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HPE BladeSystem

HPE BladeSystem is a family of modular architectures developed by (HPE), consisting of chassis enclosures that house multiple thin, interchangeable server blades, storage modules, and networking interconnects to enable high-density, scalable computing in enterprise data centers. These systems consolidate shared resources such as power supplies, cooling fans, and fabrics within a single enclosure, significantly reducing cabling complexity, power consumption, and physical space compared to traditional 1U or 2U rack-mounted servers. The lineup includes key enclosure models like the c3000, designed for smaller-scale deployments supporting up to eight half-height blades, and the larger c7000 enclosure, which accommodates up to 16 half-height blades, eight full-height blades, or a mix including storage and workstation blades. Each enclosure features a high-bandwidth, passive midplane for connectivity—5 terabits per second for standard models and up to 7 terabits per second for Platinum variants in the c7000—along with redundant power options (including AC, DC, and high-voltage variants) and up to 10 hot-plug fans for reliable cooling. Central to the BladeSystem's operation is the Onboard Administrator, a dedicated management module that enables secure remote access, configuration wizards, and real-time monitoring of all enclosure components via a interface or CLI, ensuring and simplified administration. Interconnect bays support diverse fabrics such as Ethernet, , and through modules like Virtual Connect for streamlined server-to-network mapping without recabling. Blade options span HPE (x86-based) and (Itanium-based) series, supporting workloads from and to . Introduced in 2006 as part of HPE's c-Class , BladeSystem revolutionized efficiency by enabling rapid scaling and resource pooling, though many enclosures and blades have reached end-of-sale status, with ongoing support and a transition to successor platforms like HPE for composable . As of November 2025, it retains significant market presence in legacy environments, with 12.9% mindshare in the blade servers category.

Introduction

Overview

The HPE BladeSystem is a line of modular blade servers introduced by (later , or HPE) in 2006, designed to enable high-density through shared . It features a chassis-based where multiple server blades, storage modules, and interconnects reside within enclosures, utilizing common power supplies, cooling fans, and networking fabrics to minimize redundancy and optimize . This approach evolved from earlier p-Class systems, focusing on greater modularity and scalability. The core purpose of HPE BladeSystem is to deliver efficient, space-saving solutions for enterprise data centers by consolidating resources and reducing the , usage, and cabling demands associated with traditional rack-mounted . For instance, its shared infrastructure allows a single to support up to 16 compute nodes while cutting down on individual cabling per , thereby lowering operational complexity and costs. Enclosures like the c7000 model can accommodate up to 16 half-height blades or 8 full-height blades, providing flexible scalability for growing workloads. Initially positioned for mid-to-large enterprises, HPE BladeSystem targeted demanding applications such as , (HPC), and early infrastructures, where density and efficiency are critical for performance and cost control.

Key Features

The HPE BladeSystem architecture emphasizes modularity through its design, enabling hot-swappable blades, interconnect modules, and supplies that facilitate non-disruptive upgrades and without powering down the entire . This shared approach allows components to be replaced or scaled individually, minimizing and supporting flexible configurations across compute, , and networking elements within a single chassis. Efficiency is enhanced by consolidated power and cooling systems, achieving up to 30% power savings compared to traditional rack-mounted servers through features like Active Cool fans and Dynamic Power Saver mode, which optimize energy use based on workload demands. The system supports redundant power domains with configurations and advanced thermal management, ensuring reliable operation while reducing overall and operational costs. Scalability is provided by HPE Virtual Connect technology, which enables logical grouping of servers for simplified and , allowing administrators to manage multiple enclosures as a unified . Dynamic power capping further optimizes , preventing overloads and enabling efficient scaling for growing workloads without proportional increases in infrastructure. Security and reliability are bolstered by the built-in Integrated Lights-Out (iLO) management processor, which offers remote monitoring, control, and firmware updates across the system. In later generations, features like Silicon Root of Trust integrate hardware-based security at the firmware level to verify integrity and protect against tampering. Convergence is a core advantage, integrating compute, storage, and networking fabrics into one chassis to streamline deployment and reduce cabling complexity, thereby lowering total cost of ownership (TCO) through shared resources and simplified management. This consolidated design minimizes physical footprint and administrative overhead.

