Single AMD Epyc Processor, Short Depth, Redundant Power Option, Dedicated Remote Management port with IPMI & Remote KVM Management
Redundant Power Option, Dedicated Remote Management port with IPMI & Remote KVM Management
Single AMD Epyc Processor, 8x Hot Swap Drive Bays, Short Depth, Redundant Power Option, Dedicated Remote Management port with IPMI & Remote KVM Management
Redundant Power Supply, 4x 3.5"/2.5" SATA hot-swappable HDD/SSD bays, Ultra-Fast M.2 with PCIe Gen3 x4 interface, 2x 1Gb/s LAN ports (Intel® I350-AM2)
8x 2.5" SATA and 2 x 2.5 NVMe hot-swappable HDD/SSD bays, Ultra-Fast M.2 with PCIe Gen3 x4 interface, 1x PCIe Gen4 x16 expansion slot, 2x 1Gb/s LAN ports (Intel® I350-AM2)
Redundant Power Supply, 12x 3.5" and 2 x 2.5" SATA hot-swappable HDD/SSD bays, Ultra-Fast M.2 with PCIe Gen3 x4 interface, 2x 1Gb/s LAN ports (Intel® I350-AM2)
26x 2.5" SATA/SAS hot-swappable HDD/SSD bays, Ultra-Fast M.2 with PCIe Gen3 x4 interface, 6x PCIe Gen4 / Gen3 Expansion Slots, Onboard 12Gb/s SAS expander
10x 2.5" NVMe hot-swappable SSD bays, Ultra-Fast M.2 with PCIe Gen4 x4 interface, Redundant Power Supply
12x Drive Bays, Redundant Power Option, Dedicated Remote Management port with IPMI & Remote KVM Management
8-Channel RDIMM/LRDIMM DDR4 per processor, 32x DIMMs, 4x 3.5"/2.5" SATA hot-swappable HDD/SSD bays, Ultra-Fast M.2 with PCIe Gen3 x4 interface
8-Channel RDIMM/LRDIMM DDR4 per processor, 32x DIMMs, 8x 2.5" SATA and 2 x 2.5 NVMe hot-swappable HDD/SSD bays, Ultra-Fast M.2 with PCIe Gen3 x4 interface, 2 x 1Gb/s LAN ports (Intel® I350-AM2)
8x PCIe Gen4 x16 and x8 expansion slots, 12x 3.5" and 2 x 2.5" SATA hot-swappable HDD/SSD bays, 2 x 1Gb/s LAN ports (Intel® I350-AM2), 8-Channel RDIMM/LRDIMM DDR4 per processor, 32x DIMMs
Redundant Power Supply, 24x 2.5" NVMe Hot-swappable SSD bays, 2x 2.5" SATA/SAS hot-swappable HDD/SSD, Ultra-Fast M.2 with PCIe Gen3 x4 interface, 2x 1Gb/s LAN ports (Intel® I350-AM2)
Redundant Power Option, Dedicated Remote Management port with IPMI & Remote KVM Management
10x 2.5" NVMe hot-swappable SSD bays, Ultra-Fast M.2 with PCIe Gen3 x4 interface, 8-Channel RDIMM/LRDIMM DDR4 per processor, 32x DIMMs
Up to 4 x NVIDIA ® PCIe Gen4 GPU cards. NVIDIA-Certified system for scalability, functionality, security, and performance. Dedicated management port. Redundant power.
Redundant Power Option, Dedicated Remote Management port with IPMI & Remote KVM Management
Supports up to 3x double slot GPU cards, 12x 3.5" SATA hot-swappable HDD/SSD bays, Ultra-Fast M.2 with PCIe Gen3 x4 interface
Redundant Power Option, Dedicated Remote Management port with IPMI & Remote KVM Management
8-Channel RDIMM/LRDIMM DDR4 per processor, 32x DIMMs, 24x 2.5" NVMe hot-swappable SSD bays in front side, 2x 2.5" SATA/SAS hot-swappable HDD/SSD bays in rear side Ultra-Fast M.2 with PCIe Gen3 x4 interface
8 x PCIe Gen4 x16 and x8 expansion slots, 24x 2.5" SATA/SAS hot-swappable HDD/SSD bays in front side, 2x 2.5" SATA/SAS hot-swappable HDD/SSD bays in rear side
Redundant Power Option, Dedicated Remote Management port with IPMI & Remote KVM Management
Redundant Power Option, Dedicated Remote Management port with IPMI & Remote KVM Management, 36 Bay
8x PCIe Gen4 expansion slots for GPUs, 2 x 10Gb/s SFP+ LAN ports (Mellanox® ConnectX-4 Lx controller), 2 x M.2 with PCIe Gen3 x4/x2 interface
Dual AMD EPYC 7002/7003 Series Server - 4x 2.5" NVMe & 4x SATA Drives
2U2S HPC Server, 4x PCIe Gen 4.0 x16 and 1x PCIe Gen x8 slots, 32x DIMM slots supporting up to 8TB RAM, 12x 3.5" SATA w/ 4x optional NVMe U.2 tool-less drive bays
Dual AMD EPYC 7002/7003 Series Server - 12x 2.5" NVMe + 4x SATA Drives
Redundant Power Option, Dedicated Remote Management port with IPMI & Remote KVM Management
8x PCIe Gen3 expansion slots for GPUs, 2x 10Gb/s BASE-T LAN ports (Intel® X550-AT2 controller), 4x NVMe and 4x SATA/SAS 2.5" hot-swappable HDD/SSD bays
2U Quad Node, Supports 5G Network Infrastructure, 8x M.2 with PCIe Gen3 x4 interface, 8x Low Profile PCIe x16 Expansion Slots, 8x 1Gb/s LAN ports (Intel® I350-AM2), Short Depth.
