VxRail satellite node enables customers to extend the benefits of the common operating model provided by VxRail HCI System Software to expand workloads outside of the data center. With the rapid digital transformation, workloads expanding outside of traditional core data centers, and the proliferation of 5G networks, there is an immediate need for a small footprint, low-cost, easy-to-manage infrastructure that provides the same benefits as VxRail. This is especially true for retail, telecommunications, manufacturing, and ROBO customers as more data collection and data processing happens at the edge. VxRail satellite node is a single-node deployment option that delivers the simplicity and automation of VxRail at the core data center to the edge.
VxRail satellite nodes are based on the existing E660/F and V670F models and have the same hardware options, enabling a variety of configurations from a lightweight, single- socket hybrid E Series to a GPU accelerated V670 heavyweight. In addition, VxRail satellite nodes come with PERC H755 to provide local RAID protection. They are managed from an existing VxRail cluster with vSAN which, in addition to its existing workload, has the supplementary role of managing up to 500 VxRail satellite nodes.
Secure drive access on VxRail satellite nodes can be applied using encrypted keys with through the PERC card. Local key management is performed exclusively within the satellite node where the keys are stored on the PERC card. While the PERC card is still used to restrict access to the local drives, remote key management provides enhanced protection with the use of a centralized remote key management server. The local key management option is the more affordable option; however, security will be compromised if the entire node is stolen. Remote key management requires additional iDRAC licensing, provides stronger protection in case of theft, and offers a more efficient scale-out solution.
Intel Xeon Scalable platforms are powerful infrastructure that represents an evolutionary leap forward in agility and scalability. Disruptive by design, it sets a new benchmark in platform convergence and capabilities across compute, storage, memory, network, and security. An innovative approach to platform design in Intel Xeon Scalable processors unlocks the power of scalable performance for today’s datacenters and communications networks—from the smallest workloads to the most mission-critical applications.
Intel Inside. Trusted clouds outside.
Intel innovation is driving the modernization and hybrid cloud transformation of the traditional enterprise datacenter.
Migrating to the newest generation of high-performing and energy-efficient Intel-based hardware tunes a datacenter for highly optimized performance across a broad set of enterprise workloads while lowering costs and improving resource utilization.
Over time, evolving to a software-defined infrastructure (SDI) across all the critical domains of the datacenter (compute/storage/network) will deliver critical automation, orchestration, and telemetry capabilities to help businesses unlock the full capabilities of multi-cloud computing.
With modern, industry-standard Intel servers and technologies that run on software-defined infrastructure, customers can seamlessly manage an environment that supports development and delivery of cloud-native applications and mission-critical workloads on secure private clouds, while also integrating with public clouds, many of which already run on Intel architecture.
With up to 40 cores delivering highly enhanced per core performance, significant increases in memory bandwidth (eight memory channels) and I/O bandwidth (64 PCIe lanes), the most data-hungry, latency-sensitive applications such as in-memory databases and high-performance computing will see notable improvements enabled by denser compute and faster access to large data volumes.
The convergence of compute, memory, network, and storage performance combined with software ecosystem optimizations make Intel Xeon Scalable platforms ideal for fully virtualized, software-defined datacenters that dynamically self-provision resources—on-premises, through the network, and in the public cloud—based on workload needs.
AMD Infinity Architecture is the foundation of AMD processor technology. A thoughtful design approach to accelerate computation, access data quickly, and help protect against ever-changing security threats. AMD have brought many firsts to the market:
AMD EPYC has been engineered for data centers that rely on CPU performance. From oil and gas exploration, in-memory databases, and big data analytics to production rendering to standard data center applications, highly parallel workloads have more cores to work with. Traditional CPUs typically must scale up to a 2-socket server to overcome an imbalance of resources. With AMD EPYC, single-socket servers satisfy many workload needs, helping increase density and reduce capital, power, and cooling expenses.
PowerEdge servers are optimized for the AMD EYPC processors taking advantage of the additional cores, faster and additional memory channels, and of PCIe 4.0 for faster networking.
Storage capacity for the VxRail system is provided by drives that have been integrated, tested, and validated by Dell. VxRail configurations use 2.5” form-factor SSDs, 2.5” NVMe drives, and mechanical HDDs. There is a VxRail configuration that uses 3.5” form-factor drives for dense-storage requirements. Disks drives are logically organized into disk groups. Disk groups are configured in two ways:
The flash drives used for caching and capacity have different endurance levels. Endurance level refers to the number of times that an entire flash disk can be written every day for a five-year period before it must be replaced. A higher-endurance SSD is used for write caching, and capacity-optimized SSDs are used for capacity. All VxRail disk configurations use a carefully designed cache-to-capacity ratio to ensure consistent performance. Capacity SSDs are offered in both higher endurance SAS and SATA. The SATA SSDs are a lower cost option, up to 30% per drive, and great for read or moderately intensive workloads.
All-NVMe configurations are available which use either Intel Optane or NVMe drives for cache, and NVMe drives for capacity. The E660N is a cost-effective 1U platform that can support a variety of workloads including data warehousing, database, and analytical workloads with its support for NVIDIA single width GPUs. The P580N is the only 4-socket VxRail offering. Combined with all-NVMe storage, it is an ideal platform for memory-intensive and compute-heavy application workloads.
VxRail nodes can be configured with choice of processor, memory, storage (cache and capacity drives), networking, power supply, and GPU (most but not all node types). Customers can be assured their VxRail is configured to best match their workload requirements in a very prescriptive manner, with millions of possible configuration combinations in the VxRail Series. Combine this with the numerous ways to scale on demand, and it is clear that VxRail provides the agility demanded by today’s modern IT. Upgrade options for VxRail include, memory, GPU, NIC cards, cache, and capacity drives expand workload use case possibilities.