Limited-Time Savings on Inspur NF5466M6 4U Rack Server PN NF5466M6 – High-Density AI & Storage Solution

Keywords
Inspur NF5466M6, Inspur NF5466M5, Inspur NF5468M6, Inspur NF8480M6, Inspur NF8260M5, dual-socket rack server, 4U GPU server, custom rackmount PC, high-performance Inspur servers, enterprise rackmount solutions

Description
Inspur’s NF5466M6 rack server delivers a perfect balance of compute, memory, storage, and expansion—ideal for AI, virtualization, and large-scale data environments. With dual-socket support for the latest Intel® Xeon® Gold processors, the NF5466M6 unlocks massive parallelism for demanding workloads.

Building on that foundation, the NF5466M5 and NF5468M6 variants offer tailored configurations: NF5466M5 focuses on storage density with up to 24 hot-swap bays, while NF5468M6 adds GPU-optimized trays for AI inference. The broader NF series includes 2U GPU servers such as the NF8260M5 and NF5280M6, plus the NF8480M6 2U rack PC host—ensuring an Inspur solution for every enterprise need.

All Inspur NF rack servers—from NF8260M5 to NF8480M6 to NF5466M6—ship ready for customization. Choose your CPUs, memory, drives, and GPU options, then deploy quickly thanks to Inspur’s modular, hot-swappable design and comprehensive management tools.

Key Features

• Dual-Socket Performance: Supports two Intel Xeon Gold or Silver CPUs for up to 64 cores.

• Massive Memory: Up to 2 TB DDR4 RDIMM across 32 slots (NF5466M6).

• Storage Density: Up to 24×3.5″ hot-swap bays (NF5466M5/6) or 16×2.5″ NVMe (NF8480M6).

• GPU-Ready: NF5468M6 and NF8260M5 provide up to 8 full-height PCIe GPU slots.

• Flexible Form Factors: 2U (NF8260M5, NF8480M6), 4U (NF5466M6, NF5466M5), and blade-style options.

• Redundancy & Reliability: Hot-swap PSUs, fans, and drives; ECC memory; integrated hardware monitoring.

• Easy Management: Inspur InCloud or Redfish API for remote deployment and firmware updates.

Configuration

Compatibility
All Inspur NF series servers share a common chassis design, power architectures, and management interfaces, allowing you to mix NF8466, NF8480, NF8260, and NF5466 models in the same rack. PCIe Gen4 slots and standard OCP networking bays ensure you can deploy the latest add-in cards and 25/40 GbE adapters. Each model supports Linux (RHEL, Ubuntu) and Windows Server, plus container-orchestration via Kubernetes.

Usage Scenarios

1. AI Training & Inference
   Leverage the NF5468M6’s eight GPU slots for large-scale deep-learning frameworks. Its high memory bandwidth ensures data pipelines remain saturated under peak workloads.

2. Virtualized Cloud & VDI
   Deploy clusters of NF5466M6 servers in your private cloud. Dual-socket CPUs and up to 2 TB RAM allow hundreds of VMs or thousands of containers to run concurrently.

3. Enterprise Storage & Backup
   Use NF5466M5’s 24 hot-swap bays for large-capacity backup and archive solutions. Combine HDDs and SSDs in hybrid arrays to balance performance and cost.

4. High-Performance HPC
   In 2U form factor, the NF8260M5 combines GPU acceleration—up to eight cards—with dual-CPU compute, ideal for scientific simulations and financial modeling.

Frequently Asked Questions (FAQs)

1. Which Inspur model is best for GPU-heavy workloads?
   For maximum GPU density, choose the NF5468M6 (8× full-height GPU slots) or NF8260M5 (8× cards in 2U) for large parallel training tasks.

2. Can I mix HDDs and NVMe drives?
   Yes. The NF5466M6 chassis supports hybrid configurations—mix 3.5″ HDDs and 2.5″ NVMe drives—while NF8480M6 is optimized for NVMe-only arrays.

3. What remote-management tools are available?
   Inspur InCloud provides a web UI and RESTful Redfish API. Out-of-band management via IPMI is standard across all NF series models.

4. Are these servers covered by on-site support?
   Yes. Inspur offers factory-warranty with optional 3-year or 5-year on-site response SLAs, including parts, labor, and firmware upgrades.

