HP HPE0-S59 Exam Dumps & Practice Test Questions

Question 1:

A client intends to implement VMware ESXi 7.0 U2 and needs a server solution that can accommodate up to 24 TB of physical RAM.

Which HPE server platform is suitable for this requirement?

A. HPE ProLiant DL380 Gen10 Plus
B. HPE ProLiant DL580 Gen10
C. HPE Synergy 480 Gen10 Plus
D. HPE Superdome Flex 280

Correct Answer: D

Explanation:

When evaluating server platforms to support VMware ESXi 7.0 U2 with an upper limit of 24 TB of physical memory, it's critical to consider memory scalability across different HPE compute systems.

The HPE ProLiant DL380 Gen10 Plus is a versatile and powerful system used in various enterprise workloads. However, its memory support peaks at approximately 6 TB, even in top-tier configurations. As such, it doesn’t align with the 24 TB requirement.

The HPE ProLiant DL580 Gen10, while being a higher-end, enterprise-grade server with robust performance and four-socket architecture, is similarly limited in memory expansion—maxing out around 6 TB. This makes it a strong choice for many demanding environments but still inadequate for this customer’s needs.

The HPE Synergy 480 Gen10 Plus is a modular system optimized for composable infrastructure. While it provides excellent flexibility and relatively high memory capacity, it generally caps out at 6 TB per compute module. Despite offering scalability across a Synergy frame, the per-node memory still doesn’t meet the 24 TB threshold.

Only the HPE Superdome Flex 280 is designed to meet and exceed such large memory capacity requirements. Specifically tailored for in-memory computing and data-intensive workloads, this platform supports configurations of up to 24 TB of memory. It delivers extreme scalability and is well-suited for mission-critical applications that demand massive memory footprints, such as SAP HANA or large-scale virtualization environments.

Therefore, the HPE Superdome Flex 280 is the only platform among the listed options that fulfills the 24 TB memory requirement. It's engineered for enterprises that need unparalleled memory capacity, reliability, and performance.

Question 2:

Which of the following statements accurately describes a capability of the HPE Apollo 2000 Gen10 Plus platform?

A. It supports only a single processor and up to 4 servers per chassis
B. It comes with HPE Persistent Memory as a standard feature
C. It includes support for AMD EPYC and Intel Xeon Scalable processors
D. It is entirely managed by HPE OneView, including all infrastructure connections

Correct Answer: C

Explanation:

The HPE Apollo 2000 Gen10 Plus platform is a high-density server designed for compute-intensive tasks such as high-performance computing (HPC) and data analytics. It supports advanced performance capabilities while providing flexible configurations.

Looking at option A, it's incorrect to say the platform supports only one processor. Each server tray in the Apollo 2000 Gen10 Plus can house up to two processors, allowing for high core and memory density. Furthermore, a single chassis can contain multiple such trays, resulting in greater compute capacity.

Option B is also inaccurate. While the Apollo 2000 Gen10 Plus does support HPE Persistent Memory as an option, it is not included by default. Customers can opt to include persistent memory to gain faster access to key data or enhance in-memory computing, but it’s not a standard inclusion in the base configuration.

Option C is the correct choice. One of the standout features of the HPE Apollo 2000 Gen10 Plus is its processor flexibility. The platform supports both AMD EPYC and Intel Xeon Scalable CPUs. This provides organizations the freedom to choose the processor architecture that best suits their application needs, whether they prioritize core count, memory bandwidth, or power efficiency. The availability of both CPU types in one server platform increases hardware utilization efficiency and long-term investment protection.

Option D is only partially true. Although HPE OneView can manage the Apollo 2000 Gen10 Plus and offers integrated lifecycle management, monitoring, and automation features, it does not necessarily manage every connection and component by default. The level of management depends on how the infrastructure is deployed and integrated with HPE's broader ecosystem.

In conclusion, the platform's support for both AMD and Intel processors (Option C) is the accurate statement, offering the kind of flexibility and performance that modern enterprise and HPC workloads demand.

