ADATA MARS 980 XPG PCIe Gen5 SSD, Built For AI Workloads

XPG PCIe Gen5 SSD

As the gaming brand of ADATA Technology, the world's leading manufacturer of memory modules and flash memory, XPG, a rapidly growing supplier of systems, parts, and accessories for gamers, esports pros, and tech enthusiasts, has released the MARS 980, its latest high-performance XPG PCIe Gen5 SSD series.

Professional gamers, tech enthusiasts, and overclockers will benefit from the new series, which meets the growing needs of high-performance computing and artificial intelligence applications. A new 6nm process controller improves performance and power efficiency in the MARS 980, which can reach 14,000MB/s.

It also solves high-speed PCIe Gen5 SSD heat difficulties with the first hybrid liquid-and-air cooling technique. The three MARS 980 SSD variants STORM, BLADE, and PRO support AI-driven creative processes, data-intensive workloads, and high-speed operations and are suited to varied user needs. The most appealing Gen5 SSD is the MARS 980 series.

Maximum Performance with Hybrid Cooling MARS 980 STORM

The MARS 980 STORM can read and write at 14,000 MB/s with a PCIe Gen5 x4 interface. The first industrial product to employ patented air-liquid cooling with a symmetrical, vertical dual-fan arrangement. Increased thermal capacity, copper heat pipe heat conduction, and several integrated fans lower operating temperatures by 20% compared to standard fanless heatsinks.

Powering the active cooling system through the M.2 slot eliminates cables, making installation and usage easier. The MARS 980 STORM's 4TB storage capacity supports AI-driven computations and data analytics as well as professional gamers and video makers seeking the greatest storage performance.

Laptop-Ready MARS 980 Blade: No Cooling

Finally, laptops and even micro PCs may use PCIe Gen5 SSD technology with the MARS 980 BLADE. A highly efficient 6nm controller allows the MARS 980 BLADE to achieve top-tier sequential speeds of 14,000MB/s read and 13,000MB/s write over PCIe Gen5 x4 with surprising low power consumption and thermal management. Its advanced design ensures great performance in tight spaces without cooling. The MARS 980 BLADE can effortlessly boost PlayStation 5 console storage and has capacities up to 4TB, providing gamers and mobile professionals unrivalled performance.

Laptop-Ready MARS 980 Blade-Cooling-Free Design

The MARS 980 PRO optimises performance and pricing. The PCIe Gen5 x4 interface reads and writes 14,000 and 13,000 MB/s. An active fan and aluminium alloy heatsink reduce temperatures by 15% over fanless solutions. Power comes from the M.2 slot, eliminating cables and simplifying configuration like the STORM. The MARS 980 PRO improves PlayStation 5 gaming with up to 4TB of storage and quicker connectivity.

Key Ideas and Themes

The main subject is Gen5 SSD integration. Gen5 technology matters. This is a signature characteristic of the MARS 980 series since it drives its performance. By citing the “Gen5 SSD Series,” the source highlights this technology.

The offering targets the “AI Generation”—people who use or benefit from AI. This means Gen5 technology's performance is crucial for AI applications that require fast data access, complex calculations, and large datasets. “The Ultimate Storage Solution for the AI Generation” clearly states the target audience and projected benefit.

Super Storage Solution Positioning: The “Ultimate Storage Solution” branding reinforces the MARS 980 series' premium, high-performance status. This shows that SSD design meets the target market's most demanding storage needs.

The frequent use of “Gen5” and the reference to “AI Generation” clearly imply that high performance is an important selling point, even though the passage does not include performance metrics. Gen5 technology improves these capabilities over Gen4, which is critical for AI applications that need fast data read and write speeds.

In summary

The XPG MARS 980 Gen5 SSD series is a high-performance storage choice for the “AI Generation” using Gen5 technology. As the “Ultimate Storage Solution,” it promises AI-focused speed improvements. More performance indicators and product features are needed for a complete review.

💻✨ Dive into the future of computing with our latest post: “Connectivity and I/O Innovations in PCs – 2025 Edition” 🚀

Discover how Thunderbolt 5, PCIe Gen5, DDR5, GDDR7, DisplayPort 2.1b, and USB4 v2 are revolutionizing laptops and desktops. From ultra-fast SSDs to immersive multi-monitor setups, this deep dive breaks down everything you need to know about high-performance PC connectivity.