Supermicro X14, GPU & AMD Server Portfolio PN X14-SYS – Exclusive Rackmount Solutions Sale

Keywords
Supermicro X14 servers, Supermicro GPU servers, Supermicro AMD servers, SYS-112C-TN, AS-4124GO-NART+, AS-1115CS-TNR-G1, enterprise rack servers, high-performance compute, AI ready servers, cloud datacenter servers

Description
Our curated Supermicro server portfolio brings together the latest X14 generation, GPU-accelerated platforms, and AMD-powered systems in one place. Whether you’re building a cloud datacenter or deploying AI inference nodes, these Supermicro X14 servers deliver industry-leading performance and density.

Explore 1U and 2U chassis optimized for storage-only (WIO), hyperconverged workloads (Hyper), or cloud-scale deployments (CloudDC). Each X14 SuperServer features the next-gen Intel Xeon Scalable processors, PCIe Gen5 expansion, and flexible I/O trays for NVMe, U.2, or U.3 drives.

For GPU-heavy applications, our 4U and 5U Supermicro GPU servers—such as the AS-4124GO-NART+ and AS-5126GS-TNRT2—support up to eight double-wide GPUs, advanced cooling, and 4× 100GbE or HDR InfiniBand networking. Meanwhile, our AMD lineup—from the AS-1115CS-TNR-G1 1U Gold Series to the 2U AS-2015HS-TNR SuperServer—offers unparalleled memory bandwidth and core counts for virtualization and HPC.

Key Features

• X14 Generation Platforms: Intel Xeon Scalable Gen 4 support with PCIe Gen5 slots.

• Flexible Chassis Options: 1U CloudDC, Hyper, WIO; 2U Hyper and WIO SuperServers.

• GPU-Optimized Solutions: 4U AS-4124GO-NART+ & 5U AS-5126GS-TNRT2 for AI/ML training.

• High-Core AMD Configurations: 1U and 2U Gold Series AMD EPYC servers.

• Advanced Cooling & Redundancy: Hot-swap fans, PSUs, and tool-less drive trays.

• Enterprise Networking: OCP 3.0 slots, 100GbE and HDR InfiniBand options.

Configuration

Compatibility
All Supermicro X14, GPU, and AMD servers use standard 19″ rack rails and share hot-swap PSUs, fans, and EEPROM management modules. The X14 and GPU platforms support OCP 3.0 NICs, enabling seamless integration of 25/50/100 GbE or InfiniBand cards. AMD Gold Series servers are fully compatible with Linux distributions (RHEL, Ubuntu) and container orchestration via Kubernetes.

Usage Scenarios

1. Cloud Data Centers
   Deploy the 1U CloudDC SYS-112C-TN with dual Intel Xeon Gen4 CPUs and up to 8 NVMe drives for high-density tenant hosting.

2. AI & GPU Accelerated Workloads
   Use the 4U AS-4124GO-NART+ SuperServer with 4–8 high-wattage GPUs for model training in TensorFlow or PyTorch environments.

3. High-Performance Computing (HPC)
   Leverage AMD EPYC Gold Series AS-2015HS-TNR in 2U to run large-scale simulations and data analytics with high core counts and memory bandwidth.

4. Edge & Enterprise Virtualization
   Utilize the 1U Hyper SYS-112H-TN or AS-1115CS-TNR-G1 AMD server at branch offices for cost-effective virtual desktop and application hosting.

Frequently Asked Questions (FAQs)

1. Which Supermicro model is best for GPU-heavy AI training?
   The AS-4124GO-NART+ (4U) and AS-5126GS-TNRT2 (5U) support up to eight double-wide GPUs and advanced liquid-air hybrid cooling for sustained AI workloads.

2. Can I mix Intel and AMD servers in one rack?
   Yes. All X14 and AMD Gold Series servers share rack-mount hardware, power, and management modules. Use centralized BMC or IPMI for unified control.

3. What storage options are supported on X14 WIO models?
   The SYS-112B-WR and SYS-522B-WR support up to 8 or 12 U.3 NVMe drives respectively, offering sub-millisecond latency for real-time analytics.

4. How do I enable high-speed networking?
   Install an OCP 3.0 100GbE or HDR InfiniBand adapter into the designated mezzanine slots on X14 and GPU servers for low-latency, high-bandwidth connectivity.

