The core products of the V2 computing platform mainly include V2 series servers and server-based solution products. The V2 series servers adopt an open and diversified architectural design, supporting a variety of mainstream general-purpose processors and acceleration chips in the industry. These servers incorporate advanced computing, storage, and interconnect technologies. The servers are suitable for a full spectrum of computing scenarios, providing full-scale intelligent management for components, servers, and data centers. With liquid cooling technologies supported across the entire server series, the servers support kilowatt-level heat dissipation per chip with the standardized design of liquid cooling components.
Moreover, our solution products are built upon the V2 computing platform and designed for various scenarios, including edge microcenters, private clouds, critical database businesses, and large-scale data processing. These solutions, in collaboration with the new all-in-one solution introduced by partners such as SAP and VMware for business application optimization, can meet various requirements such as infrastructure development, application hosting, data security, and streamlined O&M.
The V2 series features an open, diversified architectural design supporting various mainstream general-purpose processors and acceleration chips. This series comprises 46 new products, accommodating 8 mainstream general-purpose processor chips and 51 accelerated computing chips. Besides, the servers have extensively optimized the circuit, component, firmware, and system levels to support the diversified computing platform robustly.
The V2 computing platform caters to various application scenarios, including computing power density optimization, all-flash computing, large-scale data centers, edge microcenters, private clouds, critical database businesses, and large-scale data processing. It provides an ideal computing application platform, allowing customers to select suitable products based on different application loads and diverse scenarios.
InManage offers full-scale management capabilities at the component, node, cabinet, and data center levels, enabling integrated and intelligent management and O&M across multiple data centers, diverse geographical locations, heterogeneous devices, and deployments of hundreds of thousands of servers. Leveraging insights from a growing database of over 500 fault models and the expertise gained from over 30,000 instances, InManage offers precise fault diagnosis with an online diagnostic accuracy rate exceeding 95%. KOS is deployed in the entire series to offer software-hardware collaboration and optimization solutions at the OS level in response to the growing complexity of evolving application scenarios. It is a perpetual genuine version that ensures the reliable operation of enterprise businesses.
Critical components are strictly selected to satisfy lead-free requirements (RoHS), and all package materials are 100% recyclable. Our liquid cooling solutions span AI, high-density computing, storage, and general-purpose servers, achieving comprehensive liquid cooling throughout the V2 platform. Modular cold plate components are designed to enable liquid cooling for CPUs and heterogeneous acceleration chips used in the entire series. Our system solutions encompass both air-liquid and liquid-liquid systems, providing end-to-end solutions to facilitate the seamless construction of turn-key liquid-cooled data centers with a PUE of less than 1.1.
The KR2280V2 is a mainstream high-end 2U 2-socket rack server that features the 4th Gen Intel® Xeon® Scalable processors, the 4th Gen AMD EPYC™ processors, and the Ampere One processors, spanning three major computing platforms of Intel, AMD, and ARM. It is almost perfectly designed in terms of computing performance, storage performance, and scalability. In addition, it supports front I/O, liquid cooling, and other deployment options. The server is built upon four key design principles of open innovation, optimal efficiency, eco-friendly energy-saving, intelligence, and high efficiency, and offers versatile configurations to cater to the diverse demands of various industries and scenarios.
The KR1280V2 is a mainstream high-end 1U 2-socket rack server that features the 4th Gen Intel® Xeon® Scalable processors, the 4th Gen AMD EPYC™ processors, and the Ampere One processors, spanning three major computing platforms of Intel, AMD, and ARM. It is almost perfectly designed in terms of performance, density, and scalability. In addition, it provides the most diverse storage matrices in the industry and introduces multi-dimensional cooling solutions (air cooling, cold-plated liquid cooling, and immersion cooling) for 1U models, catering to virtualization, high-performance computing, all-flash storage, and other application scenarios and meeting the low PUE requirements of high-density data centers.
The KR1270V2 is a streamlined, cost-effective 1U 2-socket rack server that features the 4th Gen Intel® Xeon® Scalable processors. It combines the minimalist configuration with high computing density to achieve the optimal balance between overall performance and scalability and meets the light-weight service load needs upon the refined design, catering to cloud computing, virtualization, and other high-density computing scenarios while satisfying the deployment demand of high-density data centers.
