WO2016027299A1 - システム、情報処理装置およびラック - Google Patents
システム、情報処理装置およびラック Download PDFInfo
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- WO2016027299A1 WO2016027299A1 PCT/JP2014/071594 JP2014071594W WO2016027299A1 WO 2016027299 A1 WO2016027299 A1 WO 2016027299A1 JP 2014071594 W JP2014071594 W JP 2014071594W WO 2016027299 A1 WO2016027299 A1 WO 2016027299A1
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- WIPO (PCT)
- Prior art keywords
- rack
- information processing
- heat transfer
- flow path
- transfer block
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/20—Cooling means
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/20709—Modifications to facilitate cooling, ventilating, or heating for server racks or cabinets; for data centers, e.g. 19-inch computer racks
- H05K7/20718—Forced ventilation of a gaseous coolant
- H05K7/20727—Forced ventilation of a gaseous coolant within server blades for removing heat from heat source
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/20709—Modifications to facilitate cooling, ventilating, or heating for server racks or cabinets; for data centers, e.g. 19-inch computer racks
- H05K7/20763—Liquid cooling without phase change
- H05K7/20781—Liquid cooling without phase change within cabinets for removing heat from server blades
Definitions
- the present invention relates to an information processing apparatus that can be installed in a rack.
- a terminal for electrical connection is provided on one side of the sub board, a plurality of sockets into which the terminals are inserted are provided on the motherboard, and the circuit board and heat pipe of the sub board are connected to the circuit board. While being sandwiched between a pair of electrically insulated metal plates, at least one end of the heat pipe extends to the end of the metal plate, and heat of the arithmetic element of the sub board is transferred to one end of the metal plate by the heat pipe.
- a mounting structure for an electronic component that is configured to be carried to the side to dissipate heat (see Patent Document 1).
- a water cooling system may be employed as a cooling means with high cooling performance.
- an object of the present invention is to provide a liquid cooling means that is easy to maintain for an information processing apparatus that is attached to and detached from a rack.
- an example of the present disclosure is a system including one or more information processing apparatuses and a rack in which the one or more information processing apparatuses can be installed, and the rack is detachable from the information processing apparatus. And a pipe that guides the coolant supplied from outside the rack to the outside of the rack and then guides the outside of the rack to the outside.
- a heat transfer block thermally connected to at least one of a fixing unit and a heat source included in the information processing device, and heat transfer thermally connected to the pipe in a state where the information processing device is fixed by the fixing unit And a block.
- the present invention can also be grasped as an invention of a rack, an invention of an information processing device, and an invention of a method of installing information processing in a rack.
- FIG. 1 is a side view showing an outline of a system according to the present embodiment.
- FIG. 2 is a plan view showing an outline of the system according to the present embodiment.
- the system according to this embodiment includes a rack 1 on which one or a plurality of blade servers 3 can be mounted, and one or a plurality of blade servers 3 mounted on the rack 1.
- the broken line arrow in a figure shows the blowing direction, and the arrow which is not a broken line shows the insertion direction of the blade server 3.
- FIG. 1 is a side view showing an outline of a system according to the present embodiment.
- FIG. 2 is a plan view showing an outline of the system according to the present embodiment.
- the system according to this embodiment includes a rack 1 on which one or a plurality of blade servers 3 can be mounted, and one or a plurality of blade servers 3 mounted on the rack 1.
- the broken line arrow in a figure shows the blowing direction
- the arrow which is not a broken line shows the insertion direction of the blade server 3.
- the rack 1 includes an enclosure 11, a fixing portion 12, a pipe 13, an urging portion 14, a heat exchanger 15, a fan 16, power supply or communication wiring 17, a rack-side connector 18, and a door 19. Further, outside the rack 1, a cooling device 9 for cooling the coolant flowing in the pipe 13 is installed, and the pipe 13 provided in the rack 1 is connected.
- a cooling device 9 for cooling the coolant flowing in the pipe 13 is installed, and the pipe 13 provided in the rack 1 is connected.
- water is used as the cooling liquid, but other liquids may be used.
