converter Market Challenges

Complexities related to designing, implementation or verification:

Designing, implementation or verification related complexities act as one of the major challenges restraining the growth of PCIe DC-DC Converter Market. PCIe based devices are capable of offering improved reliability, availability and many other advantages, gaining it wider adoption across various end-use verticals. However, configurability and complexities for PCIe pose several designing challenges, as the designer needs to read as well as understand various specifications associated with the standard for selecting an option to be incorporated within the designing architecture. In addition, due to its adoption across a broad range of application areas, manufacturing of PCIe in large quantities based on various factors be it voltage, temperature and so on, eventually affects its signal efficiency or integrity, thereby contributing towards high amounts of variation while designing process. Design or verification complexity issues exponentially rises due to need for a huge sample space of configurable features, along with a minimal error while selecting configuration can make the design unsuited for targeted application, thereby causing prolonged time to market. Such factors have been contributing towards lesser adoption of PCIe, while hampering its market growth across various end-use sectors.

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PCIe DC-DC Converter Market Landscape

Product launches, collaboration, and R&D activities are key strategies adopted by players in the PCIe DC-DC Converter Market. The key players in the PCIe DC-DC Converter Market include Broadcom Inc., Microchip Technology Inc., Renesas Electronics Corporation, Intel Corporation, Nvidia Corporation, Samsung Electronics Co. Ltd, Toshiba Corporation, Xilinx Inc., PLDA and Texas Instruments among others.

Acquisitions/Technology Launches/Partnerships

In April 2021, Samsung Electronics launched PM9A1 SSD, featuring a PCIe 4.0x4 interface. This development was meant to be used in PCs, specifically for enterprises as well as government agencies dealing with sensitive information with sophisticated security requirements.

In February 2021, Microchip Technology Inc. had introduced PCI Express 5.0 switch solution, Switchtec PFX PCIe 5.0 which is capable of doubling interconnects performance for dense compute, high-speed networking as well as NVM Express storage. Development of the world’s first PCIe 5.0 switch was done to support high density and reliability capabilities, including 28 lanes to 100 lanes and upto 48 non-transparent bridges.

Unlock Peak Performance: Why Pedestal Servers Are the Future of Enterprise IT

In today’s digital era, businesses need reliable, high-performance computing to handle growing workloads. Pedestal servers offer the perfect solution with their scalability, flexibility, and enterprise-grade reliability.

Key Benefits of Pedestal Servers:

High-Performance Processing – Supports Intel® Xeon® and AMD EPYC™ processors for intensive workloads like AI and virtualization.

Massive Storage Capacity – Up to 88TB storage with support for SSD, HDD, and NVMe drives.

Scalability & Expansion – PCIe 4.0/5.0 slots allow GPU, RAID, and network upgrades for future growth.

Enterprise Reliability – ECC memory, redundant power supplies, and 24/7 uptime ensure stability and efficiency.

Ideal for:

Data centers, cloud hosting, and AI computing

Enterprise applications, database management, and virtualization

Professional workstations for 3D rendering, CAD, and video editing

Upgrade your IT infrastructure today!

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PowerEdge R660：Your Strong Engine for Digital Transformation

In today's world where the digital wave is sweeping across the globe, data has become the most valuable asset for enterprises. How to efficiently process, analyze, and utilize data has become the key to winning the future. The Dell PowerEdge R660 server, a 2U dual-socket rack server designed for modern workloads, stands out as a powerful engine for enterprise digital transformation with its exceptional performance, flexible scalability, and reliable security.

Exceptional Performance to Meet Future Challenges

Powered by the 3rd Gen Intel® Xeon® Scalable processors, the PowerEdge R660 delivers robust computing performance, easily handling demanding workloads such as virtualization, databases, and artificial intelligence. Supporting up to 4TB of DDR4 memory, it ensures rapid processing of even the most complex datasets, meeting the ever-growing data processing needs of enterprises.

Flexible Scalability to Adapt to Business Growth

The PowerEdge R660 offers flexible storage and I/O options, supporting up to 10 x 2.5-inch or 4 x 3.5-inch drives, and can be configured with various RAID levels to meet the storage requirements of different application scenarios. Its abundant PCIe slots and network interfaces provide ample room for future business expansion.

Secure and Reliable, Ensuring Data Peace of Mind

The PowerEdge R660 features a multi-layered security design, safeguarding data from hardware, firmware, to software. It supports silicon-rooted trust, secure boot, and system lockdown, effectively defending against various security threats and ensuring enterprise data security.