The KR2266V2 is a high-density 2U2S storage-optimized server powered by the 4th Gen Intel® Xeon® Scalable processors. It features an innovative three-tier storage architecture that significantly improves storage density, computing power, network bandwidth, and intelligent management. In addition, the balanced and symmetric system architecture provides increased data capacity, larger data throughput, and stronger data processing capabilities, making it highly suitable for big data, CDN, hyper-convergence, distributed storage, and other application scenarios.
The KR4266V2 is a 4U2S general-purpose storage-optimized server powered by the 4th Gen Intel® Xeon® Scalable processors. Within a 4U space, it provides high storage capacity, powerful computing performance, ultimate I/O expansion capabilities, and high energy efficiency, making itself highly suitable for application scenarios such as warm/cold data storage, video storage, big data storage, and cloud storage pool creation. In addition, multiple cooling options, such as air cooling and cold-plated liquid cooling, are adopted in storage models for the first time, satisfying the demand for low PUE in high-density data centers.
The KR4276V2 is a 4U2S high-capacity, high-density storage rack server powered by the 4th Gen Intel® Xeon® Scalable processors. With a compact size, flexible I/O, energy saving, and other ultimate designs, it provides a huge storage capacity to meet the user's current and future needs for service expansion. Within a 4U space, this server supports 60 3.5-inch drives, meeting stringent space and storage cost requirements, making it suitable for cloud storage, video storage, big data, archiving, and other application scenarios.
The KR2460V2 is a high-end 2U 4-socket rack server powered by the 4th Gen Intel® Xeon® Scalable processors. It meets business requirements for high computing performance and large memory capacity and is also a perfect solution for customers with density and storage demands. Hence, it is ideal for application scenarios requiring high-density servers, such as virtualization, database, SAP HANA, and HPC.
The KR4480V2 is a high-end 4U 4-socket rack server powered by the 4th Gen Intel® Xeon® Scalable processors. It has been optimized for powerful computing performance and features a flexible modular design, excellent scalability, and enhanced reliability and security for customers' data-intensive critical services. This server is suitable for application scenarios such as large transaction databases, in-memory databases, virtualized integration, HPC, deep learning, and ERP.
The KR6880V2 is a high-end 8-socket server powered by the 4th Gen Intel® Xeon® Scalable processors. It offers exceptional computing performance and extremely high reliability, is dedicated to customers' mission-critical applications, and is perfect for application scenarios such as large-scale transaction databases, SAP HANA, ERP, HPC, and mission-critical virtualization.
The KR2180V2 is a high-density, cost-effective 2U single-socket rack server series that features the 4th Gen AMD EPYC™ processor. It integrates more cores and provides a higher base frequency and a larger cache, maximizing storage and scalability in a 2U space. This model perfectly suits application scenarios such as big data, distributed storage, video transcoding, and HPC, effectively raising the TCO benefits of the server room.
The KR1180V2 is a high-density, cost-effective 1U single-socket rack server series that features the 4th Gen AMD EPYC™ processor. It integrates more cores and provides a higher base frequency and a larger cache, providing ultimate computing performance in a 1U high-density space. With balanced networking and expansion features, it saves server room space and is suitable for application scenarios such as cloud computing, virtualization, big data, and distributed all-flash storage.
The KAYTUS KT3020V2 is designed to provide reliable hardware foundations for comprehensive solutions such as remote office environments, email and print services. It offers flexibility for expansion based on customers' actual application environments, catering to the ever-changing application needs of customers and the dynamic operational environments.
The K24V2 is a high-density, multi-node server spanning both Intel and AMD platforms, compatible with 4 single-socket or 2-socket computing nodes. It offers ultimate performance, high reliability, and intelligent power and fan control features in a standard 2U cabinet. Its flexible storage configurations help save server room space and reduce energy consumption and cabinet deployment costs. In addition, the server is designed for distributed infrastructures such as HPC, cloud resource pools, and big data analysis based on high-performance computing, virtualization, and other computing-intensive application scenarios.