2U Quad Node, Supports 5G Network Infrastructure, 4x 2.5" NVMe Hot-swappable SSD Drive Bays, 8x M.2 with PCIe Gen3 x4 interface, 8x Low Profile PCIe x16 Expansion Slots, Short Depth.
Up to 8 x PCIe Gen4 GPGPU cards, 2 x 10Gb/s BASE-T LAN ports (Intel® X550-AT2), 8-Channel RDIMM/LRDIMM DDR4 per processor, 32 x DIMMs
8 PCI-E 4.0 x16 + 3 PCI-E 4.0 x8 slots, Up to 24 Hot-swap 2.5" drive bays, 2 GbE LAN ports (rear)
2U Quad Node, 24x 2.5" NVMe/SATA Hot-swappable SSD Drive Bays, 8x M.2 with PCIe Gen3 x4 interface, 8x Low profile PCIe x16 Expansion Slots, 8x 1Gb/s LAN ports (Intel® I350-AM2)
10 x FHFL Gen3 expansion slots for GPU cards, 2 x 10Gb/s BASE-T LAN ports (Intel® X550-AT2), 8 x 2.5" NVMe, 2 x SATA/SAS 2.5" hot-swappable HDD/SSD bays, 12 x 3.5" SATA/SAS hot-swappable HDD/SSD bays
2U Quad Node, 24x 2.5" SATA/SAS Hot-swappable HDD/SSD Drive Bays, 8x M.2 with PCIe Gen3 x4 interface, 8-Channel RDIMM/LRDIMM DDR4 per processor, 64x DIMMs, 8x 1Gb/s LAN ports (Intel® I350-AM2)
2U Quad Node, 8-Channel RDIMM/LRDIMM DDR4 per processor, 64x DIMMs, 8x M.2 with PCIe Gen3 x4 interface, 8x Low Profile PCIe Gen4 x16 Expansion Slots, 8x 1Gb/s LAN ports (Intel® I350-AM2)
2U Quad Node, 12x 2.5" NVMe hot-swappable SSD bays, 12x 2.5" SATA/SAS hot-swappable HDD/SSD bays, 8x M.2 with PCIe Gen3 x4 interface, 8x Low profile PCIe Gen4 x16 expansion slots
2U Quad Node, 8-Channel RDIMM/LRDIMM DDR4 per processor, 64x DIMMs, 8x 1Gb/s LAN ports (Intel® I350-AM2), 24x 2.5" NVMe Hot-swappable SSD Drive Bays, 8x M.2 with PCIe Gen3 x4 interface, 8x Low Profile PCIe Gen4 x16 Expansion Slots
Four Nodes in 2U. Ideal for Compute Intensive Applications, HPC, Data Center, Enterprise Server, Hyperscale / Hyperconverged. Redundant Power Option.
Four Nodes in 2U. Ideal for Compute Intensive Applications, HPC, Data Center, Enterprise Server, Hyperscale / Hyperconverged. Redundant Power Option.
High Density 2U System with NVIDIA® HGX™ A100 4-GPU, Direct connect PCI-E Gen4 Platform with NVIDIA® NVLink™, IPMI 2.0 + KVM with dedicated 10G LAN
20 High performance UP blade servers in a 8U High blade enclosure. Optimised for HPC, virtualisation and cloud computing. PCI-E Gen4 ready for SSD and Network IO.
8x NVIDIA A100 Gen4, 6x NVLink Switch Fabric, 2x M.2 on board and 4 Hybrid SATA/Nvme, 8x PCIe x16 Gen4 Slots
Broadberry CyberServe EPYC servers powered by dual AMD EPYC 7003 series processors are optimised for enhanced workload performance, designed to deliver the ideal combination of speed and efficiency whilst incorporating a multitude of advanced security features to safeguard your system and data centre.