Exclusive Deal: #BPL-305 Peplink Balance 305 Fiber Network Switch – Price-Performance Leader for Reliable Multi-WAN Connectivity

Keywords

#BPL-305, #Balance 305, #fiber-network-switch, #price-performance-leader, #proven-track-record, #high-reliability, #efficient-operation, #advanced-features, #robust-connectivity, #industrial-solution

Description

The #BPL-305 Balance 305 Fiber Network Switch stands out as a price-performance leader, delivering up to 1 Gbps aggregate throughput with three GE WAN and three GE LAN ports in a 1U rackmount chassis RSP Supply. Backed by Peplink’s proven track record in enterprise networking, it seamlessly balances multiple WAN links, ensuring uninterrupted connectivity even under heavy loads Peplink.

Designed for high reliability, the Balance 305 features hardware-level WAN failover that automatically reroutes traffic to backup connections such as LTE modems, minimizing downtime for critical applications NTS Direct. Its efficient operation is powered by onboard SpeedFusion™ technology, bonding multiple links into a single VPN tunnel for enhanced performance and security

With advanced features including an intuitive LCD panel, USB console port, and upgradable SpeedFusion peers (up to 30 with BPL-305-SPF license), this industrial-grade solution meets the demands of data centers, branch offices, and harsh environments alike.

Key Features

• Model: #BPL-305 Balance 305 Multi-WAN Fiber Switch=

• Ports: 3× GE WAN, 3× GE LAN, 2× LAN bypass 

• Throughput: 1 Gbps aggregate load balancing

• SpeedFusion™: Built-in bandwidth bonding and VPN failover peplinkworks.com

• Reliability: Automatic WAN failover, redundant link detection

• Management: LCD display, web UI, InControl Cloud Management

• Scalability: 2 SpeedFusion peers enabled (upgrade to 30 with BPL-305-SPF) download.peplink.com

• Deployment: 1U 19″ rackmount, USB console, dual power inputs

Configuration

Compatibility

The #BPL-305 integrates seamlessly with diverse network environments: it supports any SFP-based WAN/LAN media, works with cellular modems (USB 3G/4G/5G), and pairs with Peplink SpeedFusion appliances for site-to-site VPNs. It can be centrally managed via InControl 2, integrating with SNMP tools and APIs for automated provisioning in modern IT orchestration stacks.

Usage Scenarios

Peplink’s Balance 305 shines in data-center edge deployments, where guaranteed uptime and balanced Internet links are critical. By combining multiple ISP circuits and cellular backups, it ensures 24×7 availability for cloud workloads and VoIP services.

In industrial environments, its rackmount design and robust failover protect SCADA systems and remote monitoring networks from connectivity disruptions, while the compact 1U footprint saves valuable rack space.

For branch office networking, the Balance 305 delivers enterprise-grade performance at SMB budgets. With simple web-based configuration and cloud monitoring, IT teams can roll out multi-site VPNs in minutes, reducing administrative overhead.

Each scenario benefits from the Balance 305’s efficient operation and advanced connectivity features, enabling organizations to focus on strategic projects rather than firefighting network issues.

Frequently Asked Questions (FAQs)

Q1: How many SpeedFusion peers come standard on the #BPL-305?
A1: The Balance 305 includes 2 SpeedFusion peers by default and can be upgraded to 30 peers with the BPL-305-SPF license download.peplink.com.

Q2: What throughput can I expect from this switch?
A2: It delivers up to 1 Gbps aggregate load-balanced throughput across its three GE WAN ports.

Q3: Does the Balance 305 support fiber media?
A3: Yes—its GE SFP ports accept SFP transceivers for fiber or copper optics, offering flexible link options.

Q4: How does WAN failover work on the Balance 305?
A4: The router continuously monitors all WAN links and automatically fails over to secondary connections (including cellular USB modems) if the primary ISP link fails, ensuring uninterrupted connectivity.

Limited-Time Promotion: #Catalyst-9300-Series & #Nexus-3000-Series to #Business-110-Series Cisco Switches – Scalable Campus, Data Center & SMB Solutions

Keywords

#Catalyst-9300-Series, #Catalyst-9400-Series, #Catalyst-9500-Series, #Catalyst-9600-Series, #Nexus-3000-Series, #Nexus-3550-Series, #Nexus-7000-Series, #Nexus-9000-Series, #Business-110-Series, #Business-250-Series, #Business-350-Series

Description

Cisco’s Catalyst 9300 Series (#Catalyst-9300-Series) delivers high-performance, stackable 1G/10G access switching for enterprise campus networks, supporting advanced features like UPOE+, StackPower, and Cisco DNA Center integration Cisco. The modular Catalyst 9400 Series (#Catalyst-9400-Series) provides chassis-based aggregation with up to 9 Tbps switching capacity and field-replaceable line cards for scalable campus core deployments Wikipedia. Built for enterprise edge and core, the Catalyst 9500 Series (#Catalyst-9500-Series) offers fixed 10/25/40/100G switching with high-density 40G uplinks and advanced telemetry via Cisco IOS XE Cisco. The flagship Catalyst 9600 Series (#Catalyst-9600-Series) scales to 25.6 Tbps in a modular chassis for campus core/distribution, featuring redundant supervisors and high-availability design Wikipedia.