Question 3:

Which of the following accurately describes a feature of the HPE D3940 storage module?

A. It supports up to five modules installed within a single frame alongside Gen10 servers.
B. Each module can only contain one type of drive, such as SATA, SAS, or SSD.
C. SATA drives installed in this module require redundant IO adapters.
D. Configuration is performed exclusively through a CLI on the HPE Synergy console.

Correct Answer: A

Explanation:

The HPE D3940 storage module is a high-capacity, modular storage solution designed specifically for the HPE Synergy platform and is highly compatible with Gen10 servers. It is engineered to offer flexible storage expansion while fitting neatly into a single Synergy frame.

Option A is correct because the D3940 supports the installation of up to five modules within a single Synergy frame when used with Gen10 servers. This design allows organizations to scale their storage capacity significantly without the need for additional physical chassis, which is beneficial for data centers needing to maximize density and reduce footprint. By enabling multiple modules in one frame, it helps IT administrators manage storage more efficiently, avoiding costly hardware sprawl.

Option B is inaccurate because the module supports a mixed configuration of drives. Users can combine SATA, SAS, and SSD drives within the same module, allowing for a balanced approach between capacity (often provided by SATA) and performance (SSD and SAS). This flexibility is vital for mixed workloads requiring different drive characteristics.

Option C is false since SATA drives do not mandate redundant IO adapters. Although the module supports redundancy features for high availability, these are not mandatory for SATA drives alone. Redundant IO adapters are generally used for fault tolerance but are not specifically required by SATA drives in this module.

Option D is incorrect because the primary management interface for the D3940 is through HPE OneView or the Synergy Management Console’s graphical UI, not solely via CLI on the Synergy console. While CLI tools exist for advanced tasks, the main configuration workflow is GUI-based to enhance usability.

To sum up, A accurately describes the D3940’s modular scalability within a single frame, making it the best choice among the options.

Question 4:

Which statement best describes a feature of the HPE Synergy 480 Gen10 Plus Compute Module?

A. It supports 3rd Generation AMD EPYC processors with up to 64 cores.
B. It exclusively supports NVDIMM Persistent Memory modules.
C. It supports only 8 memory channels and DIMMs up to 256 GB capacity.
D. It cannot be used together with Gen9 compute modules in the same Synergy frame.

Correct Answer: D

Explanation:

The HPE Synergy 480 Gen10 Plus Compute Module is designed to deliver advanced performance and flexibility, but understanding its compatibility and memory support is crucial for proper deployment.

Option D is the correct choice because this module is not compatible with Gen9 compute modules within the same Synergy frame. Gen10 Plus compute modules have updated hardware and interface specifications that differ significantly from Gen9 models, preventing them from being mixed in a single frame. This limitation ensures stable operation and avoids hardware conflicts, making it essential to plan upgrades or expansions carefully.

Option A is incorrect because the Synergy 480 Gen10 Plus supports Intel Xeon Scalable processors—specifically 3rd Generation Intel Xeon CPUs—not AMD EPYC processors. While AMD EPYC processors can offer up to 64 cores, this particular module is Intel-based and supports up to 40 cores per processor depending on the model.

Option B is false since the module supports a variety of memory types, not only NVDIMM Persistent Memory. It also supports DDR4 RDIMMs and LRDIMMs, providing flexible options for capacity and performance based on workload requirements.

Option C is misleading; the module supports up to 32 DIMM slots and can handle very large memory modules, including 256 GB LRDIMMs. This means it supports more than 8 memory channels and can scale to large memory configurations, making it suitable for demanding applications.

In conclusion, D accurately reflects the key compatibility limitation of the Synergy 480 Gen10 Plus Compute Module, making it the correct answer.

Question 5:

Which statement accurately describes a characteristic of new HPE SimpliVity deployments?

A. Licensing for new HPE SimpliVity deployments is based on nodes rather than physical CPU sockets.
B. Every new HPE SimpliVity model includes built-in support for deduplication and compression.
C. All new HPE SimpliVity systems use AMD processors exclusively.
D. New HPE SimpliVity deployments allow customers complete flexibility in choosing any hypervisor.