Whether you're a tech lover, PC builder, or performance enthusiast—this is your blueprint to building smarter, faster systems.           \

https://electronicsbuzz.in/highpoint-pcie-gen5-x16-nvme-switch-adapters-revolutionize-ai-gpu-storage/

Siêu tốc độ, siêu bền: Micron ra mắt SSD thế hệ mới, "đánh gục" mọi đối thủ! #Micron #SSD #T710 #X10 #Computex2025 #CôngNghệLưuTrữ #PCIeGen5 #NVMe

## Siêu tốc độ, siêu bền: Micron ra mắt SSD thế hệ mới, “đánh gục” mọi đối thủ! #Micron #SSD #T710 #X10 #Computex2025 #CôngNghệLưuTrữ #PCIeGen5 #NVMe Tại sự kiện Computex 2025 vừa qua, Micron Technology đã chính thức trình làng hai sản phẩm SSD cực kỳ ấn tượng: Crucial T710 PCIe Gen5 NVMe SSD và Crucial X10 Portable SSD. Hai “siêu phẩm” này hứa hẹn sẽ mang đến trải nghiệm lưu trữ dữ liệu vượt…

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NVIDIA NVLink Revolutionizing GPU-Accelerated Computing

For GPU and CPU processors in accelerated systems, NVLink is a high-speed link that drives data and computations to useful outcomes. Once limited to high-performance computers in government research facilities, accelerated computing has become widely available.

AI supercomputers are being used by banks, automakers, factories, hospitals, merchants, and others to handle the increasing amounts of data that they must process and comprehend.

These strong, effective systems are computing superhighways. On their lightning-fast trip to actionable answers, they transport calculations and data via parallel routes.

The resources along the route are CPU and GPU processors, and their onramps are quick connections. NVLink is the industry standard for accelerated computing interconnects.

What is NVLink?

A reliable software protocol creates the high-speed link between GPUs and CPUs known as NVLink, which usually runs on many wire pairs printed on a computer board. It enables lightning-fast data transmission and reception across processors from shared memory pools.Image Credit To NVIDIA

At speeds of up to 900 gigabytes per second (GB/s), NVLink, which is now in its fourth iteration, links host and accelerated processors.

The bandwidth of PCIe Gen 5, the link found in traditional x86 servers, is more than seven times that amount. Additionally, because NVLink uses just 1.3 picojoules per bit for data transfers, it has five times the energy efficiency of PCIe Gen 5.

History of NVLink

With each successive NVIDIA GPU architecture, NVLink has improved in tandem since its initial release as a GPU connection with the NVIDIA P100 GPU.Image Credit To NVIDIA

When NVLink first connected the GPUs and CPUs in two of the most potent supercomputers in the world, Summit and Sierra, in 2018, it gained significant attention in the field of high performance computing.

Installed in Oak Ridge and Lawrence Livermore National Laboratories, the systems are advancing science in areas like drug development and catastrophe forecasting, among others.

Bandwidth Doubles, Then Grows Again

The third-generation NVLink, which came with a dozen interconnects in each NVIDIA A100 Tensor Core GPU, increased the maximum capacity per GPU to 600GB/s in 2020.

AI supercomputers in cloud computing services, business data centers, and HPC laboratories worldwide are powered by the A100.

One NVIDIA H100 Tensor Core GPU now contains eighteen fourth-generation NVLink interconnects. Additionally, the technology has assumed a new, strategic function that will allow for the world’s most sophisticated CPUs and accelerators.

A Chip-to-Chip Link

A board-level connection called NVIDIA NVLink-C2C is used to combine two processors onto a single device, forming a superchip. For instance, the NVIDIA Grace CPU Superchip, a processor designed to provide energy-efficient performance for cloud, corporate, and HPC customers, combines two CPU chips to produce 144 Arm Neoverse V2 cores.

A Grace CPU and a Hopper GPU are additionally joined via NVIDIA NVLink-C2C to form the Grace Hopper Superchip. It combines accelerated computation for the most demanding AI and HPC tasks on a single chip.

One of the first to employ Grace Hopper will be Alps, an AI supercomputer slated for the Swiss National Computing Center. The high-performance supercomputer will tackle huge research challenges in domains ranging from quantum chemistry to astrophysics when it goes online later this year.Image Credit To NVIDIA

Additionally, Grace and Grace Hopper are excellent in reducing energy consumption in demanding cloud computing tasks.

The Grace Hopper processor, for instance, is perfect for recommender systems. In order to provide billions of users with trillions of results every day, these internet economic engines require quick and effective access to large amounts of data.

A potent system-on-chip for automakers that incorporates NVIDIA Hopper, Grace, and Ada Lovelace processors and uses NVLink. NVIDIA DRIVE Thor is a vehicle computer that integrates cognitive features including entertainment, automatic driving, parking, digital instrument cluster, and more into a single architecture.

LEGO Links of Computing

NVLink functions similarly to the socket that is imprinted onto a LEGO component. It serves as the foundation for constructing supersystems to handle the most challenging AI and HPC tasks.

For instance, an NVIDIA DGX system’s eight GPUs’ NVLinks exchange quick, direct connections using NVSwitch chips. When combined, they allow for an NVLink network in which each server’s GPU functions as a single system.