- the cooling device 9 may be any device that can cool the cooling liquid.
- a system that uses a waste heat destination having a large heat capacity such as groundwater, seawater, and soil, a heat pump, etc.
- Various cooling methods may be employed.
- the blade server 3 includes a chassis (blade server housing) 31, a base 32, a heat source 33 such as a CPU (Central Processing Unit), a fixed part 34, a heat pipe 35, a heat transfer block 36, and an air intake part (fan) 37. And an information processing apparatus including the information processing apparatus side connector 38.
- the blade server 3 may include a RAM (Random Access Memory), a ROM (Read Only Memory), a GPU (Graphics Processing Unit), an auxiliary storage device, and the like as the heat source 33, but the illustration is omitted.
- the blade server 3 has a structure in which a base 32 is housed in a chassis 31 having a substantially cubic outer shape.
- the base 32 includes a heat source 33, a heat transfer block 36, an information processing apparatus side connector 38, and the like. Is installed.
- the enclosure (rack casing) 11 has a back wall 11r, a top wall 11t, a bottom wall 11b, and left and right side walls 11s, and thus the rack 1 has a substantially cubic outer shape.
- the shape of the enclosure 11 is not limited to a cube.
- the enclosure 11 only needs to be able to keep the air cooled by the heat exchanger 15 in the enclosure 11 to some extent, and does not have to be highly airtight.
- a box in which the power / communication wiring 17 is stored, a rack-side connector 18 and a pipe 13 are fixed to the rear wall 11r of the enclosure 11.
- holes for passing the pipes 13 are provided in the upper and lower portions of the enclosure 11.
- a door 19 is provided on the front surface of the enclosure 11 and is closed during normal operation of the blade server 3.
- the door 19 is opened when maintenance of the blade server 3 is performed, thereby enabling access to the inside of the rack 1 in which the blade server 3 is accommodated.
- the door 19 is closed to increase the independence of the air inside the enclosure 11 and prevent the air cooled inside the enclosure 11 from leaking outside.
- the pipe 13 introduces cooling liquid supplied from the cooling device 9 installed outside the rack 1 into the rack 1, passes the inside through the rack 1, and then guides it to the cooling device 9 outside the rack 1. This is a liquid flow path.
- a pump 8 is provided in the middle of the flow path to circulate the coolant between the rack 1 and the cooling device 9.
- the holes for passing the pipes 13 are provided in the upper part and the lower part of the enclosure 11.
- the cooling liquid cooled by the cooling device 9 is introduced from the pipe 13 on the lower hole side of the enclosure 11, and the cooling water used for cooling in the rack 1 is transferred to the upper part of the enclosure 11. It is installed so as to be returned to the cooling device 9 from the pipe 13 on the hole side. That is, the pipe 13 and the pump 8 are arranged so that the coolant flows from the lower side toward the upper side inside the rack 1.
- the pipe 13 is a cylindrical metal tube.
- the pipe 13 may be covered with a material such as vinyl.
- at least a portion thermally connected to the heat transfer block 36 on the server side and a portion provided with the heat exchanger 15 are not covered or covered with a material having high heat conductivity so as not to prevent heat conduction. It is preferable.
- the pipe 13 is located above the portion where the heat transfer block 36 of the uppermost blade server 3 contacts and below the portion where the heat transfer block 36 of the lowermost blade server 3 contacts.
- Each of the parts has a bellows structure. By having such a bellows structure, the portion of the pipe 13 according to the present embodiment that is thermally connected to the heat transfer block 36 is movable.
- the urging unit 14 urges a portion of the pipe 13 including a portion where the heat transfer block 36 of the blade server 3 contacts, that is, a portion thermally connected to the heat transfer block 36 toward the heat transfer block 36.
- a spring is employed for the urging portion 14, but other means may be employed.
- the urging unit 14 holds the pipe 13 at the position of the heat transfer block 36 when the blade server 3 is fixed in a state where the blade server 3 is not fixed. By doing so, when the blade server 3 is fixed, the pipe 13 is pushed by the heat transfer block 36 and the biasing portion 14 (spring) is contracted, and the biasing portion 14 moves the pipe 13 toward the heat transfer block 36. Energize to.