History

Origins

The development of what would become HPE BladeSystem originated in the early , driven by the need for higher server density in data centers following the dot-com boom of the late 1990s, when rapid expansion of internet infrastructure led to acute space and power constraints. Compaq Computer Corporation, which merged with in May 2002, initiated concepts in 2001 as part of its Adaptive Infrastructure strategy to enable scalable, modular computing for enterprise environments facing growing demands for efficiency and manageability. This effort addressed the limitations of traditional rack-mounted servers, which consumed excessive floor space and cabling in post-boom data centers recovering from overbuilding. Compaq's first commercial blade offering, the BL e-Class, was introduced in January 2002, marking the company's entry into the blade market with compact, edge-oriented servers designed for space-constrained applications. Following the merger, expanded this portfolio with the BL p-Class, introduced in 2002, with key models such as the BL20p in August 2002 and the BL40p in January 2003, which integrated architecture for both x86 and processors to support a range of enterprise workloads. These systems pioneered shared infrastructure in enclosures, reducing cabling by up to 87% and improving power efficiency compared to standalone servers. The p-Class was influenced by competitive pressures, including IBM's BladeCenter announcement in April 2002, prompting HP to emphasize 's compatibility with standard x86 ecosystems while extending to for . Despite these innovations, the initial p-Class faced challenges including high upfront costs for enclosures and limited market adoption amid the post-dot-com economic slowdown, which dampened demand for new infrastructure. Additionally, the fixed I/O fabric design—relying on predefined interconnect positions for Ethernet and Fibre Channel—restricted flexibility for evolving networking needs, contributing to a major redesign in subsequent generations. These early efforts laid the groundwork for the modular BladeSystem architecture, focusing on density and integration to meet adaptive enterprise requirements.

Major Generations

The HPE BladeSystem evolved through several major generations following its initial c-Class launch, each introducing architectural improvements in modularity, efficiency, and integration while maintaining compatibility with existing enclosures. The c-Class Gen1, introduced in June 2006, marked the foundational generation with the debut of modular I/O architecture via Virtual Connect technology, which simplified network connectivity by virtualizing Ethernet and connections directly in the enclosure interconnect bays. This generation supported up to 16 half-height compute blades in the c7000 enclosure, enabling dense deployment for enterprise data centers while reducing cabling complexity compared to traditional rack servers. Subsequent generations built on this foundation, with Gen8 released in late , focusing on enhanced power efficiency through improved features like Intelligent Provisioning and dynamic power capping, which optimized use across blades without compromising . Gen8 also introduced FlexFabric adapters, such as the 10Gb 2-port 534FLB, providing converged networking for both and traffic in a single adapter to streamline infrastructure. These advancements integrated seamlessly with HP's initiative, launched in 2009, allowing BladeSystem to form part of unified compute, , and networking environments for better in virtualized setups. Gen9, announced in 2014, emphasized security and performance upgrades, including the iLO 4 management processor with advanced firmware resilience and role-based access controls to mitigate threats at the hardware level. It supported DDR4 memory for higher bandwidth and efficiency, paired with E5-2600 v3 processors, delivering up to 50% performance gains over prior generations in compute-intensive workloads. The Gen10 generation, launched in 2017, represented the final major iteration, incorporating Silicon Root of Trust for immutable verification to protect against and boot-time attacks, alongside PCIe 3.0 support for faster I/O expansion. This made it the last significant release before HPE's 2019 announcement of BladeSystem discontinuation, shifting focus to newer platforms. End-of-support timelines vary by component, with c7000 and c3000 enclosures reaching retirement between 2022 and 2024, while Gen10 blades receive ongoing legacy support from HPE until at least 2026, extending to 2027 for certain configurations under extended service agreements. Post-2019, HPE transitioned BladeSystem users to , a offering software-defined resource pooling and automation, designating BladeSystem as a legacy solution for modern hybrid environments.