Boasting scorching fast performance, the Broadbery CyberServe EPYC range of server solutions are perfect for high-intensity applications, including:
The 3rd Gen AMD EPYC 7003 range of processors features the EPYC 7763, world's highest performing server processor. All processors in this range enable enhanced business productivity by significantly speeding up application performance.
Broadberry servers powered by AMD EPYC 7003 series processors deliver trailblazing performance across the wide range of industry standard applications. Power solutions in the cloud, in containers, on-prem or off-prem, or in virtual machines. The AMD EPYC 7003 processor range raises the bar for data centre computing capabilities.
Broadberry server solutions powered by AMD EPYC 7003 series processors have been optimised for data centres that rely on CPU performance and throughput. From hyperconverged infrastructure, to big data analytics, to database, to HPC, workloads have more cores to work with. AMD EPYC™ 7003 series scale from 8 to 64 cores (or 16 to 128 threads per socket), no other x86 server processor achieves this level of core density.
The AMD EPYC 7003 series processors are built on the Zen 3 core and AMD Infinity Architecture. They deliver a full feature set across the stack with industry best I/O, 7nm x86 CPU technology and an integrated security processor on die. The CPU lineup also delivers up to 32MB of L3 cache per core, 4-6-8 memory channel interleaving designed for enhanced performance and economy in a multitude of DIMM configurations, as well as synchronised clocks between fabric and memory. All pushing for improved, faster time to results.
Broadberry server solutions powered by AMD EPYC processors have consistently delivered secure, efficient systems to your data centres generation after generation.
Ensuring the security of your workloads is paramount, from the processes all the way to your data. AMD Infinity Guard is a suite of advanced features built directly into the silicon, designed to safeguard your data from both internal and external threats. It massively decreases potential attack surfaces as software is booted, executed and processors your data. Also featured is AMD Secure Encrypted Virtualisation technologies reinforced with Secure Nested Paging. AMD EPYC processors feature breakthrough data security advances, such as confidential computing.
From traditional application deployment all the way to the latest innovations, AMD EPYC 7003 Series processors deliver the system resources and capacity your applications require. The software optimisation footprint of AMD EPYC CPUs is constantly increasing, helping to make sure applications leverage all the innovations of AMD EPYC processors. Broadberry server solutions powered by AMD EPYC enable you to capitalise on business impact swiftly across your enterprise, no matter where, when or how your applications run.
Every AMD EPYC processor features AMD Infinity Guard, a suite of advanced security technologies, built in at the silicon level. AMD Infinity Guard reduces the risk faced by your most important assets and allows your organisation to take control of your security.
Utilise a multi-layered approach to modernise your security.
Implement security features specifically designed to be very resistant to complex attacks ranging from BIOS manipulation to in-memory return-oriented programming (ROP) and virtualised malicious hypervisor attacks.
Reach full memory encryption.
Help safeguard against both internal and physical threats, such as cold boot attacks. With full memory encryption, your data is encrypted even in the scenario memory is physically removed from the server.
Ensure privacy and protection in virtualised environments.
Memory data encrypted for every virtual machine helps protect the confidentiality of your data, even in the case of a malicious virtual machine finding a path into your virtual machine’s memory.
Seamless x86 application support.
Quickly utilise security features, AMD Infinity Guard is designed to work with your x86 applications in a seamless manner, without the need to modify any code.
3rd Gen AMD EPYC processors elevate the bar for workload performance, providing up to 19% more instructions per clock. Regardless of the job, you are able to drive faster time to results and deliver increased and improved data for decisions, leading to better business outcomes.
Enterprise resource planning systems maintain your supply chain. With up to 2x more SAP Enterprise Resource Planning users for supply chain logistics, you can support spikes and seasonal business demands.
Extract knowledge from data and utilise insights to make faster, data-driven market decisions. Up to 14% increased 10TB decision support query performance and 21% better price/performance.
Web and mobile apps are the face of your company and a large number of them run on Java enterprise middleware. Enjoy up to double the performance of the highest published competitors.
Easily deploy and scale your private cloud applications through virtualisation. Delivers 2.8x the VMware VMark vSAN 3.1 performance.
As the world has transitioned to remote work, virtual desktop environments are more vital than ever. Support up to 2x more “knowledge worker” desktop sessions whilst meeting Login VSI rating of QoS response times.
HPC drives industries, ranging from oil and gas to molecular dynamics. Iterate floating point based HPC applications significantly fasters with an estimated 27% higher per code performance double the throughput performance.