In the data center, the Nexus 3000 Series (#Nexus-3000-Series) delivers low-latency 10/25/40G Top-of-Rack switching ideal for FPGA/AI workloads . The Nexus 3550 Series (#Nexus-3550-Series) adds 100G Spine/Leaf capabilities with VXLAN EVPN support for multi-tenant clouds . Mid-tier Nexus 7000 Series (#Nexus-7000-Series) chassis switches offer 3.6 Tbps per slot in a proven modular platform with in-service software upgrades . The merchant-silicon-driven Nexus 9000 Series (#Nexus-9000-Series) runs in NX-OS or ACI modes, scaling to 25.6 Tbps and enabling micro-segmentation and telemetry for modern applications .

For small business, the Business 110 Series (#Business-110-Series) is an unmanaged Gigabit switch family with reliable basic connectivity. The Business 250 Series (#Business-250-Series) adds Layer 2 features like VLANs and QoS for SMB edge deployments. The Business 350 Series (#Business-350-Series) provides Layer 3 Lite routing, ACLs, and PoE+ for converged access in branch offices.

Key Features

• Catalyst 9300 Series: StackWise-480, UPOE+, IOS XE, Cisco DNA integration Cisco

• Catalyst 9400 Series: 9 Tbps chassis, field-replaceable line cards, SD-Access support

• Catalyst 9500 Series: 25.6 Tbps, 40/100G uplinks, advanced telemetry Cisco

• Catalyst 9600 Series: 25.6 Tbps fabric, redundant supervisors, modular high-availability

• Nexus 3000/3550: Low-latency, 100G spine/leaf, VXLAN EVPN, micro-burst mitigation

• Nexus 7000: 3.6 Tbps/slot, non-stop forwarding, in-service upgrades

• Nexus 9000: ACI or NX-OS mode, merchant silicon, programmable pipelines

• Business 110/250/350: Unmanaged to Layer 3 Lite, VLANs, PoE+, SMB-focused reliability

Configuration

Compatibility

All Catalyst series run Cisco IOS XE and integrate with Cisco DNA Center for policy-based automation and analytics Cisco. Nexus 9000 supports both NX-OS and ACI for programmability and micro-segmentation . Business series switches interoperate with Cisco Meraki and third-party management via SNMP and REST APIs.

Usage Scenarios

1. Enterprise Campus Access & Aggregation
   Catalyst 9300 and 9400 form access and distribution layers, providing secure segmentation (TrustSec), PoE for wireless, and DNA-driven automation Cisco.

2. Data Center Leaf-Spine
   Nexus 3000/3550 deliver low-latency leaf switching, while Nexus 7000/9000 serve as spine/core switches supporting VXLAN EVPN underlay/overlay fabrics .

3. Branch & SMB Connectivity
   Business 110/250/350 switches offer plug-and-play deployment, PoE for IP phones/CCTV, and basic VLAN/QoS for small offices.

Frequently Asked Questions (FAQs)

Q1: What stacking technology do Catalyst 9300 switches use?
A: They use StackWise-480, allowing up to eight switches to operate as one logical unit with 480 Gbps of stack bandwidth Cisco.

Q2: Can Nexus 9000 run both ACI and NX-OS?
A: Yes—Nexus 9000 platforms support a “Cloud-Scale” mode (ACI) and a “Classic” mode (NX-OS), selectable at boot .

Q3: Are Business 350 Series switches Layer 3 capable?
A: The Business 350 Series supports Layer 3 Lite routing (static routes, RIP) along with VLAN and ACLs, suitable for small-scale inter-VLAN routing.

Q4: What management tools integrate with Cisco switches?
A: All Cisco switches integrate with Cisco DNA Center, Cisco Intersight, Cisco Prime Infrastructure, and support RESTful APIs, NETCONF/YANG, and SNMP for automation Cisco.