Enclosures

c7000

The HPE BladeSystem c7000 serves as the flagship chassis in the BladeSystem lineup, designed for high-density enterprise computing environments. Measuring 10U in height, it provides a modular that integrates power, cooling, and I/O to support up to 16 half-height blades or 8 full-height blades, enabling efficient for demanding workloads. Introduced in June 2006, the c7000 became the primary for large-scale deployments, evolving through compatibility with c-Class blade generations from Gen5 to Gen10 while maintaining its core architecture. Key components of the c7000 include 16 server bays arranged in four quadrants for balanced power and cooling distribution, along with 4 I/O bays on each rear side for a total of 8 interconnect bays that accommodate up to 16 interconnect modules when using paired redundant configurations. Power is supplied via shared hot-plug units, with support for up to 10 supplies per in high-redundancy setups, including options like 2400 W or 2650 W AC units certified to Gold or Platinum efficiency standards. The design incorporates up to 4 domains to ensure redundancy, allowing seamless without interrupting operations. The enclosure's capacity supports a maximum power draw of up to 45 kW in fully configured scenarios, with later Gen10-compatible models offering upgrades to 50 kW through enhanced options and three-phase input support (200-208 V AC or 380-415 V AC). Cooling is managed by an Active-Active system featuring up to 10 redundant hot-plug fans, which dynamically adjust based on sensors to maintain optimal temperatures across all bays, with at higher altitudes (1°C per 1,000 ft above ). This setup ensures reliable operation in centers, with shared reducing cabling and improving compared to traditional rack-mounted servers. Suited for large-scale , database hosting, and , the c7000 excels in environments requiring dense compute resources, such as enterprise clouds or HPC clusters, where its shared midplane delivers up to 7.1 Tbps of non-blocking I/O in later models. It remained the dominant for such use cases until sales were discontinued in Q4 2019, after which HPE shifted focus to composable infrastructure like . Despite its capabilities, the c7000's higher upfront cost makes it less ideal for small-scale or branch-office deployments, where lower-density options are more economical. As of , end-of-support-life dates vary by configuration, generally extending to 2025-2027, with third-party maintenance options available beyond official HPE support.

c3000

The HPE BladeSystem c3000 is a compact, 6U-high designed specifically for smaller-scale deployments in environments with limited space, power, and cooling resources. Measuring approximately 10.4 inches in height, 19.1 inches in width, and 33 inches in depth, it supports up to 8 half-height blades or 4 full-height blades in its 8 dedicated server bays, making it suitable for scaled-down needs compared to larger enclosures. The enclosure features 4 I/O bays that accommodate up to 8 interconnect modules, enabling support for two redundant fabrics such as Ethernet, , , or for networking and storage connectivity. Key components include up to 6 hot-plug 1200W Platinum Plus power supplies ( certified for efficiency), which provide or N+N redundancy across two power domains and a pooled power for dynamic allocation. Cooling is handled by 6 hot-plug Active Cool 100 fans with , utilizing a (parallel, redundant, scalable, efficient cooling) architecture to maintain optimal temperatures in or tower configurations. The maximum power draw is approximately 7.2 kW, with each power supply rated at up to 1350W under high-line voltage (200-240 VAC). Launched in 2007 as a companion to the larger c7000 enclosure, the c3000 targets use cases like remote offices, /remote office (ROBO) setups, and testing labs, where its low-line power compatibility (100-120 VAC) and optional tower allow deployment without specialized infrastructure. It shares compatibility with the same and blades as the c7000, but its reduced capacity emphasizes cost-effectiveness for niche, scenarios. The c3000 became less prevalent than the c7000 due to its focus on smaller footprints, with sales discontinued in February 2011 and end-of-service-life support concluding in February 2016, though extended maintenance options were available through third-party providers up to 2024 in some cases.

p-Class

The HP ProLiant BL p-Class enclosure, introduced in August 2002, marked Hewlett-Packard's initial entry into dense architectures, serving as a foundational platform for shared infrastructure in data centers. Designed with a compact 6U height, it accommodated up to 16 half-height blades (such as the BL30p or BL35p), 8 full-height blades (such as the BL20p or BL25p), or 2 quad-wide blades (such as the BL40p), utilizing a fixed to distribute power and I/O connectivity across all components. Key components included integrated power shelves in either a 1U or 3U configuration, supporting up to 6 hot-plug power supplies per shelf for a maximum capacity of 6 kW in enhanced models, ensuring reliable power delivery without individual blade PSUs. Networking was constrained to up to 4 fabrics, primarily Ethernet (via GbE or GbE2 interconnect switches) and (through patch panels or mezzanine cards), lacking the modular expansion options of later designs. The system pioneered early adoption of mezzanine cards for blade-specific I/O customization, such as dual-port connectivity on supported models. Capacity extended to a single enclosure's 16 half-height blades, with potential for rack-level scaling through multiple , though limited by non-modular interconnects; cooling relied on front-to-back facilitated by blade-integrated fans, requiring adequate (at least 65% open area on doors) for passive heat dissipation. Primarily deployed for early (HPC) workloads and web serving applications in environments, the p-Class enabled dense but faced constraints in fabric and power distribution, contributing to its rapid transition toward the more flexible c-Class enclosures by 2006. As a , the p-Class was fully retired from sales by around 2010, with end-of-support-life for associated blades reaching December 2012 and no official maintenance available post-2015, ultimately functioning as a proof-of-concept that validated high-density principles.