Intelligent Management, Simplifying Operations

Equipped with iDRAC9 with Lifecycle Controller, the PowerEdge R660 enables automated server deployment, monitoring, and management, simplifying IT operations and reducing management costs. Integrated with OpenManage Enterprise, it provides a centralized server management platform, helping enterprises achieve comprehensive control over their IT infrastructure.

Empowering the Future, Achieving Infinite Possibilities

The PowerEdge R660 server, with its exceptional performance, flexible scalability, reliable security, and intelligent management features, provides strong momentum for enterprise digital transformation. Whether building a private cloud, deploying AI applications, or conducting big data analytics, the PowerEdge R660 can meet your needs, helping enterprises unleash the power of data and empower future innovation.

Choose PowerEdge R660, Choose Infinite Possibilities for the Future!

MS-CF20 ATX Motherboard for Intel Arrow Lake-S CPUs

MS-CF20: Next-Gen ATX Motherboard with 15th Gen Intel Arrow Lake-S Processors and Legacy Support

Strong ATX motherboard MS-CF20 supports 15th-generation Intel Arrow Lake-S Series CPUs and has the Intel W880 chipset. By supporting next-generation CPUs and legacy capabilities, the MS-CF20 provides unsurpassed versatility for current and older systems to meet the needs of advanced computing applications.

Power and performance optimised

For Intel Core U9/U7/U5, Pentium, and Celeron CPUs, the MS-CF20 uses the latest Intel 15th Gen Arrow Lake-S technology. New processors perform well in demanding and AI-driven applications because to their greater core counts, instructions per clock, and energy efficiency.

The board's four DDR5 UDIMM slots provide ECC and non-ECC memory up to 5600 MT/s and 192GB, giving data-intensive applications unsurpassed performance.

Advanced Graphics and Displays Support

VGA, DisplayPort (DP), and HDMI monitors make multitasking and visualisation easier on the MS-CF20. This makes it perfect for digital signage, control centres, and industrial automation with several high-resolution panels.

Good Network and Storage Connectivity

Four RJ-45 2.5GbE LAN ports on MS-CF20 provide server-grade and data processing networking. The board has four SATA 3.0 ports, two M.2 M Key slots, and SATA RAID 0/1/5/10 for safe data management.

Extended Expansion and I/O Interfaces

To satisfy various application needs, the MS-CF20 offers these features:

Accelerators, GPUs, and networks fit in one PCIe x16 (Gen 5) or two x8 and four x4 slots.

Two USB 3.2 Gen 1 ports, three USB 2.0 ports, and eight USB 3.2 Gen 2 connections connect fast peripherals.

Industrial-grade serial connectivity options include 10 COM ports (2 RS-485, 8 RS-232).

Audio connections, PS/2, GPIO, and TPM 2.0 for security are included.

Supporting Legacy

PS/2 Port: This port enables vintage keyboards and mice in industrial and automation situations that require reliability and low latency input.

PCI Slot: Supports legacy expansion cards for automation, legacy hardware support, and industrial control systems.

VGA connectors work with old displays and projectors in control systems, factory automation, and long-lifecycle applications.

Ten serial COM ports (one back and nine inside): COM1/2 supports Ring/0V/5V/12V Autoflow (default, Ring) for RS-232/422/485. The COM3-10 supports RS-232 with 0V/5V/12V Autoflow for diverse serial connection and industrial compatibility.

Reliability and Industry Standards

For reliable remote administration and monitoring, the MS-CF20 uses cutting-edge SMBus, I2C, PMBus, and Intel AMT 19.x technologies. Multi-system fan connections improve thermal management, and chassis intrusion detection provides physical security.

Key MS-CF20 Features

15th-generation Arrow Lake-S CPUs with Intel W880 chipset

4 DDR5 ECC/non-ECC UDIMM slots, 192GB.

HDMI, DP, and VGA displays.

Quad 2.5GbE LAN ports

Flexible Gen 5 and Gen 4 PCIe extension

Four SATA 3.0 and two M.2 M slots support RAID.

Built-in TPM 2.0, COM ports, GPIO, PS/2, USB 3.2, and PCI slot.

Previous PCI, VGA, COM, and PS/2 support.

ATX Power's advanced thermal and security features

Target Uses

The MS-CF20 supports high-performance computing systems like:

Production lines, process automation, and industrial machinery may be managed and monitored by industrial automation and control systems.

Real-time processing and analysis of massive amounts of data need data processing servers.