DGX workstations itself may be stacked into modular units of 32 servers to provide even higher performance, forming a strong, effective computing cluster.

Using an NVLink network within the DGX and an NVIDIA Quantum-2 switched InfiniBand fabric between them, users may integrate a modular block of 32 DGX devices into a single AI supercomputer. An NVIDIA DGX H100 SuperPOD, for instance, has 256 H100 GPUs to provide up to an exaflop of the best AI performance.

Users may access cloud-based AI supercomputers, like the one Microsoft Azure is constructing with tens of thousands of A100 and H100 GPUs, to achieve even higher performance. Some of the biggest generative AI models in the world are trained using this service by organizations like OpenAI.

Additionally, it serves as another illustration of the potential of accelerated computing.

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Micron 6550 ION, The First E3.S 60TB Data Center NVMe SSD

A basic data center problem how to store more and accomplish more per rack has taken on new urgency as artificial intelligence (AI) datasets grow in size and importance.

Up until recently, the most common strategy for keeping up with peta-level builds and the next GPU generation was to increase SSD density. As shown until 2024, just doubling is unable to satisfy the unquenchable demand for high capacity SSDs with capacities more than 30TB.

World’s first E3.S 60TB SSD revolutionizes PCIe Gen5 rack density

The new Micron 6550 ION is the next big thing in exascale storage innovation, and it was designed from the ground up to maximize performance per terabyte (TB) per watt per rack for the top data centers in the world. In contrast to other 15mm U.2 60TB SSDs, the Micron 6550 ION, the first E3.S-1T 60TB data center SSD in the world, has a z-height of just 7.5mm Up to 40 drives per 2U (~2.5 petabytes [PB]) are made possible by this capability.

You can instantly appreciate the benefit of what is anticipated to be the most popular PCIe Gen5 form factor when you compare this to the customary 24 drives per 2U that most prior 60TB U.2 SSDs enabled (~1.5PB). You can store up to 67% more TB per rack because to this millimeter-level breakthrough in E3.S storage density. Additionally, 60TB E3.S SSDs provide greater flexibility than 120TB U.2 SSDs since they can store around 2.5PB of data per 2U (as opposed to 2.9PB on 120TB U.2), and they probably have up to three times the speed per TB at the chassis level.Image credit to Micron

World’s fastest and most energy-efficient 60TB SSD revolutionizes Gen5 scaling

There is, of course, more. The new Micron 6550 ION, the PCIe Gen5 replacement of the world’s best-selling PCIe Gen4 30TB NVMe SSD by unit volume, keeps pushing the limits of energy efficiency. The original Micron 6500 ION’s ability to give leading value by easily beating rival 30TB QLC SSDs while consuming 20% to 50% less power is one of the factors contributing to its ongoing popularity.

The device received several international invention awards, such as the 2023 International invention Award and the 2024 Edison Award for enhancing global AI scalability and sustainability, which may be attributed to its innovative design. This history is proudly carried on by the new Micron 6550 ION, which delivers best-in-class PCIe Gen5 read and write bandwidth in comparison to all competing 60TB SSDs whileutilizing the same 20W power profile on a better interface. Its innovation’s basic objective is to increase performance while using less electricity. Performance per TB per watt per rack may be enhanced in this way.

It’s faster, denser and greener

It has also increased the standard for sustainability. In addition to outperforming its 60TB rivals in terms of performance per watt, the Micron 6550 ION outperforms its direct PCIe Gen4 predecessor by 76% in terms of read bandwidth per watt (12 GB/s vs. 6.8 GB/s) and 60% in terms of 4KB random read input/output operations per second (IOPS) per watt (1.6 million vs. 1 million).

AI is not a technology that is often connected with sustainability on its own merits since, according to Goldman Sachs Research, data center power use is predicted to increase by 160% by 2030. However, the Micron 6550 ION offers environmental advantages equivalent to 1.8 million mature trees removing carbon dioxide from the atmosphere by allowing full-scale data centers with 100,000 servers to save 5W each drive (20W vs. 25W).

Where and how you store your data matters

In every significant data center memory and storage category, Micron is pleased to be the market leader. These include the best high-capacity DDR5 server DRAM, the most energy-efficient HBM3E, the best AI performance the SSD, and the most energy-efficient 60TB SSDs for networked AI data lakes. Micron places a high priority on efficiency at every stage of memory and storage in AI servers, which translates into reduced yearly power and cooling running costs and more environmentally responsible methods of maximizing the value of your data.

The Micron 6550 ION employs the cutting-edge Micron G8 TLC NAND, which is one to three generations ahead10 of comparable 60TB SSDs, with Micron legacy of leading NAND technology. This makes the drive intrinsically faster, denser, and greener. You need not accept less.

Top 5 features of the Micron 6550 ION SSD

Performance of the best 60TB SSD in its class

20% less electricity is used, improving energy efficiency and lowering yearly running expenses..

