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1. #SUPERMICRO RAID MONITOR SOFTWARE FULL#
2. #SUPERMICRO RAID MONITOR SOFTWARE PLUS#
3. #SUPERMICRO RAID MONITOR SOFTWARE WINDOWS#

On the Windows front, this system fully supports Windows Server 2012 R2 and could be configured as a Hyper-V redundant cluster. Our VSAN performance testing showed the system consistently delivering over 170,000 IOPS using the Iometer benchmarking tool. You could obviously squeeze a lot more VMs on this system with lower memory requirements. Those numbers are based on virtual machines with 2 vCPUs, 4GB of memory and a 50GB disk. SuperMicro sells this system as their primary EVO:RAIL platform with configurations to support from 100 up to 400 virtual machines. The primary purpose for reviewing this system was to test the latest version of VMware’s VSAN. The graphs give a quick visual display of power usage in the last hour, day and week.įigure 2 (Click for larger image) OS Support Figure 1 shows a clip of the Power consumption page available from the Server Health tab. You can also connect to the IPMI interface using a web browser. This application will work with any BMC based on IPMI 2.0 or 1.5. The BMC fully supports version 2.0 of the Intelligent Platform Management Interface (IPMI), as well as version 1.5, for all out-of-band management.Ī separate downloadable application provides a Windows-based tool for controlling multiple servers from a remote system. ManagementĪll SuperMicro systems include a Baseboard Management Controller (BMC) built around a custom controller chip. Our test system had a PCIe 2-port 10 G Ethernet card installed in each node. The “0 slot” is actually a small proprietary SuperMicro slot for adding additional functionality like a 10 G Ethernet port.

#SUPERMICRO RAID MONITOR SOFTWARE PLUS#

Internally you’ll find support for a single low profile PCI-E 3.0 X 16 slot plus an additional “0 slot.”

#SUPERMICRO RAID MONITOR SOFTWARE FULL#

On the power side, the SuperServer chassis has room for two 2000W high-efficiency redundant power supplies that support a full range of input voltages. The baseline system comes with two 1G Ethernet ports plus an additional dedicated IPMI LAN port. The motherboard for each node is a Super X10DRT-P and supports up to 1 TB of DDR3 ECC LRDIMM memory and 512GB of DDR3 ECC Registered memory (RDIMM).Įach node includes an LSI 3008 SAS3 (12Gpbs) controller to provide support for the fastest SAS drives. For storage, each node included three 1.2 TB spinning disks, one 400GB Intel S3700 SSD and a 300 GB Boot drive. HardwareĮach node had two Intel Xeon E5-2680 v3 CPUs plus 256 GB of memory. This system has been designated as a VMware-certified EVO:RAIL platform with full support for the latest version of VSAN. Our host access system was running Windows Server 2012 R2 and connected to both an Internet connection and the same switch as the SuperServer. It gave us a chance to test accessing both the operating system and the remote management capabilities provided by SuperMicro. This type of access is not unlike the method many companies use every day to connect to their co-located equipment. The remote access actually worked quite well, as we were able to configure individual nodes by connecting to the management ports using the remote host system.

We were recently given remote access to a SYS-2028TP-HC0R system to test with the latest version of VMware VSAN. SuperMicro has been turning out multi-node systems for quite some time, and the latest four-node in a 2U system continues the trend of packing plenty of punch in a small package.