Compute Blades

ProLiant BL Series

The HPE BL Series comprises x86-based compute blades designed for high-density within HPE BladeSystem enclosures, offering scalable performance for enterprise workloads. These blades integrate processors and emphasize modularity, allowing customization through mezzanine cards for networking and storage expansion. The series prioritizes and space optimization, enabling up to 16 half-height or 8 full-height blades per c7000 enclosure, which equates to rack densities far exceeding traditional 1U servers. Key models in the BL Series include the BL460c, a half-height blade supporting 1 or 2 processors, and the BL660c, a full-height blade accommodating up to 4 processors for more demanding applications. The BL460c, introduced in the c-Class generation around 2007, initially featured 5400 series processors and has evolved to support the latest Scalable processors in Gen10 models. Similarly, the BL660c targets high-compute scenarios with quad-socket configurations, starting from 5500 series in earlier generations and advancing to Scalable series for enhanced parallelism. Both models are compatible with c7000 and c3000 enclosures, though detailed enclosure specifics are covered elsewhere. Configurations across generations provide flexible options for , expansion, and . In Gen10 BL460c blades, maximum reaches 3 TB using 128 GB LRDIMMs across 24 slots, while the BL660c Gen9 supports up to 4 TB with 32 DDR4 slots. PCIe expansion occurs via adapters, enabling connectivity to shared fabrics without external cabling. varies by model and generation; the BL460c typically includes 2 SFF drive bays for /SATA SSDs, whereas the BL660c offers up to 4 internal bays, with options for NVMe caching to boost I/O performance. These features support diverse setups, from single-socket entry-level to quad-socket high-memory configurations. Performance characteristics position the BL Series as optimized for environments, such as , with integrated HPE iLO for . Gen9 models deliver up to 70% performance gains over Gen8 equivalents through E5-2600 v3/v4 processors and improved memory bandwidth. Gen10 models provide additional improvements, up to 71% in select workloads over Gen9, enabling higher densities in benchmarks like VMmark. For instance, BL660c configurations with all-flash storage have demonstrated real-world VM densities suitable for large-scale deployments. The series evolution spans from Gen6 (2009, 5500 Nehalem-based) to Gen10 (2017, Platinum Scalable), focusing on doubling compute density relative to prior 1U servers while reducing power per core. Support for many ProLiant BL Gen10 models, such as the BL460c Gen10, ends on December 31, 2025. Primarily deployed for general-purpose computing, , and database applications, the BL Series accounts for a significant portion of BladeSystem installations, with the BL460c noted as one of the most widely adopted models historically. Its versatility in handling mixed workloads has made it a staple in data centers seeking to consolidate infrastructure without sacrificing scalability.

Integrity BL Series and Transition to

The HPE Integrity BL series represents a line of mission-critical server blades designed for high-availability environments, featuring Intel Itanium processors optimized for enterprise workloads such as databases and . The BL870c i4 model, for instance, supports up to four sockets with Intel Itanium 9500 series processors, enabling robust configurations for operating systems like and NonStop, which are tailored for fault-tolerant applications. These blades incorporate advanced (RAS) features, including hot-plug components, error-correcting memory, and predictive failure analysis to minimize downtime in demanding setups. The i6 generation, announced in 2012 and reaching general availability in 2017, marked the final release, building on prior iterations with enhanced processor performance and up to 768 GB of DDR3 memory per blade for models like the BL870c i6. Configurations in the Integrity BL series emphasize for specialized software stacks, supporting up to 1.5 TB of in eight-socket variants like the BL890c i6, while maintaining compatibility with enterprise applications such as databases and solutions. Performance is augmented by nPartitioning (nPars), allowing up to four isolated hard partitions per blade in models like the BL890c i4 to enhance resource isolation and availability for critical tasks. These blades found a niche in sectors requiring extreme reliability, such as for and for secure handling, where their capabilities ensured continuous operation. Support for Integrity BL blades concluded with end-of-sale announcements around 2018 for earlier generations, though extended service extends to December 31, 2025, for select i6 models. Transitioning from the BladeSystem architecture, HPE Synergy introduces composable infrastructure as a successor platform, featuring compute modules such as the Synergy 480 Gen10 for fluid resource allocation in shared environments. These Synergy compute modules are designed for Synergy frames and maintain support for legacy workloads while offering enhanced agility. Managed through HPE OneView, Synergy enables dynamic provisioning of compute, storage, and networking resources, reducing deployment times compared to traditional blade setups by automating template-based compositions. Storage composability is a key advancement, with modules like the D3940 providing up to 40 shared small form factor (SFF) bays that can be zoned across multiple compute modules for on-demand access. As the designated successor to BladeSystem, Synergy prioritizes agility for hybrid IT, particularly in mission-critical deployments originally served by Integrity blades.

Interconnects and Networking

Interconnect Modules

Interconnect modules in HPE BladeSystem enclosures provide the physical and virtualized connectivity between compute blades and external networks or storage fabrics. These modules install into dedicated I/O bays at the rear of the enclosure and support hot-plug replacement without interrupting operations. HPE offers two primary categories of interconnect modules: pass-through modules and managed modules, such as those in the Virtual Connect family. Pass-through modules deliver transparent, 1:1 connectivity from blade ports directly to external switches, supporting fixed-speed Gigabit Ethernet or Fibre Channel without any internal switching or virtualization. In contrast, Virtual Connect modules are managed devices that virtualize server identities, abstracting MAC addresses for Ethernet and World Wide Names (WWNs) for Fibre Channel to simplify server provisioning and reduce dependency on external infrastructure changes. This abstraction allows administrators to reassign virtual identities to blades without altering upstream switches, enabling rapid blade replacement or relocation. Key types of Virtual Connect modules include Ethernet-focused variants, Fibre Channel modules, and converged FlexFabric options. Ethernet modules, such as the Virtual Connect Flex-10/10D, provide up to 16 internal 10Gb downlinks to server NICs, with each downlink partitionable into up to four FlexNICs for bandwidth allocation. modules, like the Virtual Connect 16Gb 24-port, offer dedicated 16Gb connectivity with 16 internal 8/16 Gb/s ports and 8 external 4/8/16 Gb/s ports and support for N-port ID virtualization. FlexFabric modules converge Ethernet and traffic; for example, the FlexFabric-20/40 F8 includes 16 internal 10/20Gb downlinks to server NICs and adapters, 4 external 10Gb SFP+ ports, and 4 external 10/40Gb QSFP+ ports, supporting protocols like and FCoE for unified networking. These modules support up to 1,024 virtual MAC/WWN identities across a domain, facilitating large-scale deployments. The HPE BladeSystem c7000 accommodates up to 8 interconnect modules across its 8 bays (in pairs for ), while the c3000 supports up to 4. Modules for Gen10 systems, such as updated FlexFabric variants, incorporate 40Gb QSFP+ ports for higher-speed uplinks and maintain compatibility with and FCoE. involves sliding modules into bays, with automatic detection by the Onboard for . Benefits of Virtual Connect modules include significant reductions in cabling—up to 94% fewer cables compared to direct connections—and the elimination of external switches at the enclosure edge, lowering costs and complexity. These modules are compatible with c3000 and c7000 enclosures, but the older p-Class enclosures are limited to fixed-fabric interconnects without modular Virtual Connect support.