- a part of the pipe 13 is movable, and the urging portion 14 is further provided to improve the degree of adhesion between the pipe 13 and the heat transfer block 36.
- the heat exchanger 15 is thermally connected to the pipe 13 to promote heat exchange between the coolant flowing in the pipe 13 and the air in the rack 1.
- a radiator having metal fins is employed as the heat exchanger 15.
- other means such as a double pipe heat exchanger are adopted. May be.
- the heat exchanger 15 is provided on the upstream side (i.e., the lower portion of the rack 1) in the flow of the coolant from the portion of the pipe 13 where the heat transfer block 36 is thermally connected.
- the fan 16 sends the air in the rack 1 to the heat exchanger 15 so that heat exchange between the coolant and air is promoted.
- the fan 16 may be omitted.
- the air intake unit (fan) 37 takes in the air that is heat-exchanged with the coolant via the heat exchanger 15 into the blade server 3.
- the heat transfer block 36 is thermally connected to at least one of the heat sources 33 included in the blade server 3 via the heat pipe 35.
- the heat pipe 35 collects heat generated in the heat source 33 in the heat transfer block 36.
- the heat transfer block 36 is thermally connected to the pipe 13 in a state where the blade server 3 is fixed by the fixing unit 12.
- a portion of the heat transfer block 36 that is in contact with the pipe 13 may have a shape that follows the outer shape of the pipe 13 in order to increase the adhesion between the heat transfer block 36 and the pipe 13.
- the portion of the heat transfer block 36 that contacts the pipe 13 has an arcuate concave shape along the outer periphery of the cylindrical pipe 13.
- FIG. 3 is a diagram illustrating a state in which the heat transfer block 36 is thermally connected to the pipe 13 in the present embodiment.
- the heat transfer block 36 and the pipe 13 are thermally connected via a heat transfer material (shim, spacer).
- the heat transfer block 36 and the pipe 13 are composed of a silicon rubber sheet 5 (deformable, pipe 13 and heat transfer having a thermal conductivity of 50 watts per meter Kelvin (W / (m ⁇ K)) or more.
- the material is thermally connected to the block 36 via a material that can be filled.
- a silicon rubber sheet such as “MANION 50 ⁇ ” (trade name) can be used.
- the heat transfer block 36 and the pipe 13 are thermally connected via the silicon rubber sheet 5
- the material sandwiched between the heat transfer block 36 and the pipe 13 is Any material that can be thermally connected (for example, a material having a thermal conductivity of 1.0 watt per meter Kelvin (W / (m ⁇ K)) or more) may be used, and the material is not limited to the silicon rubber sheet 5.
- the heat transfer block 36 and the pipe 13 may be thermally connected via grease.
- the silicon rubber sheet 5 is an elastic material, and is deformed while being pressed between the heat transfer block 36 and the pipe 13 so as to be in close contact with the heat transfer block 36 and the pipe 13. Efficient heat dissipation can be performed without being blocked by air or the like.
- the heat transfer material that is in close contact with the heat transfer block 36 and the pipe 13 is not limited to the silicon rubber sheet 5. For example, even with the above-described grease, it is possible to prevent heat conduction from being blocked by air or the like due to close contact with the heat transfer block 36 and the pipe 13.
- the material (silicon rubber sheet 5 in the present embodiment) interposed between the heat transfer block 36 and the pipe 13 may be fixed by being attached to the rack 1 side (that is, the pipe 13 surface). Alternatively, it may be fixed by being attached to the blade server 3 side (that is, the surface of the heat transfer block 36). Further, the heat transfer material (silicon rubber sheet 5 in the present embodiment) may be installed when the blade server 3 is fixed to the rack 1 without being fixed to the rack 1 or the blade server 3.
- the fixed part 12 of the rack 1 and the fixed part 34 of the blade server 3 cooperate to fix the blade server 3 to the rack 1 in a detachable manner.