By utilising 3rd Gen AMD EPYC processors, the decision makers of your company can very quickly access data in the cloud (either on or off premises), in containers, virtual machines or bare-metal servers.
Based on the ground-breaking AMD Infinity Architecture, the AMD approach to processor designs allows you to turbocharge applications, use time more efficiently and secure your critical data regardless of where it resides.
The core of the AMD Infinity Architecture is a leadership interconnect that supports massive levels of scale at every layer.
Components communicate with AMD Infinity Fabric technology - a connection used within cores, between cores and with off-chip components – to connect “Zen 3” processor cores, memory, bandwidth and security mechanisms. This allows the architecture to deliver breakthrough performance and efficiency.
The Broadberry CyberServe EPYC range features blistering levels of performance and efficiency. Maximising performance and minimising cost, these systems bring the perfect balance to your data centre. Based on arguably the best cost-effective processor available on the market, you will enjoy the best balance of resources drives with rightsized compute for all workloads.
If you’re looking for a powerful server that will greatly boost the overall performance of your data centre while also contributing to decreasing overall costs, the Broadberry CyberServe EPYC range is the ideal solution for you.
As this range is based on the latest AMD EPYC Gen 3 processors, the solutions in this range enjoy the advantages that come with that. AMD EPYC processors feature an embedded security processor, meaning full memory encryption without the need for any changes to your applications.
AMD EPYC support three main categories of security features.
With AMD Secure Root-of-Trust technology you can ensure protection from rootkits/bootkits that can insert malicious code prior to an OS loading. Via the creation of a hardware root of trust, only known and trusted software will be allowed to load and run. This protection extends from the initial boot load through the BIOS load.
AMD Secure Run Technology protects the system from being exposed to methods of attack like memory scraping and cold boot attack that can be implemented if data running in the main system memory is failed to be encrypted. With SME (Secure Memory Encryption) the system memory is encrypted and with SEV (Secure Encrypted Virtualisation) the hypervisor and guest virtual machines are isolated to prevent access to data in shared guest data areas.
Migrating VMs whether simply within the data centre, to off-premises private cloud or to the public cloud can be very insecure. With AMD Secure Move Technology servers will be able to establish a secure channel between them as well as send memory encryption keys to the remote platform.
This range of AMD EPYC based rackmount servers will allow your business to enjoy remarkably high levels of performance. The AMD EPYC processor family is an excellent option for HPC and has been built to promote balancing the ratio of cores, memory and I/O bandwidth.
Striking the ideal balance of cores/threads, security, I/O bandwidth and memory to provide the amazingly fast performance for many HPC workloads. Broadberry servers powered by EPYC processors deliver a superb solution for even the most demanding of HPC applications.
AMD EPYC is Hardened at the Core with advanced security features. It is the first server CPU with an integrated and dedicated security processor providing the foundation for Secure Boot, Secure Memory Encryption (SME) and Secure Encrypted Virtualisation (SEV). So you can worry less about data risk and focus more on running your business.
The AMD EPYC processor secure root of trust is designed to validate the initial BIOS software boot without corruption. In virtualised environments, you can cryptographically check that your entire software stack is booted without corruption on a cloud server or services you choose.
With encrypted memory, attacks on the integrity of main memory (such as cold-boot attacks) are inhibited because any data obtained is encrypted. High-performance encryption engines integrated into the memory controllers help speed performance. All of this is accomplished without modifications to your application software.
Our CyberServe solutions are very flexible and very scalable, adeptly adapting to the changing situations in your data centre as time goes on and maintaining high levels of efficiency and performance as your business demands continue to evolve.
Through almost 3 decades of hard work, consistency and reliability, we have established ourselves as one of the world’s top providers of server technology. We are proud to have delivered storage technology to some of the planets largest organisations including the likes of the University of Oxford, NASA, SONY, Disney, Sky, the BBC, Virgin, Toshiba, Toyota, the University of Cambridge and many more.
Every server undergoes an comprehensive 48 hour system test and is covered by a 3 year warranty. Broadberry's powerful online configurator allows you to create your server to perfectly fit the needs and requirements of your business. With a wide array of features, hundreds of possible configuration combinations and a meticulous design process that optimises them directly for you, our servers are built to help your business thrive.
Before leaving our UK workshop, all Broadberry server and storage solutions undergo a rigorous 48 hour testing procedure. This, along with the high-quality industry leading components ensures all of our server and storage solutions meet the strictest quality guidelines demanded from us.
Our main objective is to offer great value, high-quality server and storage solutions, we understand that every company has different requirements and as such are able to offer un-equaled flexibility in designing custom server and storage solutions to meet our clients' needs.
We have established ourselves as one of the biggest storage providers in the UK, and since 1989 supplied our server and storage solutions to the world's biggest brands. Our customers include: