QuantaStor
QuantaStor, a unified Software Defined Storage platform, is designed to scale up and down to simplify storage management and reduce overall storage costs. QuantaStor storage grids can be configured to support complex workflows that span datacenters and sites. QuantaStor's storage technology includes a built-in Federated Management System that allows QuantaStor servers and clients to be combined to make management and automation easier via CLI and RESTAPIs. QuantaStor's layered architecture gives solution engineers unprecedented flexibility and allows them to design applications that maximize workload performance and fault tolerance for a wide variety of storage workloads. QuantaStor provides end-to-end security coverage that allows multi-layer data protection for cloud and enterprise storage deployments.
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Dragonfly
Dragonfly serves as a seamless substitute for Redis, offering enhanced performance while reducing costs. It is specifically engineered to harness the capabilities of contemporary cloud infrastructure, catering to the data requirements of today’s applications, thereby liberating developers from the constraints posed by conventional in-memory data solutions. Legacy software cannot fully exploit the advantages of modern cloud technology. With its optimization for cloud environments, Dragonfly achieves an impressive 25 times more throughput and reduces snapshotting latency by 12 times compared to older in-memory data solutions like Redis, making it easier to provide the immediate responses that users demand. The traditional single-threaded architecture of Redis leads to high expenses when scaling workloads. In contrast, Dragonfly is significantly more efficient in both computation and memory usage, potentially reducing infrastructure expenses by up to 80%. Initially, Dragonfly scales vertically, only transitioning to clustering when absolutely necessary at a very high scale, which simplifies the operational framework and enhances system reliability. Consequently, developers can focus more on innovation rather than infrastructure management.
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Supermicro MicroCloud
The 3U systems can accommodate 24, 12, or 8 nodes, featuring 4 DIMM slots each, with options for hot-swappable 3.5” or 2.5” NVMe/SAS3/SATA3 drives. Enhanced by onboard 10 Gigabit Ethernet, these systems are designed for optimal cost-effectiveness. The MicroCloud’s modular design ensures high density, ease of maintenance, and affordability, which are critical for modern hyper-scale operations. Integrated within a compact 3U chassis measuring under 30 inches in depth, these modular server nodes can save over 76% of rack space compared to conventional 1U servers. This family of MicroCloud servers specializes in single socket computing, optimized for hyper-scale data centers, utilizing the latest power-efficient and high-density system-on-chip (SoC) processors, including the Intel® Xeon® E/D/E3/E5 and Intel® Atom® C Processors, allowing for diverse and scalable cloud and edge computing solutions. Conveniently, power and I/O ports are positioned at the front of the chassis, facilitating quick server provisioning, upgrades, and maintenance tasks, enhancing operational efficiency further.
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HPE Cray
The HPE Cray exascale supercomputers represent a groundbreaking design, developed from scratch to efficiently manage the extensive demands of modern converged modeling, simulation, artificial intelligence, and analytics tasks. This marks the dawn of a new chapter in supercomputing technology. The innovations in HPE Cray supercomputers stand as one of the most pivotal advancements in technology we have seen in recent decades. With these machines, we are enabling transformative capabilities for the complex questions of our time. HPE Cray supercomputers embody the future of computing, designed to support the evolving landscape of science, discovery, and achievement. Rethought and meticulously engineered, this solution responds to the diverse requirements of today's digital age. Through a combination of advanced hardware and software innovations, we are addressing the complexities that arise from increasing core counts, the diversification of compute node architectures, and the necessity for scalable AI workflows, paving the way for unprecedented progress in various fields. The ability to tackle such challenges is what truly sets these supercomputers apart.
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