- the fixed portion 12 and the fixed portion 34 employ a structure in which one is fitted to the other or a structure in which one sandwiches the other.
- other means may be adopted as means for fixing the blade server 3 to the rack 1.
- the fixing portion 12 also serves as a housing that houses the rack-side connector 18, and the fixed portion 34 also serves as a housing that houses the information processing device-side connector 38.
- the rack-side connector 18 and the information processing apparatus-side connector 38 electrically connect the wiring 17 to the blade server 3 in a state where the fixed portion 34 of the blade server 3 is fixed by the fixing portion 12 of the rack 1. . That is, according to the present embodiment, the blade server 3 is installed by the fixing part 12 and the fixed part 34, the thermal connection between the heat transfer block 36 and the pipe 13, the information processing apparatus side connector 38 and the rack side connector. The connection with 18 is performed in conjunction.
- the fixing portion 12 of the rack 1 is provided on the rear wall 11r of the enclosure 11, and the fixed portion 34 of the blade server 3 is inserted into the back of the blade server 3 (the blade server 3 is inserted into the rack 1). In the direction of travel in the case), and is provided at a position where the blade server 3 is fitted into the fixed portion 12 of the rack 1 when the blade server 3 is inserted (see FIG. 2).
- fixed part 12 serves as the housing which accommodates the rack side connector 18, and the to-be-fixed part 34 also serves as the housing which accommodates the information processing apparatus side connector 38.
- the pipe 13 is held by the urging unit 14 at a position on the rear wall 11r side of the enclosure 11 so as not to interfere with the fixing unit 12, and the heat transfer block 36 is located behind the blade server 3 (blade server 3). Is provided at a position where the pipe 13 can be pushed in the direction of the rear wall 11r of the rack 1 when the blade server 3 is inserted (see FIG. 2).
- the fixed portion 34 of the blade server 3 fits into the fixing portion 12 of the rack 1 and at the same time, the information processing apparatus side connector 38. And the rack-side connector 18 are electrically connected, and the pipe 13 and the heat transfer block 36 are thermally connected.
- the operator When removing the blade server 3 from the rack 1, the operator may pull out the blade server 3 from the rack 1 along the rail. Thereby, the fitting state of the fixed portion 34 of the blade server 3 and the fixing portion 12 of the rack 1, the electrical connection between the information processing apparatus side connector 38 and the rack side connector 18, and the connection between the pipe 13 and the heat transfer block 36. The thermal connection is released at the same time.
- the work is performed according to the above-described procedure, so that even when the liquid cooling method is adopted for cooling the information processing apparatus, the circulation of the cooling liquid is stopped during the maintenance of the information processing apparatus. Therefore, maintenance can be performed with simple work.
- the air in the rack 1 passes through the heat exchanger 15, and heat is generated between the coolant and the air via the heat exchanger 15. Exchange is performed.
- the cooled air is sent to the front side of the rack 1 by the fan 16.
- the air sent to the front side of the rack 1 is taken in from the front side of the blade server by an air intake unit (fan) 37 provided in each blade server 3 to cool the heat source 33 in the chassis 31.
- the air whose temperature has risen and is used for cooling the heat source 33 is directly discharged from the rear of the blade server 3 to the rear wall 11r side of the rack 1 and cooled again by the heat exchanger 15.
- the present embodiment by generating the air flow as described above in the rack 1, heat that has not been collected by the heat pipe 35 among heat generated in the heat source 33 can be efficiently processed. I can do it.
- the example in which the heat exchanger 15 is installed in the lower part of the rack 1 has been described.
- the higher the temperature of air the easier it is to accumulate in the upper part of the rack.
- a heat exchanger may be installed in the rack upper part.
- the flow direction of the coolant in the pipe may be opposite to the direction described in the present embodiment (that is, the coolant flows from the upper side to the lower side of the rack). Good.
