HCI – TracSystem

HCI – TracSystem

DataOn Hyper Converged Infrastructure Trac System

Simple to Deploy. Scalable on Demand. Affordable with Innovation

Searching for a fully integrated and turnkey Windows Server 2016 HCI Solution that delivers simplicity, scalability and is affordable? Then the DataON Tracsystem is the solution for you. The system consists of DataON S2D Server Ready Nodes that are practice-proven with over 600 customers where more than 100PB is deployed. The DataON TracSystem can be customized to suit every situation, is performance-tuned and simple-to-deploy with the DataON MUST visibility monitoring and management tool.

  • Lightning
  • All Flash
  • Hybrid

Performance Tuned

Windows Server based HCI that counts IOPS in millions

Cutting Edge Technology

Intel® Optane® Technology with low latency and high density
Intel® Xeon® Scalable Processors, with up to 28 cores per socket
SMB3 RDMA networking for maximum throughput and lower CPU utilization

Linear Scalability on Demand

Compute, networking and storage delivers maximum responsiveness and efficiency; supports up to 16 nodes

Easy to Deploy and Manage

DataON MUST tool provides visibility, monitoring and management for Windows Server 2016 deployments

Lightning Series Powered by Intel® Optane™ Technology

Easy to Deploy and Manage

The Lightning series leverages on the Intel® Xeon® Scalable Processors Family, Intel® Optane™ Technology and NVM Express (NVMe™) to deliver breakthrough performance and incredible responsiveness, with greater VM density. While also being the the first Microsoft WSSD-certified and Intel Select Solution with Windows Server 2016 Storage Spaces Direct.

  • High Performance with over 30% greater IOPS performance than the previous generation, leveraging on the Intel®Optane™ SSDs that are NVMe-based for write intensive workloads, fast cache tier and Window Server 2016 Storage Spaces Direct
  • Dramatically reduced disk latency and increased responsiveness with Intel®Optane™ Technology that gives 1/1000th the latency of NAND flash memory and 10-times the density of DRAM memory.
  • High throughput and network efficiency using SMB3 RDMA fabric giving 2 times throughput compared to TCP/IP, with less than 1 µsec latency from VM-to-VM communication, with fewer CPU cycles per I/O and better core utilization

Pre-configured with DataON MUST (Management Utility Software Tool) infrastructure visibility, the TracSystem HCI provides SAN-like storage monitoring features and alerts based on Windows Health Service faults. DataON MUST is what completes a Windows Server 2016 solution as a viable SAN replacement.

Lightning Series Powered by Intel® Optane® Technology

Technical Specifications

Model 5224L 5240L
Nodes Per Cluster 4 to 16 Nodes 4 to 16 Nodes
Platform Intel® Xeon® Scalable Processor
with Intel C620 Chipsets
Intel® Xeon® Scalable Processor
with Intel C620 Chipsets
Form Factor 2U 1-Node rack server with 24 NVMe U.2 2.5″ drives 2U 4-Node rack server with 24 NVMe U.2 2.5″drives
CPU Cores 16 to 44 Cores 16 to 44 Cores
Memory 256GB to 1.5TB per node 256GB to 1.5TB per node
PCIe 3.0 Slot 6x PCIe ×8 6x PCIe ×8
Performance Tier Intel Optane™ Intel Optane™
Capacity Tier All NVMe SSDs All NVMe SSDs
Networking 2x 10GbE RJ45; 2x 10GbE SFP+ or 2x 40/100GbE QSFP28 2x 10GbE RJ45; 2x 10GbE SFP+ or 2x 40/100GbE QSFP28
Max. TDP 140W 140W
Power Supplies Dual 1300W Dual 1600W
Dimensions 3.44” H x 16.93” W x 27.95” D 3.43” H x 17.56” W x 33.86” D

All Flash Series

The All Flash series contains high-endurance NVMe SSDs for write caching tier. Write cache reduces the wear on capacity SSDs and maximizes write performance. The write cache fuses writes and only de-stages written data to the capacity tier when needed, which drastically reduces the wear on the capacity SSDs. Since capacity SSDs generally have good read performance, data is read directly from the capacity tier without being cached in the caching SSDs, since there are typically more of them and read I/O is not a significant factor in the lifespan of SSDs. Because the caching SSDs are used only for write cache, the entire capacity can be used as write cache, which further reduces the wear on the devices of capacity tier. An NVMe + SATA SSD or All-NVMe configuration provides uniform and highly predictable performances regardless of the workload.