Industry-best endurance to extend the drive’s lifespan

60TB of industry-leading security to safeguard your data

The first 60TB E3.S form factor in the market, which allows for up to 67% more storage per rack.

Benefits of Micron 6550 ION

Performance of PCIe Gen5 at the highest level

The industry-leading high-capacity SSD performance required for AI applications is provided by the Micron 6550 ION SSD. It offers up to 179% greater performance than rival devices and up to 20% power savings with 12.0 GB/s sequential reads and 5.0 GB/s sequential writes at under 20 watts. It can write 61.44TB in 3.4 hours, up to 150% quicker than the competitors, because to its remarkable write capability.

Superior energy efficiency

Data center owners are particularly concerned about energy utilization, and the Micron 6550 ION SSD lowers SSD power consumption by up to 20%, which helps save energy expenses. The 6550 ION provides 213% and 179% greater sequential write and read bandwidth per watt, respectively. These advancements make it possible to devote more power to crucial parts like CPUs and GPUs in order to support AI’s demands.

Class-leading E3.S density

The first 60TB E3.S SSD, the Micron 6550 ION SSD, with over 1.2 petabytes per 1U system and industry-leading space efficiency. U.2-capable servers commonly feature 24 SSD slots in 2U, although E3.S-capable servers may have 20 in 1U. The Micron 6550 ION E3.S form factor offers a 67% density gain over these two versions.

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Launching MSI M.2 XPANDER-Z SLIDER GEN5 Expansion Card

A new storage expansion add-on card with EZ DIY capabilities for simple assembly is the M.2 XPANDER-Z SLIDER GEN5. We would like to share additional details about this new accessory with you today.

Two M.2 slots at 2280-sized M.2 SSDs are supported by the PCIe 5.0 x8 interface add-on board M.2 XPANDER-Z SLIDER GEN5. The most exacting storage needs for both ultra-fast speed and expansion are met by each slot’s maximum PCIe 5.0 x41 bandwidth and 128Gbps data transfer speed. It’s thin, too. It fits most chassis because it is only 18.57mm thick (wide).

For high-speed M.2 storage, particularly PCIe 5.0 SSD, thermal design is crucial. To guarantee stable and high-performance M.2 storage, the M.2 XPANDER-Z SLIDER GEN5 has a 70 mm Double-ball Bearing fan next to two M.2 slots. This fan generates up to 19 mm-H2O air pressure. By connecting to the motherboard’s fan header, its fan speed can be adjusted or synchronized with the motherboard.

With the addition of the EZ DIY features to this add-on card, MSI continues to streamline the assembly process and make do-it-yourself projects simple. There won’t be any screws or screwdrivers needed with the Tool-free M.2 installation design. Through the removal and addition of the M.2 SSD from the rear of the chassis, the new EZ Slide design lessens the effort required for the M.2 update. To change an SSD, you don’t need to take out the motherboard’s expansion card or the thermal module. Each M.2 slot on the I/O side has two LEDs next to it that show the EZ Recognition storage state.

The need for more effective and potent storage solutions is growing along with the evolution of PC technology. The M.2 XPANDER-Z SLIDER GEN5 is a recent system performance improvement.This next-generation PCIe Gen 5 expansion card is fast, efficient, and versatile for gamers, enthusiasts, and professionals.

What is the M.2 XPANDER-Z SLIDER GEN5?

A cutting-edge extension card designed to work with the latest generation of M.2 NVMe SSDs is the M.2 XPANDER-Z SLIDER GEN5. Users now want quicker storage options that can manage ever-increasing data volumes with the development of PCIe Gen 5 technology. With previously unheard-of data transfer speeds and improved cooling, the XPANDER-Z SLIDER GEN5 seeks to offer the perfect solution for users who want to maximize the performance of their systems.

With this extension card, you may increase your system’s storage capacity without compromising dependability or speed. With its compatibility for numerous M.2 slots, the XPANDER-Z offers a large amount of storage on a small expansion card.

Key Features of the M.2 XPANDER-Z SLIDER GEN5

PCIe Gen 5 Support

The M.2 XPANDER-Z SLIDER GEN5 fully utilizes the PCIe Gen 5 interface, which can transfer data at 32 GT/s. With twice the read and write speeds of PCIe Gen 4, this reduces load times in demanding applications like 3D rendering, gaming, and video editing.

Versatility with Multiple M.2 Slots

The XPANDER-Z SLIDER GEN5’s ability to accommodate numerous M.2 NVMe SSDs is one of its best qualities. Users can install two M.2 SSDs at once with the card’s dual M.2 slots. For consumers that need both performance and lots of storage space, this increases storage capacity without sacrificing speed. This functionality guarantees that you’re always prepared for high-demand jobs, regardless of whether you’re storing huge game libraries, video files, or other data-heavy workloads.