Transport Systems: Connects fleet, traffic, and logistical systems reliably.

Security and surveillance platforms: Powers analytics, real-time monitoring, and HD video streaming.

Medical imaging and data processing provide fast, accurate processing of medical imaging data for healthcare systems and diagnostics.

For intelligent edge and Internet of Things applications, Edge AI and Machine Learning Systems provide AI inference and real-time data processing.

Robotics and autonomous vehicles: Provides high-performance computing for real-time decision-making, automation, and navigation.

Helps manage resources in smart infrastructure, grid control, and energy monitoring.

Broadcast and streaming servers: Ensure reliable content distribution, live streaming, and high-bandwidth media delivery.

old System Integration: Integrates old devices, displays, and peripherals via PS/2, PCI, and VGA to extend industrial and corporate system lifetimes.

The MS-CF20 provides performance, connection, and dependability for today's most demanding applications while maintaining industrial historical compatibility.

PCIe Connector Market: Driving High-Speed Data Transfer Technologies up to 2033

Market Definition

The PCIe (Peripheral Component Interconnect Express) connector market encompasses a range of high-speed connectors designed to interface with PCIe slots on motherboards and other devices. These connectors enable efficient data transmission between components such as GPUs, SSDs, network cards, and other peripherals, making them essential for computing, data centers, and networking applications.

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The PCIe connector market is forecasted to expand from $2.5 billion in 2023 to $5.8 billion by 2033, achieving a CAGR of approximately 8.5%.

Market Outlook

The PCIe connector market is experiencing robust growth driven by the increasing demand for high-performance computing, advanced graphics processing, and data-intensive applications. The evolution of PCIe standards, such as PCIe 4.0, 5.0, and the upcoming PCIe 6.0, has significantly enhanced data transfer speeds and bandwidth capabilities, catering to the needs of sectors like cloud computing, artificial intelligence, and machine learning.

As data centers expand globally to meet rising digital demands, the adoption of PCIe connectors is accelerating. These connectors support faster communication between servers, storage solutions, and networking equipment, ensuring seamless data flow and enhanced operational efficiency. Additionally, the growing popularity of gaming, virtual reality, and high-definition content is fueling demand for PCIe connectors in consumer electronics.

Challenges such as the complexity of advanced PCIe designs and the high costs associated with next-generation connectors may limit adoption, particularly among smaller manufacturers. However, the continuous innovation in material science and manufacturing processes is expected to reduce costs and improve product reliability over time.

With the ongoing digital transformation across industries and the expansion of technologies like 5G and IoT, the PCIe connector market is poised for sustained growth. Emerging applications in automotive electronics and edge computing further present significant opportunities for market expansion.

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How Many SSDs Can You Install in a PC?

Modern PCs offer incredible flexibility when it comes to storage, especially with the increasing popularity of SSDs (Solid State Drives). The number of SSDs you can install in a PC depends on several factors, including the motherboard's design, available connections, and the power supply.

Motherboard Limitations

The motherboard plays a critical role in determining the number of SSDs a PC can accommodate. Most motherboards have a limited number of SATA ports and M.2 slots, which are used for connecting SSDs. A typical mid-range motherboard may include:

4 to 8 SATA ports for 2.5-inch SATA SSDs.

1 to 3 M.2 slots for NVMe SSDs.

High-end motherboards designed for gaming or professional workloads often feature additional M.2 slots and support for RAID configurations, allowing users to install multiple SSDs. see it here How many SSDs are allowed in a PC?

Power Supply and Case Constraints

Your PC's power supply must have sufficient capacity to power all the connected drives. While SSDs consume less power compared to traditional hard drives, installing multiple drives can add up.

Additionally, the case must have enough physical space for mounting 2.5-inch SATA SSDs or expansion cards for NVMe SSDs.

Adapters and Expansion Cards

For users looking to install more SSDs than their motherboard natively supports, PCIe adapters are a viable solution. These cards can add additional M.2 or SATA connections, significantly expanding storage capacity. External USB SSDs also provide an alternative for non-critical data storage.

Practical Limits

In most scenarios, modern motherboards support anywhere from 4 to 12 SSDs, depending on the combination of SATA and M.2 drives. Advanced setups, such as servers or workstations, can exceed this limit with specialized hardware.

Conclusion

While there isn’t a fixed maximum number of SSDs a PC can handle, the practical limit depends on the motherboard, power supply, and case design. By choosing the right components and using adapters when necessary, you can customize your PC to meet extensive storage needs without compromising performance.