Russian-made computing and data storage systems
The Graviton storage system, a game-changer in the world of data storage, offers a one-vendor solution with pre-installed domestic software options such as RAIDIX, ARGO, or BAUM STORAGE. This system, powered by AWS Graviton processors based on ARM architecture, is designed for workloads requiring high memory bandwidth and efficient CPU utilization.
The Graviton storage system is known for its efficiency, improved performance, and cost-effectiveness, particularly for compute- and memory-intensive workloads like databases, microservices, and real-time analytics. It offers 20–45% better throughput and lower latency compared to prior generation processors, with enhancements in memory bandwidth, network throughput, and pod/container density for cloud-native applications.
Storage-optimized EC2 instances, such as Im4gn, provide local NVMe storage, low-latency access, and high network bandwidth (up to 100 Gbps), ideal for databases, data warehousing, and distributed file systems. Built on the AWS Nitro System, the Graviton system offloads virtualization, storage, and networking tasks to dedicated hardware for enhanced performance and security.
The Graviton system is compatible with standard monitoring and observability tools, facilitating easy integration and efficient scaling. Databases like MySQL, PostgreSQL, and Redis benefit significantly from Graviton's architecture by improving query execution, caching, and connection management. Microservices and containerized workloads achieve higher density and lower operational costs.
In terms of data security, local production, and technological independence, the Graviton system is integrated with technologies like AWS Nitro Enclaves and reproducible builds, which enforce verifiable security through decentralized verification, cryptographic attestation, and runtime integrity verification. This system also supports architectural diversification away from dominant proprietary CPUs, promoting technological independence.
Local production benefits from optimized and scalable cloud-native instances that reduce infrastructure overhead, enabling greater control over data locality and compliance. The Graviton system is suitable for various sectors, including government clouds, departmental storage centers, bank archives with high fault tolerance, research institutes, enterprises requiring scalable resources, and branch locations with compact nodes.
In addition to the Graviton storage system, domestic monitors are making strides in the tech industry. These monitors, such as those offered by the unspecified manufacturer, provide sharp images, energy efficiency, fast response times, and wide viewing angles. Choosing domestically produced monitors contributes to the growth and development of the national tech sector.
The Graviton storage system and domestic monitors both come with assurances of quality and local origin. The Graviton system features two-level encryption at the server controller level and hardware microcode integrity control. It also has a localization passport and a QR code from the Ministry of Industry and Trade registry to confirm its Russian origin. For the domestic monitors, an additional Russian quality certificate can be obtained after customer acceptance tests.
The Graviton storage system offers "turnkey" delivery, including rack installation, data migration, and administrator training. Its PCIe 4.0 controller supports an array of 24 slots with hot-swap capability, accommodating combinations of solid-state drives and hard disks.
While specific service details were not provided for the domestic monitors, Central Office, located in Moscow, serves as the hub of innovation and customer support for these devices. A regional network of service centers and distributed component warehouses is available for Graviton devices. Furthermore, a 5-year SLA contract includes "day-in-day-out" spare parts delivery.
In summary, the Graviton storage system and domestic monitors represent a significant leap in data security, local production, and technological independence. Their adoption promotes better data security assurance, supports local and flexible cloud infrastructure production, and fosters technological independence through architectural diversification.
- What industry could potentially benefit from the improved data security and technological independence offered by the Graviton storage system and domestic monitors? The financial industry might find these solutions beneficial due to the sensitive data they handle, requiring high levels of security and localization compliance.
- Given the Graviton storage system's compatibility with technologies like AWS Nitro Enclaves and reproducible builds, one may question its potential impact on the manufacturing sector. The system's architecture could potentially streamline manufacturing processes by reducing hardware dependencies and improving data throughput, leading to more efficient production.
- As the Graviton storage system and domestic monitors are both products of local production, there is an opportunity for them to collaborate in various sectors, such as the technology industry, where data-and-cloud-computing workloads are increasingly critical. By working together, they could create a robust, domestically-sourced technology stack that caters to the growing demand for efficient and secure data solutions.