Improved Cooling Architecture

NVMe SSDs produce more heat as they become more powerful and faster. The XPANDER-Z SLIDER GEN5 has a high-end cooling system with an active fan and a sizable heatsink to solve this problem. By keeping the drives operating at ideal temperatures, this avoids throttling and keeps performance high even after prolonged use.

The XPANDER-Z’s cutting-edge cooling technology makes it exceptionally thermally efficient, extending the life of your M.2 drives and controlling the system’s total temperature.

Compatibility with Backward

The XPANDER-Z SLIDER GEN5 is backward compatible with PCIe Gen 4 and PCIe Gen 3, but it is made to fully utilize the PCIe Gen 5 interface. For consumers who want to improve their system over time, this makes it a future-proof investment. The XPANDER-Z will provide notable performance enhancements even if you’re running hardware from an earlier generation, guaranteeing that your system will continue to be competitive for many years to come.

Simple Setup and Installation

The process of installing the M.2 XPANDER-Z SLIDER GEN5 is simple. It doesn’t need any extra connections or power supply devices because it connects straight to a PCIe 5.0 slot on your motherboard. The card is compatible with the majority of contemporary motherboards that support PCIe slots, and its user-friendly design enables speedy setup.

How Does the M.2 XPANDER-Z SLIDER GEN5 Enhance Gaming Performance?

Faster Load Times

Reduced load times are among the most obvious benefits of using the M.2 XPANDER-Z SLIDER GEN5 for gaming. Players may start playing games more quickly with PCIe Gen 5 M.2 SSDs’ lightning-fast read rates. The improved speed guarantees that you spend less time waiting and more time playing, whether you’re loading a new level, switching between cutscenes, or beginning a new game.

Seamless Game Installation and Updates

The XPANDER-Z’s dual M.2 slots allow you to store a lot of games while still getting the best performance. Rapid write speeds also make it easy to update games, guaranteeing that even large game updates are applied promptly, keeping you ready to play the newest content at all times.

Smoother Streaming and Recording

The M.2 XPANDER-Z SLIDER GEN5 offers higher data throughput for gamers that also record or broadcast their gameplay, guaranteeing fluid performance during demanding gaming sessions. Rapid writing and reading of huge data reduces lag, stuttering, and missing frames, whether you’re streaming at high frame rates or capturing 4K action.

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AMD EPYC 4584PX, 4484PX With 3D V-Cache & AM5 Support

AMD EPYC 4584PX and 4484PX processors, using 3D V-Cache Stacking to Double L3 Cache to 128 MB

AMD EPYC 4004 Series Processors

Data centers, supercomputers, hyperscalers, and large companies require performance and scalability. However, the AMD EPYC 4004 Series Processors target small businesses and dedicated hosting providers seeking economical entry-level server workload solutions.

These processors provide the speed, scalability, and reliability users expect from AMD EPYC while having low core counts, Thermal Design Power (TDP) as low as 65 watts, and affordable prices. This blog discusses workloads in this market segment and AMD EPYC 4004 processors’ performance benefits.

With boost rates up to 5.7 GHz, configurations ranging from 4 to 16 “Zen 4” cores over up to 2 Core Complex Dies (CCDs), and from 8 to 32 threads with Simultaneous Multi-Threading (SMT) enabled, AMD EPYC 4004 Series Processors are a reliable option. Every AMD EPYC 4004 processor includes Gen 3 Infinity Fabric architecture, which supports up to 32 Gbps of die-to-die bandwidth, up to 192GB of DDR5-5200 RAM with ECC enabled, and up to 28 PCIe Gen 5 lanes from the processor, with additional lanes available based on system vendor design specifications.

AMD EPYC 4584PX

Technical Details

Each CCD offers up to 32 MB of shared L3 cache, for a total of up to 64 MB per processor. Packages including all of these are offered at low Thermal Design Power (TDP) levels of 65 to 170 watts.

The tried-and-true AM5 socket is used by all AMD EPYC 4004 variants, providing flexible deployment choices for a range of computing requirements. AMD 3D V-Cache die stacking technology is used by the 12-core AMD EPYC 4484PX and the 16-core AMD EPYC 4584PX, doubling the maximum L3 cache to 128 MB per unit.

Only to the degree that a feature improves efficiency and performance is it beneficial. Small companies and hosting providers need strong systems that can handle demanding workloads while keeping acquisition and running costs under control. In addition to the simplified memory and I/O capabilities that discussed earlier, servers with high-performance AMD EPYC 4004 CPUs provide attractive cost-to-performance ratios across critical customer applications.

By comparing the performance and possible cost savings of 16-core 4th Gen AMD EPYC 4004 processors to those of the competition, let’s take a deeper look at the outstanding performance and value these processors provide to the market.

