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SY206-S12R-G3 Gooxi Micro-Blade Server Barebone System User’s Manual Rev 1.0...
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Manual structure Chapter 1 Product Introduction This chapter provides the specifications of the main components of the system and describes the main features of the GOOXI G3SCN-B/4B motherboard and the GOOXI 2U6 chassis Chapter 2 System Interface Introduction This chapter provides the detailed description of the system interface, mainly including the IO interface of the motherboard and the functions and information of each connector, terminal and jumper.
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CONTENTS Chapter 1 Product Introduction ..............1 1. System characteristics ................................ 1 1.1 System parameters ................................1 1.2 System overview ................................2 2. Motherboard features ................................. 2 3. Server chassis system features ............................4 4. System view ..................................5 4.1 Front view: ..................................5 4.2 Rear view: ..................................5 4.3 Side view: ..................................
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Chapter 1 Product Introduction 1. System characteristics 1.1 System parameters Model SY206-S24R Processor Intel Xeon processor E-2100 series; Intel 8th Generation Core I3/I5/I7 Pentium series, Celeron series; Socket H4 (LGA1151 ) is up to 95W CPU Cloud computing server system High-performance computing server system Database server system applications...
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2. Motherboard features 2.1 Motherboard parameters: GOOXI SY206-S12R is fully equipped with 6* G3SCN-B/4B single-socket server motherboards. It is based on Intel X86 architecture design, adopts Intel Mehlow platform, based on Intel PCH C24X chipset, with Intel's latest generation Coffee Lake CPU, supports dual-channel DDR4-2666 ECC UDIMM. The following are the main features...
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Memory Single node supports up to 128GB ECC DDR3-2666UDIMM Single node supports up to 4* Intel I210-AT GbE LAN controllers Aspeed AST2500 graphics Input/output 1* HDMI (VGA) port, 2/4* Gigabit LAN ports, port 1* Dedicated/multiplexed IPMI port, 1* motherboard switch Management IPMI 2.0 + KVM with dedicated LAN;...
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3. Server chassis system features 3.1 Chassis parameters Basic parameters Chassis style Rackmount Chassis structure Adapted motherboard G3SCN-B/4B Hot-swap fans Supports Cooling system 4* 8038 temperature-controlled fans Slide rails Optional Cabinet fixing method Captive screw Product material High-quality SGCC (galvanized steel sheet) Chassis size 800mm* 448mm* 88 mm (L*W*H) Package Size...
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4. System view 4.1 Front view: 4.2 Rear view:...
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4.3 Side view: Remarks: The above are the system views of 6 nodes in total with 6 blades. Users can choose based on their actual needs, such as 5 nodes.
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Chapter 2 System Interface Introduction 2.1 Overview As the motherboard is the main component of the system, the main interfaces of the system are on the motherboard. First, you need to have a preliminary understanding of the layout of the motherboard interface. 2.1.1 G3SCN-B motherboard physical picture...
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2.1.2 G3SCN-B motherboard interface & definition: Schematic diagram of the location of the motherboard interface: 2. Motherboard interface definition:...
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2.2 Motherboard IO interface 2.2.1 Node button The PWROK indicator on the motherboard is used to indicate the status of the Power in the board. The specific status indications are as follows: The locations are as follows: 2.2.2 Node ID indicator D12 The UID indicator is used for locating the motherboard.
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Introduction of HDD LED 2.2.3 The hard disk activity indicator is used to indicate the status of SATA hard disk and M.2 SSD hard disk activity: The specific locations are as follows: 2.2.4 LAN port The 4* data Gigabit LAN ports, provided by the motherboard, adopt 2 conjoined RJ45 interfaces. The LEDs are on the left and right sides of the RJ45 interface, respectively indicating the status information of the LAN port such as Link, Speed, Act, etc.
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2.2.5 USB interface 2 external USB2.0 ports (J20 position) are used to connect to various devices of USB2.0 Type A, such as USB keyboard, USB optical drive, etc. When debugging, the following is the definition of USB PIN. USB3.0 PIN serial Description PIN1, 5 PIN2, 6...
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2.2.8 PCIE 3.0 1 6X Introduction (J11 position) PCH can provide up to 24 PCIe 3.0 Root Ports. Flex IO Port8 is used for local BMC PCIe expansion; Flex IO Port10~Port13 form x4 PCIE for connecting mezzanine cards; Flex IO Port14~Port17 are connected to I210 Gb1~Gb4 respectively;...
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2.3 Connecting cables In the cable section, there are 5 different cables, 2 SATA high-speed cables, 1 cable for the motherboard to get 12V and 5V_SB power from the backplane, 1 cable to transmit the motherboard 12V/5V power to the hard disk, and 1 cable 20Pin motherboard and backplane signal communication cables.
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2. Please make sure that the processor specification you purchased belongs to the supported type of this system. 3. If you buy a CPU heat sink separately, please make sure you are using a Gooxi certified one. Detailed steps to install LGA1151 processor: Gently press down on the platen handle and push outward ( to the right ) to unlock.
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Once the load plate is open, use your thumb and index finger to pinch toward the north center edge of the CPU and the south center edge of the CPU. Hold the processor with your thumb and index finger. Make sure that the alignment point of the socket is aligned with the notch in the processor. Place the processor vertically into the socket, do not tilt or slide it.
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Once they are aligned, carefully insert the CPU straight down into the socket. (To avoid damage to the CPU or socket, do not drop the socket of the CPU. Do not rub the surface of the CPU or any pins of the socket.
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Memory installation CAUTION: When installing or removing DIMM memory modules, take extra care to prevent any possible damage to the DIMM or their respective sockets . 3.3.1 How to install memory 1. Motherboard DIMM slot sequence: DIMMA2, DIMMB2, DIMMA1 and DIMMB1, pay attention to the memory gap and DIMM slots are notched to prevent incorrect installation.
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Installation: Insert the memory module vertically and press down on the memory slot snap position, paying attention to align the bottom of the notch. notch notch notch 凹口 Demonstration diagram to simulate inserting a memory stick: Removal: Use your thumbs to gently push the release tabs near the ends of the memory module socket. This should free the memory from the socket .
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Hard disk installation The system equips with 12 nodes: each node is both on a rail bracket and has a gold-finger interface with a cable-free design , which makes it easy to pull out of the system cabinet. The hard disks are mounted directly on the node rail brackets, and for this reason, the hard disks are not hot-swap.
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The following figure shows a schematic diagram of installing 3.5-inch hard drive: The following figure shows a schematic diagram of installing 2.5-inch hard drive: 3. Use a screwdriver to tighten the screws to secure the hard drive to the node rail bracket. The schematic diagram after installation is as follows, taking 3.5-inch hard drive as an example.
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4. When finished installing the hard drives, push the node rail brackets back into the system chassis. The diagram below shows: Take 3.5 -inch hard drive as an example.
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Steps of placing system into rack For the guide rails of GOOXI, please use the following steps to install the system into the rack. 1. Align the screw holes as shown in the figure below. Each piece of rail is fixed with 4 screws on the front and rear of the rack, and the hole positions are the same .
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3. The final schematic of the rail mounted to the rack is as follows: 4. To stand up the system, place the system horizontally on the rails and push it into the rack.
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5. After the system is installed on the rack, lock the captive screws on the system panel, the specific positions are as shown by the arrows in the figure below.
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6. The final schematic of the entire server system into the rack is as follows: Warning: Do not pull the handles of the server system casually. Otherwise, the system will be pulled out of the rack, which may cause system power failure, downtime, and other failures.
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