MPN R2208WTTYSR
Niveau de stock
Integrated 2U system featuring an Intel® Server Board S2600WTTR supporting eight 2.5 inch hot-swap drives, dual 10-GbE LAN, 24 DIMMs, one 1100W redundant-capable power supply, enterprise class I/O, with built in discrete management network interface.
The Intel® Remote Management Module (Intel® RMM) allows you to securely gain access and control servers and other devices from any machine on the network. Remote access includes remote management capability, including power control, KVM, an...
Oui
Intel Server Board S2600WTTR
2
SW RAID 0, 1, 10, optional 5
Q3'20
Q1'16
63903513
16.93 x 27.95 x 3.44 "
Launched
Oui
Serveur 2U
Oui
Cloud/Datacenter
Wildcat Pass
Non
Intel R2000WT
Hot-swap 2.5"
System
http://www.intel.com/content/www/us/en/motherboards/server-motherboards/server-board-s2600wt.html
Y
Oui
Oui
88279
Included
Oui
Server
1.2
Oui
Oui
Oui
1
Oui
Oui
Y
Oui
Non
Oui
1
Oui
Oui
Oui
Oui
Non
VT-d
Oui
Oui
Oui
1
7
2
7
2.0/3.0
Oui
10
2
2
5
5
Acier inoxydable
2
Oui
1 ventilateur(s)
Oui
Non
Rack (2 U)
Oui
8473305100
Oui
1,5 TB
1,5 TB
24
1600/1866/2133 MHz
DDR4-SDRAM
0,7 kg
Intel® C612
Intel
1,5 TB
2
Intel® Xeon®
E5-2600
LGA 2011-v3
0,6 kg
1100 Watt
1
AC
Oui
10000 Mbit/s
10 Gigabit Ethernet
Oui
0/1/10
8
8
2.5 "
Oui
1 Année (s)
Integrated 2U system featuring an Intel® Server Board S2600WTTR supporting eight 2.5 inch hot-swap drives, dual 10-GbE LAN, 24 DIMMs, one 1100W redundant-capable power supply, enterprise class I/O, with built in discrete management network interface.
The Intel® Remote Management Module (Intel® RMM) allows you to securely gain access and control servers and other devices from any machine on the network. Remote access includes remote management capability, including power control, KVM, and media redirection, with a dedicated management network interface card (NIC).
Intel® Intelligent Power Node Manager is a platform resident technology that enforces power and thermal policies for the platform. It enables data center power and thermal management by exposing an external interface to management software through which platform policies can be specified. It also enables specific data center power management usage models such as power limiting.
Intel® Advanced Management Technology features an isolated, independent, secure, and highly reliable network connection, with an Integrated Baseboard Management Controller (Integrated BMC) configuration from within BIOS. Also includes an embedded web user interface that launches key platform diagnostic capabilities over the network, an out-of-band (OOB) platform inventory, failsafe firmware updates, and an automatic Integrated BMC stall detection and reset.
Intel® Server Customization techology enables Resellers and System Builders to offer end customers a customized branded experience, SKU configuration flexibility, flexible boot options, and maximum I/O options.
Intel® Build Assurance technology provides advanced diagnostic features ensuring the most comprehensively tested, most thoroughly debugged, and most stable systems possible are shipped to customers.
Intel® Efficient Power Technology is a series of improvements within Intel power supplies and voltage regulators to increase power delivery efficiency and reliability. The technology is included in all common redundant power supplies (CRPS). CRPS includes the following technologies; 80 PLUS Platinum (92% efficient at 50% load) efficiency, cold redundancy, closed loop system protection, smart ride through, dynamic redundancy detection, black box recorder, compatibility bus, and auto firmware updates to provide more efficient power delivery to the system.
Intel® Quiet Thermal Technology is a series of thermal and acoustic management innovations that reduce unnecessary acoustic noise and provide cooling flexibility while maximizing efficiency . The technology includes capabilities such as advanced thermal sensory arrays, advanced cooling algorithms, and built in fail-safe shutdown protection.
*Les données produit ci-dessus sont fournies par Icecat. A cet égard, EET ne peut être tenu responsable des erreurs.