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Wiwynn® SV7221G2-P (2U OCP Server)

SV7221G2-S (Standard) / SV7221G2-V (Balanced) / SV7221G2-P (I/O Performance)

2U OCP Server

Based on Intel E5-2600 V4 processors, OCP server features high computing power and optimized power efficiency

Where to Buy
State-of-the-art Micro-architecture for Efficient Performance
The 14nm architecture of Intel® Xeon® E5-2600 V4 offers high power efficiency and CPU performance. Furthermore, with core count up to 22 cores and 44 multi-threads per socket, this new architecture improved applications and system operations significantly.
Designed for Optimized Energy Utilization with Computing Power
Each 2OU (Open Rack) space can mount three Wiwynn SV7221G2 computing servers. This high-density design minimizes infrastructure power and cost by removing unnecessary components.
Hot-plug Server and Front-access I/O for Easy Installation and Maintenance
Through simple, innovative and improved cable management and efficient thermal design, this hot-plug server allows easy replacement and maintenance.
Best Flexibility for Computing-intensive Application with Enhanced I/O Performance
Wiwynn SV7221G2 series has three models, including one enhanced I/O configuration – P model with six 2.5” SSDs, and V model with two 2.5” 15mm HDDs/SSDs. The most flexible choice for computing-intensive applications that demand a lot of high IOPS.
High Memory and I/O Expandability
Wiwynn SV7721G2 Series comes with 16 DIMM slots that support up to 512GB DDR4, making sure that each system is working at the highest performance.
Processor Intel® Xeon® E5-2600 V4
Processor Sockets Two per node (3 server nodes in a 2 OU shelf)
Chipset Intel® C610 series
Memory Up to 512GB; 8GB/16GB/32GB DDR4 up to 2400MT/s; 16 DIMM slots
System Bus Intel® Quick Path Interconnect links; 6.4 GT/s; 8.0 GT/s; 9.6 GT/s
Storage 6 2.5" hot-plug drive bay per node: ● SAS/ SATA SSD One M.2 SSD module slot
Expansion Slots One (PCIe x16) HHHL slot, and One (PCIe x8) HHHL slot (Dedicated to RAID card), or One OCP Mezzanine card (PCI-e x8) for: ● Single/Dual 10GbE DA/SFP+ ports (option) ● Single/Dual 25GbE SFP28 ports (option) ● Single/Dual 40GbE QSFP ports (option)
VGA ASPEED AST2400 iBMC chip
Remote Management IPMI V2.0 compliant; Serial-over-LAN Cluster Manager (option)
LAN One 1GbE LAN port
Power Supply Centralized OCP Power Shelf
Power Consumption 120W (Idle) ~ 325W (Max)
Dimensions 2OU (Open Rack); 174 (W) x 724 (D) x 89 (H) (mm)
Weight 8 kg ~ 9.5 kg
OS Support List VMware ESXi 5.5 Windows® Server 2012 R2 CentOS 6.x (64 bits) RHEL 7.x

 Web Server

High-computing and high power efficiency

Bandwidth throttling to limit the speed of responses. Support web applications and web services with the compact combination of High-computing and high power efficiency.

The most simple definition is that a Web server runs a website by returning HTML files over an HTTP connection. This definition may have been true in the early days of the Internet, but the line has blurred between websites, Web applications and Web services, etc.

For example, a server that delivers an XML document to another device can be a Web server. A better definition might be that a Web server is any Internet server that responds to HTTP requests to deliver content and services.

Common features

1. Virtual hosting to serve many web sites using one IP address

2. Large file support to be able to serve files whose size is greater than 2. 2 GB on 32 bit OS

3. Bandwidth throttling to limit the speed of responses in order to not saturate the network and to be able to serve more clients

4. Server-side scripting to generate dynamic web pages, still keeping web server and website implementations separate from each other

 

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 RSD Enabled Products

Racks and System Software

Intel® Rack Scale Design is a logical architecture that enables scalable pooled resources and minimizes underutilization.

What is Intel Rack Scale Design?     

Although modern development of cloud computing allows server virtualization on a physical node, resource in a node, such as CPU, storage, memory, could fall short for some applications while others are excessive in utilization.

Some applications are more computation power hungry, while the others in need of storage space. Hence, the demand of flexibly composing a node with extensible resources has grown to address the resource optimization. 

Intel Rack Scale Design is a logical architecture that enables scalable pooled resources and minimizes underutilization. 
Simply put, Intel RSD unlocks resources from physical servers, creates virtual pools of resource, applies resources to application workloads, composes resources and reconfigures as requirements change. 

Wiwynn Cluster Manager and Intel RSD 

As a leading hardware provider in the industry, Wiwynn has been working closely with Intel to realizing the flexibility of composing a node.

Wiwynn implements features of Rack Scale Design and integrates Wiwynn Cluster Manager to realize software-defined data centers. Wiwynn is the only player that finishes RSD integration and NVMe pooling. 

Other Resources 

Whitepaper (2017.10.20)
 Design Concept (2017.04.26)
 Operatoring UI (2017.09.05)

Wiwynn RSD Enabled Products 

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Category File Title Release Date Actions
Datasheet Datasheet - SV7221G2 2017/06/14 Download
User Manual User Manual 2017/07/18 Download
User Manual BMC User Manual 2017/02/10 Download
User Manual BIOS User Manual 2017/07/18 Download
AVL AVL SV7221G2 2017/02/13 Download
Firmware BIOS_LB4_M7T 2017/01/11 Download
Firmware BMC_BMC9.30 2017/01/11 Download
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