Utilization Examples

Broadly speaking, the AMD EPYC 4004 CPU is versatile, performant, and economical for a variety of computing workloads, from compute-intensive jobs to common business applications. Among the instances are:

General computing: Workloads including web serving, DNS administration, file sharing, printing, email hosting, messaging, CRM, and enterprise resource planning (ERP) are well handled by AMD EPYC 4004 CPUs.

Web serving and e-commerce: Applications requiring scalability and dependability, such as web serving, are especially well-suited for AMD EPYC 4004 CPUs.

Applications requiring a lot of computation: AMD EPYC 4004 processors with 16 cores and 32 SMT threads speed up compilation and can handle demanding applications.

Gaming: Even the most demanding games run very well because to the powerful “Zen4” CPUs.

Processor Price

Performance and price must be balanced by small and medium-sized enterprises, especially when choosing processors for server construction. In this context, processor costs are an important factor to take into account. Here, it will use the following to demonstrate how much more affordable AMD EPYC 4004 CPUs are than those of their rivals.

AMD EPYC 4584PX 16-core: $699, or around $43.69 per core

Intel Xeon E-2388G 8-core processor: $606 (about $75.75) per core

Intel Xeon E-2488 8-core processor: $606 (about $75.75) per core

Put otherwise, the cost of an AMD EPYC 4584PX CPU core is just around 58% that of an Intel Xeon core. These costs highlight the comparative pricing and leading performance capabilities of AMD EPYC 4004 processors, which makes them an appealing choice for small and medium-sized enterprises trying to maximize their server infrastructure expenditures.

Fundamental Leadership in Workload

Comparing a single-socket 8-core Intel Xeon E-2488 system to a single-socket 16-core AMD EPYC 4584PX system, illustrates the ~1.73x SPECrate 2017_int_rate_base performance uplift achieved by the latter. A performance gain of around 1.50x is also achieved using the identical AMD EPYC 4584PX and Intel Xeon E-2488 CPU.

Advantage of Power Efficiency

Small- to medium-sized businesses and huge data centers struggle with energy costs. The SPECpower_ssj 2008 benchmark standardizes energy efficiency evaluation of volume server-class computers.

The power efficiency of 4th-generation AMD EPYC 4004 CPUs leads SPECpower_ssj 2008. A 16-core AMD EPYC 4584PX system with ~1.81x more energy efficiency than an Intel system. Once again, the AMD EPYC 4004 CPU offers a noteworthy increase in performance per CPU dollar of around 1.57 times.

Java Server Side

The SPECjbb 2015 benchmark simulates a business IT environment that manages online activities, data mining jobs, and point-of-sale transactions in order to assess server-side Java programs. This benchmark is significant to JVM suppliers, hardware manufacturers, Java developers, researchers, and academics because of how widely used Java is. Max-jOPS, which measures maximum throughput without stringent response time restrictions, and critical-jOPS, which measures maximum throughput with reaction time limits, are the performance metrics used by SPECjbb 2015.

A single-socket 16-core AMD EPYC 4584PX system achieves ~2.59x the performance of the same Intel processor on the SPECjbb 2015 composite critical jOPS metric at a performance/CPU dollar result of up to ~2.24x, and ~2.02x the performance of a single-socket 8-core Intel Xeon E-2388G system on the SPECjbb 2015 composite max jOPS metric.

Processing Transactions for Small and Medium-Sized Enterprises

Online transaction processing (OLTP) benchmark TPC Benchmark C describes a set of functional criteria that are common to all transaction processing systems, independent of operating system or hardware. The TPROC-C workload was developed and generated using the HammerDB benchmark tool.Image Credit To AMD

Because the results of this open-source workload do not adhere to the TPC-C Benchmark Standard, they cannot be compared to published TPC-C results. Instead, they are generated from the TPC-C Benchmark Standard. On the other hand, HammerDB TPROC-C is a useful tool for quickly evaluating the performance of database systems, contrasting databases, and system optimization.

A 16-core AMD EPYC 4584PX single-socket system is shown in Figure, delivering about 1.50x MySQL TPROC-C TPM performance and approximately 1.30x performance/CPU dollar compared to the identical Intel processor.

Processing of Media

Image Credit To AMD

The increased demand for high-quality video material has made media processing an increasingly typical edge activity. A flexible multimedia framework, FFmpeg may be used to encode, decode, transcode, stream, filter, and play back video files in a variety of historical and contemporary formats and standards. In comparison to the same Intel system, a single-socket, 16-core AMD EPYC 4584PX system can achieve average FFmpeg encode speed-ups of ~2.13x (8 jobs @ 2 threads per job), ~2.25x (4 jobs @ 4 threads per job), and ~2.45x (2 threads @ 8 cores per job) at a processor cost that is only about 15% higher.