Limited-Time Offer: #SA5456M5 Inspur SA5456M5 Storage System – 2× Intel Gold 6152, 768 GB DDR4, 60×16 TB Seagate EXOS X16, 40 GbE

Keywords

#SA5456M5, #Intel-Gold-6152, #768GB-DDR4-RDIMM, #Seagate-EXOS-X16, #40Gbps-Network-Card, #High-Performance-Storage, #Enterprise-Storage-Solution, #SA5456M5-Configuration, #Scalable-Storage-System

Description

The #SA5456M5 is built around dual Intel® Xeon® Gold 6152 CPUs, each providing 22 cores and 44 threads, with a base frequency of 2.10 GHz and turbo up to 3.70 GHz, delivering robust parallel compute performance for demanding workloads. It houses 12×64 GB DDR4 RDIMMs at 2666 MT/s for a total of 768 GB memory, enabling efficient in-memory processing of large datasets. Storage is provisioned by 60×16 TB Seagate® Exos® X16 drives, offering an aggregate raw capacity of 960 TB with enterprise-grade reliability and sustained 261 MB/s transfer rates .

Networking is handled by a single-port Intel® XL710-QDA1 converged network adapter, providing 40 Gbps Ethernet with PCIe 3.0 x8 connectivity, SR-IOV, VT-c, and advanced offloads for optimized packet processing and virtualization. The 4U chassis supports hot-swappable 3.5″ drives and redundant PSUs/fans, ensuring high availability and ease of maintenance.

Key Features

• Dual Intel® Xeon® Gold 6152 Processors: 22 cores/44 threads each, 2.10 GHz base, 3.70 GHz turbo, 30.25 MB L3 cache.

• 768 GB DDR4 RDIMM Memory: 12×64 GB modules at 2666 MT/s for high bandwidth and capacity.

• 960 TB Raw Storage: 60×16 TB Seagate® Exos® X16 HDDs, 7.2 K RPM, SATA 6 Gb/s, 256 MB cache, 261 MB/s sustained.

• 40 GbE Networking: Intel® XL710-QDA1 single-port QSFP+, PCIe 3.0 x8, SR-IOV, VT-c, DPDK optimization.

• High Availability: Hot-swap drives, redundant PSUs and fans, chassis IPMI manageability .

• Scalable Architecture: Supports OCP NICs, GPU modules, and NVMe cache via PCIe slots. 

Configuration

Compatibility

The SA5456M5 supports any OS and hypervisor that run on Intel® Xeon® Scalable platforms, including Windows Server, Red Hat Enterprise Linux, SUSE Linux Enterprise Server, VMware ESXi, and Ubuntu LTS. Its OCP-ready design and standard PCIe slots enable integration with offload cards, GPU accelerators, and NVMe SSD caches. Remote management and monitoring are available via IPMI 2.0 and Redfish APIs.

Usage Scenarios

1. Data Archiving & Backup
Ideal for nearline storage of large datasets—log archives, media libraries, compliance data—with 960 TB raw capacity and enterprise reliability.

2. High-Performance Computing (HPC)
Dual 44-thread CPUs and 768 GB memory accelerate scientific simulations and engineering workloads, while high-density storage accommodates massive datasets.

3. Virtualized Environments
Sub-millisecond drive access and large memory footprint support high VM densities for VDI, database consolidation, and cloud services.

4. Big Data Analytics & AI
Balanced I/O and CPU resources handle parallel analytics pipelines and training/inference workloads, with headroom for GPU integration via PCIe.

Frequently Asked Questions (FAQs)

Q1: What is the raw storage capacity of the SA5456M5?
A1: It ships with 60×16 TB Seagate Exos X16 drives for 960 TB raw capacity BoyuTechs.com.

Q2: Which network adapter does it use, and what speeds?
A2: It uses an Intel XL710-QDA1 single-port QSFP+ adapter supporting 40 GbE (backwards to 10 GbE) over PCIe 3.0 x8 Intel.

Q3: Can I upgrade to NVMe or add GPUs?
A3: Yes—there are 8 PCIe 3.0 expansion slots for OCP, NVMe SSD adapters, and GPU accelerators, supporting heterogeneous workloads BoyuTechs.com.

Q4: Is remote management supported?
A4: The system includes IPMI 2.0 with web GUI and Redfish APIs for out-of-band provisioning, monitoring, and firmware updates