Supported Fabrics

The HPE BladeSystem supports Ethernet fabrics primarily through Virtual Connect modules, enabling speeds ranging from 1 GbE to 40 GbE depending on the generation and configuration. These fabrics incorporate tagging for and (QoS) mechanisms to prioritize traffic, ensuring efficient bandwidth allocation in environments. For example, the Virtual Connect Flex-10 module allows dynamic assignment of FlexNICs with bandwidth from 100 Mb to 10 Gb per connection, supporting converged networking for multiple protocols over Ethernet. Fibre Channel fabrics in HPE BladeSystem provide connectivity for Storage Area Networks (SANs) at speeds of 4 Gb, 8 Gb, and 16 Gb, facilitated by dedicated interconnect modules and mezzanine cards on compute blades. (FCoE) convergence is supported via FlexFabric modules, allowing Ethernet infrastructure to carry FC traffic while maintaining lossless delivery for storage protocols. This integration reduces cabling complexity by unifying storage and data networking on a single fabric. InfiniBand fabrics are available for (HPC) workloads, supporting 40 Gb (Quad Data Rate, QDR) and 56 Gb (Fourteen Data Rate, FDR) speeds through Mellanox-based modules, with low-latency (RDMA) capabilities for efficient data transfer. These fabrics are optimized for environments, providing high throughput and minimal CPU overhead in supported enclosures like the c7000. Management fabrics in HPE BladeSystem include a dedicated for the Integrated Lights-Out (iLO) , enabling remote monitoring and control independent of production traffic. iLO integrates with external switches from vendors like and for extended management reach, supporting protocols such as SNMP and secure web access across the enclosure. The evolution of supported fabrics reflects generational advancements: early Gen1 c-Class systems were limited to 4 Gb and 1/10 GbE, while p-Class enclosures restricted options to Ethernet and 4 Gb only. By Gen10, fabrics extended to 40 GbE and RoCE for RDMA over Ethernet, enhancing convergence and performance for modern workloads without in all configurations.

Storage

Storage Blades

Storage blades in the HPE BladeSystem provide dedicated, options optimized for high-density environments, allowing blades to deliver local capacity without relying on external arrays. These blades integrate seamlessly into c-Class enclosures, supporting and drives for efficient data access in compute-intensive setups. The primary storage blade model is the HPE D2220sb, a half-height designed for BladeSystem c3000 and c7000 enclosures, featuring 12 (SFF) bays that accommodate , , SAS SSD, or SSD drives with transfer rates up to 6 Gb/s. It offers a maximum raw capacity of 14.4 TB using 12 x 1.2 TB SFF drives, with logical drive capacity up to 24 TB depending on configuration. Additionally, the HPE BL460c server can be configured with up to two SFF or drive bays for storage-focused deployments, providing flexibility for hybrid compute and needs in earlier generations. Configurations for these storage blades leverage HPE Smart Array controllers, such as the P420i with 2 GB flash-backed write cache, enabling levels 0, 1, 1+0, 5, and 6 for data protection and performance optimization. In HPE Gen10 environments, NVMe options in compatible blades like the BL460c Gen10 deliver significantly higher operations per second () compared to traditional HDDs, enhancing latency-sensitive workloads. Integration occurs via the enclosure's shared backplane, facilitating direct connectivity, while boot-from-SAN capabilities through (FC) allow blades to initialize from networked when local capacity is insufficient. These storage blades suit use cases such as virtual desktop infrastructure (VDI) and database hosting, where local reduces and dependency on external () systems. For instance, they enable efficient provisioning of persistent for virtualized environments or transactional databases within the BladeSystem . Limitations include a maximum capacity of approximately 25 TB per , constrained by drive sizes and overhead, making them less suitable for petabyte-scale needs. The D2220sb and similar dedicated storage blades were retired with the transition to Gen10 platforms, with newer systems favoring integrated NVMe in compute blades or shared infrastructure alternatives.

Shared Infrastructure

Shared storage in HPE BladeSystem is facilitated by the enclosure's high-speed midplane, which supports expansion for direct connectivity to enclosures without additional cabling. The midplane, offering aggregate up to 5 Tbps in c7000 models, enables wire-once for shared storage access across blades, including compatibility with HPE StoreFabric solutions for connecting to external arrays such as or D6000 JBOD systems. This design allows up to four external SAS storage arrays per enclosure, enhancing capacity while leveraging the midplane's NonStop architecture for reliable data paths. SAN connectivity is provided through dedicated interconnect modules in the enclosure bays, supporting (FC) and protocols for integration with HPE storage systems like StoreServ and StoreOnce. These fabrics enable zoned access to shared storage, with support for up to 512 LUNs per fabric in compatible arrays such as the 2050, allowing blades to boot from SAN or access virtualized volumes efficiently. Additional shared elements include device bays configurable for peripherals like tape drives via HPE tape blades, which install directly into half-height or full-height slots for enclosure-wide backup access. Power capping operates at the enclosure level through Onboard Administrator, enforcing limits such as Dynamic Power Capping to fit within constraints, with maximum capacities reaching around 14.4 kW in fully populated c7000 setups. The shared infrastructure design significantly improves efficiency by reducing external cabling requirements by up to 95% compared to traditional rack servers, minimizing complexity and points of failure. is integrated via the Onboard Administrator, which provides real-time alerts for high temperatures and adjusts fan speeds dynamically to maintain optimal conditions across the .