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SK Hynix Unveils PEB110 E1.S SSD For Efficient Data Centers

The development of the high-performance solid-state drive (SSD) for data centers, called PEB110 E1.S, was announced today by SK Hynix Inc.

The AI era has increased consumer demand for ultra-fast DRAM chips, such as high bandwidth memory (HBM), and high-performance NAND solutions, such as SSDs for data centers. Following this trend, the company used the fifth-generation (Gen5) PCIe1 specifications to design and launch a new product with increased data processing speed and power efficiency.

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After successfully introducing PS10102 into mass production, SK Hynix hopes to better serve a wider range of customer demands with a more comprehensive SSD portfolio with the release of PEB110.

Peripheral Component Interconnect Express (PCle): A high-speed, serially organized input/output interface found on digital device motherboards.

PS1010: Based on PCIe Gen5 E3.S and U.2/3, this data center/server-oriented SSD offers ultra-high performance and high capacity.

With a worldwide data center customer, the company is presently in the qualification process. Subject to qualification, mass manufacturing of the product is scheduled to start in the second quarter of the following year.

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PEB110 can transport data at up to 32 gigatransfers per second (GT/s) thanks to PCle Gen5, which is used to the new device and offers double the bandwidth of Gen4. As a result, PEB110 may perform twice as well as the previous generation while increasing power efficiency by over 30%.

In order to greatly improve information security characteristics, SK Hynix has also implemented the security protocol and data model technology, or SPDM, to PEB110 for the first time in its data-center SSDs.

Secure server monitoring and authentication are provided by SPDM, a critical security solution focused on safeguarding server systems. Given the surge in assaults targeting data centers, the business anticipates that PEB110 with SPDM will satisfy clients’ demanding information security requirements.

For increased compatibility across worldwide data centers, the product will be available in three capacity versions: 2 terabyte (TB), 4 TB, and 8 TB. It also satisfies the OCP3 version 2.5 criteria.

Open Compute Project (OCP): A global consortium of top data center providers debating specifications for eSSDs, software and hardware to construct extremely energy-efficient data centers.

Ahn Hyun, Head of the N-S Committee at SK Hynix, stated, “The new product builds on the company’s best-in-class 238-high 4D NAND, boasting the most competitive standards in the industry in terms of cost, performance, and quality.”

Ahn stated, “Going forward, SK Hynix is on track to move forward with customer qualification and volume production to firmly establish their position as the leading global supplier of AI memory in the steadily expanding SSD market for data centers.”

News Highlights

By utilizing 5th-generation PCIe, the SSD offers 2x performance and over 30% more power efficiency than the previous version. In 2Q of next year, mass manufacturing will start after client qualification. SK Hynix will expand its data center SSD line to better serve a wider range of clientele. After success with HBM, the company will strengthen its position as the top global supplier of AI memory in NAND solutions, such as SSDs.

The PEB110 E1.S solid-state drive (SSD) from SK Hynix was created to meet the increasing needs of data centers, especially in the era of artificial intelligence. Utilizing the fifth-generation PCIe requirements, this new device offers notable gains in efficiency and performance.

Principal attributes and advantages

Improved Performance

When compared to its predecessors, the PEB110 E1.S offers a significant performance boost. It can transport data at up to 32 gigatransfers per second (GT/s) using PCIe Gen5. Because of the resulting much faster data processing, it is perfect for demanding applications such as AI inference and training.

Greater Power Efficiency

The greater power efficiency of the PEB110 E1.S is one of its most notable features. For data centers looking to cut expenses and their environmental effect, the SSD’s low power consumption and excellent performance are essential features.

Enhanced Security

The PEB110 E1.S integrates the Security Protocol and Data Model (SPDM) technology in response to the growing concerns around data security. Strong authentication and monitoring features offered by SPDM aid in preventing unwanted access to critical data.

Expanded Capacity Options

SK Hynix will provide 2TB, 4TB, and 8TB PEB110 E1.S capacities. Thanks to this, data centers may choose the storage choice that best suits their needs and workloads.

Possible Uses

AI and machine learning

The strong performance and low latency of the PEB110 E1.S make it an excellent choice for workloads including AI training and inference, which helps to expedite the creation and deployment of models.

High-Performance Computing (HPC)

The SSD can effectively manage big datasets and intricate simulations in HPC environments.

Cloud computing and data centers

The PEB110 E1.S can assist in enhancing overall performance and efficiency as data centers continue to expand in size and complexity.

In summary

The SK Hynix PEB110 E1.S signifies a noteworthy progression in data center SSD technology. It is an appealing option for businesses looking to improve their storage infrastructure because of its mix of high performance, power efficiency, and better security features.

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Micron 9550 NVMe SSD: Powering the Future of Data Centers

The fastest data Centre SSD in the world

As the fastest SSD for data centre storage in the world, the Micron 9550 NVMe SSD outperforms rivals.

