memory — An area in your system that stores basic system data. A system can contain several different forms of memory, such as integrated memory (ROM and RAM) and add-in memory modules (DIMMs).

memory key — A portable flash memory storage device integrated with a USB connector.

MHz — Megahertz.

mirroring — A type of data redundancy applicable to hard drives or system memory. When applied to hard drives, a set of physical drives stores data and one or more sets of additional drives stores duplicate copies of the data. Mirroring functionality is provided by software. See also striping and RAID. When applied to system memory, data in one set of memory modules is duplicated in an identical set of memory modules.

mm— Millimeter(s).

ms — Millisecond(s).

NAS — Network Attached Storage. NAS is one of the concepts used for implementing shared storage on a network. NAS systems have their own operating systems, integrated hardware, and software that are optimized to serve specific storage needs.

NIC — Network interface controller. A device that is installed or integrated in a system to allow connection to a network.

NMI — Nonmaskable interrupt. A device sends an NMI to signal the processor about hardware errors.

ns — Nanosecond(s).

NVRAM — Nonvolatile random-access memory. Memory that does not lose its contents when you turn off your system. NVRAM is used for maintaining the date, time, and system configuration information.

parity — Redundant information that is associated with a block of data.

parity stripe — In RAID arrays, the parity-striped hard drive of a set of striped hard drives contains parity data that enable data recovery in the event that one of the other hard drives fails.

partition — You can divide a hard drive into multiple physical sections called partitions with the fdisk command. Each partition can contain multiple logical drives. You must format each logical drive with the format command.

PCI — Peripheral Component Interconnect. A standard for local-bus implementation.

PCIe — PCI Express. An improved PCI expansion bus technology that uses one or multiple full-duplex serial data lines to interface between the CPU and the expansion card and which greatly increases data bandwidth.

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R610 specifications

The Dell PowerEdge R610 is a 1U rack server that combines outstanding performance with advanced management features, making it ideal for enterprises and small to medium-sized businesses. Introduced as part of Dell’s 11th generation of servers, the R610 is designed to meet demanding workloads while optimizing energy consumption.

One of the main features of the R610 is its dual-socket capability, supporting up to two Intel Xeon 5500 or 5600 series processors. This allows significant scaling of compute power, enabling users to run multiple applications concurrently without a hitch. The server supports up to 192 GB of DDR3 memory with 18 DIMM slots, providing ample bandwidth for memory-intensive workloads.

Storage flexibility is another hallmark of the R610. It offers a choice of up to six 2.5-inch SAS, SATA, or solid-state drives, which allows for impressive storage capacities and the option for RAID configurations. This ensures data integrity and high availability, catering to the needs of various applications from databases to virtual environments.

The Dell R610 introduces advanced virtualization technologies, with support for VMware and Microsoft Hyper-V, making it an excellent choice for virtualized environments. With the option to deploy multiple virtual machines on a single physical server, organizations can maximize resource allocation and reduce costs.

In terms of management, the R610 is equipped with the Integrated Dell Remote Access Controller (iDRAC) which provides out-of-band management capabilities. This feature allows administrators to monitor system health, perform firmware updates, and manage hardware without the need for physical access to the server.

Energy efficiency is a notable characteristic of the R610, complying with Energy Star requirements. It utilizes lower power consumption components and features such as dynamic power management, which adjusts the power usage based on real-time workload demand. This characteristic contributes to lower operational costs and a reduced environmental footprint.

The Dell PowerEdge R610 excels in providing an optimal balance of performance, manageability, and energy efficiency, making it a powerful tool for IT environments that demand reliability and scalability. Its robust feature set and support for virtualization technologies position it as a favorable choice for businesses looking to enhance their IT infrastructure efficiently.