 

Technical Specifications 

Model 5108i 5224 5240
Nodes Per Cluster 4 to 16 Nodes 4 to 16 Nodes 4 to 16 Nodes
Platform Intel® Xeon® Scalable Processor
with Intel C620 Chipsets
Intel® Xeon® Scalable Processor
with Intel C620 Chipsets
Intel® Xeon® Scalable Processor
with Intel C620 Chipsets
Form Factor 1U 1-Node rack server with 8 NVMe U.2 or SAS/SATA 2.5″ drives 2U 1-Node rack server with 24 NVMe U.2 or SAS/SATA 2.5″ drives 2U 4-Node with 8 NVMe U.2 & 16 SAS/SATA 2.5″ drives
CPU Cores 16 to 44 Cores 16 to 44 Cores 16 to 44 Cores
Memory 256GB to 1.5TB per node 128GB to 1.5TB per node 128GB to 1024GB per node
PCIe 3.0 Slot 2x PCIe ×16 6x PCIe ×8 1x PCIe ×16
Performance Tier NVMe SSDs NVMe SSDs NVMe SSDs
Capacity Tier NMVe or SATA SSDs NMVe or SATA SSDs NMVe or SATA SSDs
Networking 2x 10GbE RJ45; 2x 10GbE SFP+ or 2x 40/100GbE QSFP28 2x 10GbE RJ45; 2x 10GbE SFP+ or 2x 40/100GbE QSFP28 2x 10GbE RJ45; 2x 10GbE SFP+ or 2x 40/100GbE QSFP28
Max. TDP 165W 140W 140W
Power Supplies Dual 1100W Dual 1300W Dual 1600W
Dimensions 1.70” H x 17.28” W x 28.03” D 3.44” H x 16.93” W x 27.95” D 3.42” H x 17.24” W x 28.86” D

 

Hybrid Series

The hybrid series features high-endurance NVMe SSDs, used for write caching for capacity SSD devices. They are also used as the read and write cache for the HDD devices. The write cache fuses write and de-stages written data tot he SSD tier when needed. This is done to reduce the wear and de-stages written data to the HDD tier at the same time if possible to increase the write performance of the slower HDDs. The read cache stores often read data from the HDD tier reducing I/O to the slower HDDs. Providing highly predictable and uniform performance, an NVMe + SATA SSD + HDD configuration for workloads uses SSD tier and at the same time provides cost effective storage capacity for workloads which also uses the HDD tier.

 

Technical Specifications 

Model 5212i 5286 (Server + JBOD) 5287 (Server + JBOD)
Nodes Per Cluster 2 to 16 Nodes 4 to 8 Nodes 4 to 8 Nodes
Platform Intel® Xeon® Scalable Processor
with Intel C620 Chipsets
Intel® Xeon® Scalable Processor
with Intel C620 Chipsets
Intel® Xeon® Scalable Processor
with Intel C620 Chipsets
Form Factor 2U 1-Node rack server with 2 NVMe U.2
2.5″ drives & 12 SAS/SATA 3.5″ drives
2U Rack server with (8) 2.5” drives bays +
4U 32-bay 12Gb SAS enclosure
2U Rack server with (8) 2.5” drives bays +
4U 60-bay 12Gb SAS enclosure
CPU Cores 16 to 44 Cores 16 to 32 Cores 16 to 32 Cores
Memory 128GB to 1.5TB per node 128GB to 1.5TB per node 128GB to 1.5TB per node
PCIe 3.0 Slot 6x PCIe ×8 6x PCIe ×8 6x PCIe ×8
Performance Tier NVMe SSDs NVMe or SATA SSDs NVMe or SATA SSDs
Capacity Tier SATA SSD & SAS HDDs SAS HDDs SAS HDDs
Networking 2x 10GbE RJ45; 2x 10GbE SFP+ or 2x 40/100GbE QSFP28 2x 10GbE RJ45; 2x 10GbE SFP+ or 2x 40/100GbE QSFP28 2x 10GbE RJ45; 2x 10GbE SFP+ or 2x 40/100GbE QSFP28
Max. TDP 145W 165W 165W
Power Supplies Dual 1300W Dual 1300W (Node) + Dual 550W (JBOD) Dual 1300W (Node) + Dual 1650W (JBOD)
Dimensions 3.5” H x 17.6” W x 19.5” D 3.44” H x 16.93” W x 27.95” D (Node)
7.56” H x 17.6” W x 21.13” D (JBOD)
3.44” H x 16.93” W x 27.95” D (Node)
7.0” H x 19.0” W x 37.5” D (JBOD)