Correct answer: B

Explanation:

HPE SimpliVity is a hyper-converged infrastructure (HCI) solution that integrates compute, storage, and virtualization into a unified platform, designed to simplify IT infrastructure management while enhancing performance. One of its standout features is advanced data efficiency, primarily through technologies like deduplication and compression, which help reduce storage requirements and optimize data management.

Let's analyze each option carefully: Option A suggests that licensing is based on the number of nodes, but in reality, HPE SimpliVity licensing is generally per physical CPU socket, not per node. This means costs are tied to the number of processor sockets rather than the number of physical nodes deployed.

Option B states that all new HPE SimpliVity models support deduplication and compression. This is accurate because these features are fundamental to SimpliVity’s design, enabling significant storage optimization and performance gains across all current models, making it a core capability rather than an optional add-on.

Option C claims that all new SimpliVity models are built on AMD CPUs, which is incorrect. HPE SimpliVity systems can be based on either Intel or AMD processors, depending on the model and customer requirements. Therefore, the CPU vendor is not uniform across all deployments.

Option D implies customers have unrestricted hypervisor choice. While SimpliVity supports popular hypervisors like VMware vSphere and Microsoft Hyper-V, the choice may be limited by specific hardware compatibility and best practice recommendations, so it’s not entirely flexible.

In summary, the most accurate and broadly applicable statement about new HPE SimpliVity deployments is that all models include built-in deduplication and compression, enhancing storage efficiency and system performance.

Question 6:

What is a key advantage of using HPE Composer 2 in managing HPE Synergy infrastructure?

A. Administrators can perform the initial setup of HPE Composer 2 remotely.
B. A pair of HPE Composer 2 modules can manage up to 42 frames, doubling the previous capacity.
C. HPE Composer 2 modules are mandatory to manage the Virtual Connect SE 100Gb F32 Modules.
D. HPE Composer 2 appliances include 128GB of memory and four AMD processors for enhanced performance.

Correct answer: B

Explanation:

HPE Composer 2 represents the latest generation of management appliances for HPE Synergy, which is a composable infrastructure platform designed to provide flexible and scalable compute, storage, and networking resources. Composer 2 delivers improved scalability and performance over the original Composer, enabling organizations to efficiently manage larger and more complex environments.

Reviewing the options, A suggests that the initial setup can be done remotely, which is partially true—HPE Composer 2 supports remote management for certain operations. However, the very first setup (First Time Setup) often requires direct local access, making this option somewhat inaccurate as a general statement.

Option B is correct and highlights the main scalability benefit: a pair of Composer 2 modules can manage up to 42 frames, doubling the capacity of the original Composer, which manages up to 21 frames. This doubling of management scope enables better handling of larger Synergy deployments and improves operational efficiency by reducing the number of management appliances needed.

Option C states that Composer 2 modules are required to manage Virtual Connect SE 100Gb F32 Modules, but this is false. While Composer 2 supports these modules, they can also be managed by the original Composer appliances depending on the firmware and deployment scenario.

Option D mentions 128GB of memory and four AMD CPUs for Composer 2 appliances, which is inaccurate. The actual hardware specifications generally include 64GB of RAM and an 8-core processor (typically Intel), sufficient for the management workload, but not the higher specifications stated.

In conclusion, the primary advantage of HPE Composer 2 is its enhanced scalability, with the ability to manage twice as many frames compared to the previous generation. This capability supports growth and simplifies management in expanding composable infrastructure environments.

Question 7:

A customer wants to implement VMware ESXi 7.0 U2 and needs a hardware system capable of supporting up to 16 CPU sockets. 

Which HPE compute platform satisfies this requirement?

A. HPE ProLiant DL380 Gen10 Plus
B. HPE ProLiant DL580 Gen10
C. HPE Synergy 480 Gen10 Plus
D. HPE Superdome Flex system

Answer: D

Explanation:

When selecting hardware for VMware ESXi 7.0 U2, the number of CPU sockets supported by the platform is a critical consideration, especially if the customer requires a system that can handle up to 16 CPU sockets. Let’s analyze each option to see which meets this specification.