Designed to handle vital tasks including artificial intelligence (AI), performance-focused databases, caching, online transaction processing (OLTP), and high-frequency trading that demand extraordinary speed, scalability, and power efficiency. These workloads and more are made possible by the Micron 9550 NVMe SSD for flexible deployment in OEM, cloud, data centre, and system integrator architectures. With a maximum storage capacity of 30.72TB, the Micron 9550 SSD contributes to the achievement of ideal storage density.

Broad Open Compute Project (OCP) 2.0 compatibility is built into the Micron 9550 SSD, and extra OCP 2.5 support is available for adding comprehensive telemetry data logging to track the SSD’s health and performance. In addition to delivering cloud-scale AI capabilities to enterprise data centres, OCP offers intelligent management tools to optimise and proactively address typical data centre challenges.

With important security features including SPDM 1.2, SHA-512, and RSA standards, the Micron 9550 helps protect your data. For extra protection, Micron offers specialised processing hardware with physical separation through its Secure Execution Environment (SEE).

Advantages Micron 9550 NVMe SSD

Increased productivity and efficiency for tasks with a lot of data

Achieving 14.0 GB/s sequential reads and 10.0 GB/s sequential writes, the Micron 9550 offers best-in-class performance. This outstanding speed up to 67% faster than comparable SSDs from competitors helps guarantee unparalleled performance for taxing workloads.

The perfect SSD for  artificial intelligence

More power and performance are required for AI applications, and this drive is designed to handle the most taxing workloads. Utilising NVIDIA technology, the Micron 9550 surpasses competitors in terms of power efficiency and  AI task performance thanks to Big Accelerator Memory (BaM). It uses up to 43% less average SSD power while delivering up to 60% quicker feature aggregation performance and up to 33% faster task completion times.

Vertical integration and the newest features are provided by Micron innovation NVIDIA

Micron-designed DRAM, NAND, firmware, and controller ASIC are integrated in the Micron 9550. NVMe 2.0 and OCP 2.0 are supported, along with OCP 2.5 for telemetry data logging.2. Its end-to-end security capabilities, which include encryption, SED, SPDM 1.2, and SEE, protect data.

Data centres need storage systems that can adapt to the rapid changes in industry and innovation brought about by artificial intelligence (AI). Please welcome their latest drive, the Micron 9550 NVMe SSD, to meet this demand. This innovative vertically integrated SSD employs Micron’s industry-leading 232-layer NAND and PCIe Gen5 technology. Cutting edge Micron technologies improve performance and power efficiency. Fast and power-efficient, the Micron 9550 NVMe SSD is the fastest PCIe Gen5x4 data centre SSD. It’s not only fast, though.

The Micron 9550 is a highly efficient and quick device.

With PCIe Gen5 technology, the Micron 9550 SSD offers industry-leading speeds and an incredible performance. With the Micron 9550, you can:

Sequential read performance of up to 14 GB/s is a notable improvement in data transfer speeds that leads the industry.

With a sequential write capability of up to 10 GB/s, it outperforms other PCIe Gen5 drives on the market by up to 67%.

Up to 3.3 million IOPS random read performance 35% better than competitors.

Up to 400,000 IOPS of random write performanceup to 33% faster than competitive solutions.

AI: The PCIe Gen5 application that kills

The need for high-performance storage solutions is being driven by AI, which has emerged as PCIe Gen5′s killer application. AI model sizes are increasing, and with them comes the need for effective data processing. These demands are too much for traditional file access techniques, which result in high overhead and latency. Big Accelerator Memory (BaM), a novel storage software solution, is being developed to exploit SSDs for direct, fine-grain access as GPU threads to big training models and vast datasets, in order to overcome this difficulty.

Direct storage device access is made possible without the need for CPU intervention via BaM’s unique storage driver, which is optimised for parallel GPU processing. This leads to optimised IOPS and a notable decrease in training durations for workloads such as graph neural networks (GNN), which depend on tiny, random read operations across big datasets.

BaM has proven its abilities by optimising input/output operations per second (IOPS) and drastically reducing GNN training times. We set a new benchmark for AI data processing speed and efficiency with their testing of BaM on the Micron 9550.

Performance and sustainability come together

The Micron 9550 SSD is a noteworthy example of sustainability due to its exceptional performance as well as its much higher energy efficiency, which is important for AI applications. Micron testing data shows that the Micron 9550 NVMe SSD beats its rivals by up to 60% in GNN training using BaM, while using up to 43% less energy per SSD. This means that an amazing 29% less system energy is needed to do the same task.

See their technical brief on Micron 9550 NVME SSD and Big Accelerator Memory (BaM) for more information.

Comparably, their testing on large language model inference shown up to 15% better performance with the Micron 9550 SSD while preserving up to 37% of the energy per drive, translating into up to 19% system energy savings

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