Abstract
Description
図1は、本実施形態に係るシステムの概略を示す側面図である。また、図2は、本実施形態に係るシステムの概略を示す平面図である。本実施形態に係るシステムは、1または複数のブレードサーバー3を搭載可能なラック1と、該ラック1に搭載される1または複数のブレードサーバー3とを備える。なお、図中の破線矢印は送風方向、破線でない矢印はブレードサーバー3の挿入方向を示す。
次に、本実施形態において、ラック1に対してブレードサーバー3を着脱する作業の手順を説明する。ラック1のエンクロージャー11の側面壁11sには、ブレードサーバー3を水平にエンクロージャー11内に差し込む際のガイドとなるレールが設けられている(図示は省略する)。作業者は、ブレードサーバー3を設置する際には、このレールにブレードサーバー3の側面を合わせてから、レールに沿ってブレードサーバー3をラック1内に挿入する。
熱源33において発生した熱のうち、ヒートパイプ35で収集しきれなかった熱は、エンクロージャー11内の空気に放出される。このため、本実施形態では、パイプ13に設けられた熱交換器15を用いてパイプ13内の冷却液とエンクロージャー11内の空気との間で熱交換をさせることで、エンクロージャー11内の空気を冷却する。また、冷却された空気は、各ブレードサーバー3に設けられた空気取込部(ファン)37によってブレードサーバー3のシャーシ31内部を通過し、エンクロージャー11内を循環する。
3 ブレードサーバー(情報処理装置)
13 パイプ
36 伝熱ブロック
Claims (25)
- 1または複数の情報処理装置と、
前記1または複数の情報処理装置を設置可能なラックと、
を備えるシステムであって、
前記ラックは、
前記情報処理装置を着脱可能に固定する固定部と、
該ラック外から供給される冷却液を該ラック内部に通過させた後に該ラック外部に導く流路と、を備え、
前記情報処理装置は、
前記固定部によって固定される被固定部と、
該情報処理装置が備える熱源の少なくとも何れかに熱接続された伝熱ブロックであって、前記固定部によって該情報処理装置が固定された状態で前記流路に熱接続される伝熱ブロックと、を備える、
システム。 - 前記伝熱ブロックの、前記流路に接する部分は、該流路の外形に沿う形状を有する、
請求項1に記載のシステム。 - 前記流路は円筒状の形状を有し、
前記伝熱ブロックの、前記流路に接する部分は、前記円筒状の流路の外周に沿う形状を有する、
請求項1に記載のシステム。 - 前記伝熱ブロックと前記流路とは、伝熱性の素材を介して熱接続される、
請求項1から3の何れか一項に記載のシステム。 - 前記伝熱ブロックと前記流路とは、1.0ワットパーメートルケルビン(W/(m・K))以上の熱伝導率を有する素材を介して熱接続される、
請求項4に記載のシステム。 - 前記伝熱ブロックと前記流路とは、50ワットパーメートルケルビン(W/(m・K))以上の熱伝導率を有する素材を介して熱接続される、
請求項4に記載のシステム。 - 前記伝熱ブロックと前記流路とは、変形することによって該伝熱ブロックおよび該流路に密着する素材を介して熱接続される、
請求項4から6の何れか一項に記載のシステム。 - 前記伝熱ブロックと前記流路とは、グリースを介して熱接続される、
請求項7に記載のシステム。 - 前記伝熱ブロックと前記流路とは、シリコンラバーシートを介して熱接続される、
請求項7に記載のシステム。 - 前記流路は、少なくとも前記伝熱ブロックに熱接続される部分が可動であり、
前記ラックは、前記流路のうち、少なくとも前記伝熱ブロックに熱接続される部分を、前記伝熱ブロック方向に付勢する付勢部を更に備える、
請求項1から9の何れか一項に記載のシステム。 - 前記流路は、一部に蛇腹構造を有することで、少なくとも前記伝熱ブロックに熱接続される部分が可動である、
請求項10に記載のシステム。 - 前記ラックは、前記流路に熱接続されることで、前記流路内を流れる冷却液と前記ラック内の空気との間の熱交換を促進させる熱交換器を更に備える、
請求項1から11の何れか一項に記載のシステム。 - 前記熱交換器は、前記流路のうち、前記伝熱ブロックに熱接続される部分よりも、前記冷却液の流れにおいて上流側に設けられる、
請求項12に記載のシステム。 - 前記情報処理装置は、前記熱交換器を介して前記冷却液と熱交換された空気を、該情報処理装置の内部に取り込む空気取込部を更に備える、