Management

Onboard Administrator

The HPE BladeSystem Onboard Administrator () serves as the embedded module for c-Class s, delivering firmware-based control and at the enclosure level. Introduced in 2006 alongside the c-Class architecture, it enables administrators to oversee hardware infrastructure through a dedicated , focusing on power distribution, device bay status, and system health without requiring external servers. Each includes one OA module by default, with an optional second for , supporting up to 16 blades in c7000 models or 8 in c3000 models. The OA's core functionality centers on a web-based accessible via , which provides tools for —including virtual power button controls, dynamic power capping, and redundancy modes such as N+1 or AC redundant—bay management for inserting/removing blades and interconnects, and alert generation for issues like failures or thermal thresholds. Alerts can be configured for delivery via , SNMP traps on ports 161/162, or local display, with SNMP supporting versions 1, 2, and 3 for network integration; RESTful APIs are also available for programmatic access to enclosure data. Key features include firmware update capabilities through the , (CLI), USB key (supporting up to 4 GB FAT32 or larger filesystems from version 2.30), or for (), along with defined roles: administrator for full control, operator for monitoring and limited actions, and read-only , accommodating up to 30 accounts with bay-specific permissions. Dual OAs operate in active-active mode, with automatic if firmware versions match, ensuring continuous management even during maintenance. Integration aspects of include real-time monitoring of enclosure components, such as power supplies (up to 6), fans, and sensors, with event logging in a system holding over 1,000 entries (18 capacity) and an extended for detailed historical data at 5-minute intervals over 24 hours. It interfaces with blade-level tools like iLO for consolidated reporting but remains enclosure-centric, without native support for multi-chassis . , launched in 2006, introduced foundational elements like USB updates and up to 30 directory groups; subsequent releases for Gen8 and later servers incorporate an UI for modern browsers, enhanced security features including FIPS mode introduced from version 3.71 and certification from version 4.71, , two-factor , and self-signed or CA-issued SSL certificates valid for 10 years. Limitations of the OA include its strict focus on single-enclosure operations, precluding broader data center management that requires tools like HPE OneView, and the cessation of firmware updates after 2022, aligning with the retirement of c-Class enclosures around 2023 end-of-support.

Integrated Software Tools

HPE OneView serves as the primary integrated software tool for managing HPE BladeSystem environments, providing centralized lifecycle management across compute, storage, and networking resources. Introduced in 2013, it enables automated provisioning, monitoring, and updates through a unified and RESTful , supporting BladeSystem enclosures, Virtual Connect modules, and server blades. The platform's composable architecture allows for template-based server profile creation, facilitating rapid infrastructure deployment and reconfiguration without manual intervention. Key features include software-defined templates for provisioning servers and storage volumes, which reduce deployment times from hours to minutes by automating configuration consistency across multiple systems. HPE OneView supports multi-enclosure via its Global Dashboard, enabling oversight of up to 75 appliances and 20,000 managed devices through a single console for streamlined operations. capabilities provide insights for and optimization, including firmware compliance dashboards to identify updates. For automation, it offers open APIs compatible with orchestration platforms such as and , allowing scripted workflows for BladeSystem resource allocation and integration with broader pipelines. Complementing OneView are legacy tools like HPE Insight Control, which focuses on server deployment and performance management for BladeSystem infrastructure, including operating system installation and hardware configuration via a centralized console. HPE Operations Orchestration (now under Micro Focus) enhances workflow automation, integrating with BladeSystem components to orchestrate tasks like patching and compliance checks across enclosures. These tools build on the foundational Onboard Administrator for single-enclosure operations but extend to scalable, multi-system environments. HPE OneView evolved from earlier management solutions, effectively replacing HP Systems Insight Manager (SIM) by consolidating its monitoring functions into a more automated, API-driven platform starting in 2013, with SIM updates limited thereafter to hardware compatibility only. BladeSystem-specific plugins ensure seamless integration with Virtual Connect for fabric management. As of 2025, OneView remains recommended for legacy BladeSystem deployments, particularly Gen10 servers, while HPE emphasizes migration to GreenLake for enhanced cloud-like services and full support continuity.

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