Tuesday, July 23rd 2024
Micron Introduces 9550 NVMe Data Center SSD
Micron Technology, Inc., today announced availability of the Micron 9550 NVMe SSD - the world's fastest data center SSD and industry leader in AI workload performance and power efficiency. The Micron 9550 SSD showcases Micron's deep expertise and innovation by integrating its own controller, NAND, DRAM and firmware into one world-class product. This integrated solution enables class-leading performance, power efficiency and security features for data center operators.
The Micron 9550 SSD delivers best-in-class performance with 14.0 GB/s sequential reads and 10.0 GB/s sequential writes to provide up to 67% better performance over similar competitive SSDs and enables industry-leading performance for demanding workloads such as AI. In addition, its random reads of 3,300 KIOPS are up to 35% better and random writes of 400 KIOPS are up to 33% better than competitive offerings.AI workloads require high-performance storage solutions. The sequential and random read and write speeds of the 9550 SSD unlock performance for AI use cases. For example, large language models (LLMs) require high sequential reads, while graph neural networks (GNNs) need high random read performance. The Micron 9550 SSD outperforms competitive offerings in critical AI workloads, with up to 33% faster workload completion times and up to 60% faster feature aggregation in GNN training with Big Accelerator Memory (BaM). The Micron 9550 SSD also provides up to 34% higher throughput for NVIDIA Magnum IO GPUDirect Storage.
"The Micron 9550 SSD represents a giant leap forward for data center storage, delivering a staggering 3.3 million IOPS while consuming up to 43% less power than comparable SSDs in AI workloads such as GNN and LLM training," said Alvaro Toledo, vice president and general manager of Micron's Data Center Storage group. "This unparalleled performance, combined with exceptional power efficiency, establishes a new benchmark for AI storage solutions and demonstrates Micron's unwavering commitment to spearheading the AI revolution."
"Enhancing data center efficiency and performance for AI workloads is pivotal to reducing costs and ensuring reliable operations for enterprises everywhere," said Rob Davis, vice president of Storage Technology at NVIDIA. "With the integration of NVIDIA technologies, the Micron 9550 SSD can provide powerful storage for AI."
"Innovation in storage technologies is a critical aspect of powering latency sensitive workloads such as AI and business critical enterprise applications," said Raghu Nambiar, corporate vice president, Data Center Ecosystems and Solutions at AMD. "Our deep collaboration with Micron, and partners across the ecosystem, will ensure the full capabilities of the new 9550 SSDs are enabled on AMD EPYC-based servers."
"Intel is pleased to see Micron enter the PCIe Gen 5 market with the Micron 9550 NVMe SSD. This PCIe Gen 5 SSD aligns well with Intel's PCIe Gen 5 CPU platforms, specifically Intel's 4th Gen Xeon, 5th Gen Xeon, and Intel Xeon 6 processors," said Debendra Das Sharma, Senior Fellow and Chief I/O Architect at Intel. "Micron is a valued ecosystem partner to Intel, with a long history of providing well-integrated PCIe solutions with Intel-based platforms, including supporting solutions with Intel's Virtual RAID on CPU (Intel VROC), as well as AI workloads powered by Intel Gaudi AI accelerators."
The Micron 9550 SSD excels in delivering industry-leading power efficiency to support a variety of AI workloads, including:
Available in capacities ranging from 3.2 TB to 30.72 TB and in U.2, E1.S and E3.S form factors, the 9550 SSD delivers a broad portfolio of offerings to enable performance, flexibility and scalability for today's PCIe Gen 5 server designs. Designed to meet the demanding requirements of top OEMs and hyperscalers, the 9550 SSD is sampling globally and is part of Micron's industry-leading data center memory and storage product portfolio that meets the growing demands of AI, HPC and many other workloads.