請求項12または13に記載のシステム。 - 前記ラックは、
電源供給用または通信用の配線と、
前記固定部によって前記情報処理装置が固定された状態で前記配線を該情報処理装置に電気的に接続させるためのラック側コネクターと、を更に備え、
前記情報処理装置は、
前記被固定部が前記ラックに固定された状態で該情報処理装置を前記配線に電気的に接続させるための情報処理装置側コネクターを更に備えることで、
前記流路と前記伝熱ブロックとの間の熱接続と、前記ラック側コネクターと情報処理装置側コネクターとの間の電気接続とが連動する、
請求項1から14の何れか一項に記載のシステム。 - 前記情報処理装置は、前記熱源と前記伝熱ブロックとを熱接続するヒートパイプを更に備える、
請求項1から15の何れか一項に記載のシステム。 - 前記ラックは、開放されることで、固定された前記情報処理装置が収容されるラック内部へのアクセスを可能とする、扉を更に備える、
請求項1から16の何れか一項に記載のシステム。 - ラックに設置可能な情報処理装置であって、
前記ラックに対して着脱可能に固定される被固定部と、
該情報処理装置が備える熱源の少なくとも何れかに熱接続された伝熱ブロックであって、前記被固定部が固定された状態で、前記ラック外から供給される冷却液を該ラック内部に通過させた後に該ラック外部に導く流路に熱接続される伝熱ブロックと、を備える、
情報処理装置。 - 前記伝熱ブロックと前記流路とは、伝熱性の素材を介して熱接続される、
請求項18に記載の情報処理装置。 - 前記伝熱ブロックと前記流路とは、変形することによって該伝熱ブロックおよび該流路に密着する素材を介して熱接続される、
請求項19に記載の情報処理装置。 - 前記被固定部が前記ラックに固定された状態で、前記ラックに備えられた電源供給用または通信用の配線に該情報処理装置を電気的に接続させるための情報処理装置側コネクターを更に備えることで、
前記流路と前記伝熱ブロックとの間の熱接続と、前記ラック側コネクターと情報処理装置側コネクターとの間の電気接続とが連動する、
請求項18から20の何れか一項に記載の情報処理装置。 - 1または複数の情報処理装置を設置可能なラックであって、
前記情報処理装置を着脱可能に固定する固定部と、
該ラック外から供給される冷却液を該ラック内部に通過させた後に該ラック外部に導く流路であって、前記固定部によって前記情報処理装置が固定された状態で、該情報処理装置が備える熱源の少なくとも何れかに熱接続された伝熱ブロックに熱接続される流路と、を備える、
ラック。 - 前記伝熱ブロックと前記流路とは、伝熱性の素材を介して熱接続される、
請求項22に記載のラック。 - 前記伝熱ブロックと前記流路とは、変形することによって該伝熱ブロックおよび該流路に密着する素材を介して熱接続される、
請求項23に記載のラック。 - 電源供給用または通信用の配線と、
前記固定部によって前記情報処理装置が固定された状態で前記配線を該情報処理装置に電気的に接続させるためのラック側コネクターと、を更に備えることで、
前記流路と前記伝熱ブロックとの間の熱接続と、前記ラック側コネクターと情報処理装置側コネクターとの間の電気接続とが連動する、
請求項22から24の何れか一項に記載のラック。
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EP14843153.9A EP3185663A1 (en) | 2014-08-18 | 2014-08-18 | System, information processing device and rack |
JP2015507295A JP5858414B1 (ja) | 2014-08-18 | 2014-08-18 | システムおよびラック |
PCT/JP2014/071594 WO2016027299A1 (ja) | 2014-08-18 | 2014-08-18 | システム、情報処理装置およびラック |
US14/661,446 US9483091B2 (en) | 2014-08-18 | 2015-03-18 | System, information processing device and rack |
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