Please login or create an account to save your build.Login or create an account now
For any urgent queries please call us on 023 9232 2500 (mon-fri -9am - 5pm)
Enter a title and optional short description, then click the 'Generate links' button to view share options.
Description :150 Characters remaining
Configure from £9599.99 inc VAT
Description: AMD EPYC ROME 7452, 32 Core 64 Threads, 2.35GHz, 128MB Cache, 155Watts.
Architecture Features: 128x PCI-E Lanes
Clockspeed: 2.35GHz Base, 3.35GHz Boost
Supports Virtualisation: Yes
No. of Cores: 32 Cores, 64 Threads
Description: 16GB Samsung DDR4 2666MHz ECC RDIMM Memory
Description: 1U 4x PCI-E GPU Server, 2x 2.5” HDD Bays.
Dimensions: 885 x 438 x 43.5 (D x W x H)mm
Form Factor: 1U
Drive Bays 2 1/2": 2
Description: PNY NVIDIA Quadro RTX 4000 Graphics Card
Max Resolution: 7680 x 4320
Number of displays Supported: 4
Description: Tyan S8021GM2NR-2T Motherboard
CPU Support: AMD EPYC® 7000 Series Processor
LAN: Rear Side:
2 x 10Gb/s BASE-T LAN ports (Intel® X550-AT2)
Socket Type: AMD Socket SP3
USB: Front2x USB3.0 ports
Rear1x USB3.0 port
SATA Ports: 2
PCI-EX: 4x PCI-E Gen3 x16 slots (FH / 10.5"L / DW) + 1x PCI-E Gen3 x16 slot (FH / HL / SW)
Memory Slots: 16
Max Memory Capacity: 2048GB
Standard build time 7 - 10 working days
With balanced industry-leading memory and breakthrough processing power, AMD EPYC provides fast and secure IT that eliminates persistent performance bottlenecks. Enable your workload with up to 32 cores, 8 memory channels and 128 PCI-e 3.0 lanes per CPU to meet every need from a virtualised infrastructure to the most demanding of applications.
Accommodates up to 4 x GPUs in a 1U form factor server chassis.
Combing the latest and most powerful components available for storage, networking and security, the system benefits from a hybrid of interconnected components that create a reliable and secure system for all realms of computing.
Servers designed to provide high conversion efficiency during heavy workloads. Reliable PSUs are combined with the best brand precision engineering for efficient power usage that maximises a system’s power.