Source:
Micron
The Micron 9550 SSD delivers best-in-class performance with 14.0 GB/s sequential reads and 10.0 GB/s sequential writes to provide up to 67% better performance over similar competitive SSDs and enables industry-leading performance for demanding workloads such as AI. In addition, its random reads of 3,300 KIOPS are up to 35% better and random writes of 400 KIOPS are up to 33% better than competitive offerings.AI workloads require high-performance storage solutions. The sequential and random read and write speeds of the 9550 SSD unlock performance for AI use cases. For example, large language models (LLMs) require high sequential reads, while graph neural networks (GNNs) need high random read performance. The Micron 9550 SSD outperforms competitive offerings in critical AI workloads, with up to 33% faster workload completion times and up to 60% faster feature aggregation in GNN training with Big Accelerator Memory (BaM). The Micron 9550 SSD also provides up to 34% higher throughput for NVIDIA Magnum IO GPUDirect Storage.
"The Micron 9550 SSD represents a giant leap forward for data center storage, delivering a staggering 3.3 million IOPS while consuming up to 43% less power than comparable SSDs in AI workloads such as GNN and LLM training," said Alvaro Toledo, vice president and general manager of Micron's Data Center Storage group. "This unparalleled performance, combined with exceptional power efficiency, establishes a new benchmark for AI storage solutions and demonstrates Micron's unwavering commitment to spearheading the AI revolution."
"Enhancing data center efficiency and performance for AI workloads is pivotal to reducing costs and ensuring reliable operations for enterprises everywhere," said Rob Davis, vice president of Storage Technology at NVIDIA. "With the integration of NVIDIA technologies, the Micron 9550 SSD can provide powerful storage for AI."
"Innovation in storage technologies is a critical aspect of powering latency sensitive workloads such as AI and business critical enterprise applications," said Raghu Nambiar, corporate vice president, Data Center Ecosystems and Solutions at AMD. "Our deep collaboration with Micron, and partners across the ecosystem, will ensure the full capabilities of the new 9550 SSDs are enabled on AMD EPYC-based servers."
"Intel is pleased to see Micron enter the PCIe Gen 5 market with the Micron 9550 NVMe SSD. This PCIe Gen 5 SSD aligns well with Intel's PCIe Gen 5 CPU platforms, specifically Intel's 4th Gen Xeon, 5th Gen Xeon, and Intel Xeon 6 processors," said Debendra Das Sharma, Senior Fellow and Chief I/O Architect at Intel. "Micron is a valued ecosystem partner to Intel, with a long history of providing well-integrated PCIe solutions with Intel-based platforms, including supporting solutions with Intel's Virtual RAID on CPU (Intel VROC), as well as AI workloads powered by Intel Gaudi AI accelerators."
The Micron 9550 SSD excels in delivering industry-leading power efficiency to support a variety of AI workloads, including:
- GNN training with BaM: Up to 43% lower SSD average power and up to 29% reduction in overall system energy usage
- NVIDIA Magnum IO GPUDirect Storage: Up to 81% less SSD energy per 1 TB transferred
- MLPerf: Up to 35% less SSD energy and up to 13% less system energy used
- Llama LLM training fine tuning with Microsoft DeepSpeed: Up to 21% less SSD energy used
Available in capacities ranging from 3.2 TB to 30.72 TB and in U.2, E1.S and E3.S form factors, the 9550 SSD delivers a broad portfolio of offerings to enable performance, flexibility and scalability for today's PCIe Gen 5 server designs. Designed to meet the demanding requirements of top OEMs and hyperscalers, the 9550 SSD is sampling globally and is part of Micron's industry-leading data center memory and storage product portfolio that meets the growing demands of AI, HPC and many other workloads.
6 Comments on Micron Introduces 9550 NVMe Data Center SSD
Are they better than intel optane?
Given how much more expensive older Gen 4 version became in space of 3-4 months, these babies will be really, really pricey. Jumping to Gen 5 now. If I'm to take educated guess minimum +50% over previous generation, perhaps even more - depends how circuitry inside is designed for signal integrity. Demand for high capacity storage is at all time high so I'm sure price gouging will be normal state of affairs.
Progress... :(
As side note you can use these drives in everyday PCs just fine (I'm Micron fanboy ;) ). Micron is the only company I know, which doesn't lock firmware updates behind corporate BS. Using same simple software to manage enterprise and consumer drives.
Intel also uses firmware updates using simple software.