Option A: HPE ProLiant DL380 Gen10 Plus is a versatile 2U rack server known for its reliability and performance, but it supports a maximum of only 2 CPU sockets. While this server is widely used for many workloads, it does not meet the customer’s need for 16 CPU sockets, thus it’s not suitable.

Option B: HPE ProLiant DL580 Gen10 is a higher-end 2U rack server that can accommodate up to 4 CPU sockets. Although it offers increased processing capacity compared to the DL380, it still falls well short of the 16 sockets required, disqualifying it for this use case.

Option C: HPE Synergy 480 Gen10 Plus is part of HPE’s composable infrastructure portfolio. Each compute module supports up to 2 CPU sockets. Even with multiple modules, it does not natively support 16 CPU sockets in a single coherent system for VMware ESXi 7.0 U2, making it insufficient for the requirement.

Option D: HPE Superdome Flex system is designed for high-end, mission-critical applications and excels in scalability. It can support up to 16 CPU sockets, making it uniquely qualified for deployments needing massive compute power and reliability. This system is built for high-performance workloads like VMware ESXi environments requiring extensive CPU resources.

Therefore, the HPE Superdome Flex system (Option D) is the only platform among the options capable of supporting 16 CPU sockets, making it the best fit for the customer’s VMware ESXi 7.0 U2 deployment.

Question 8:

Which statement correctly describes a feature of the HPE Superdome Flex 280?

A. It must be configured with a minimum of 768 GB of RAM.
B. It supports between 2 and 8 CPU sockets, scalable in increments of two.
C. It cannot be managed using HPE OneView software.
D. It supports up to two nPars with an external Rack Management Controller (RMC).

Answer: B

Explanation:

The HPE Superdome Flex 280 is a modular, high-performance server designed for flexible scalability and mission-critical workloads. Understanding its key features is essential for choosing the right platform.

Option A claims a minimum memory configuration of 768 GB, but this is incorrect. The Superdome Flex 280 supports a wide range of memory options, starting as low as 64 GB and scaling all the way up to 24 TB. Customers can tailor memory capacity to their exact needs without a mandatory high minimum.

Option B correctly states that the system supports between 2 and 8 CPU sockets, with expansion possible in increments of 2 sockets. This modular design allows organizations to start with fewer processors and expand as workload demands increase, providing excellent flexibility and cost efficiency.

Option C is incorrect because the Superdome Flex 280 is fully manageable through HPE OneView. OneView is HPE’s centralized management tool that simplifies administration by providing a unified interface for servers, storage, and networking, including support for Redfish API. This enhances operational efficiency and automation capabilities.

Option D regarding support for up to two nPars with an external RMC is inaccurate or at least too specific without additional context. While the system does support nPar (nPartition) configurations, the number of supported partitions and external management components depends on the specific setup, hardware version, and firmware. This answer is not a universally true statement for the Superdome Flex 280.

In summary, the most accurate statement is Option B, which highlights the system’s scalable processor socket capability from 2 up to 8 in 2-socket increments, reflecting its flexible and modular architecture.

Question 9:

A customer wants to understand the differences between HPE Superdome Flex and HPE Superdome Flex 280. 

Which of the following statements accurately describes these two systems? (Choose one.)

A. Only the HPE Superdome Flex 280 supports multiple nPars.
B. Only the HPE Superdome Flex supports HPE Persistent Memory.
C. Only the HPE Superdome Flex 280 can be managed with HPE OneView.
D. Only the HPE Superdome Flex supports up to 32 sockets and 48TB of memory.

Answer: D

Explanation:

Both the HPE Superdome Flex and the HPE Superdome Flex 280 are engineered to provide powerful computing capabilities for enterprise-level, mission-critical workloads. However, they differ significantly in terms of scalability, capacity, and certain technical features, making it essential to understand their distinctions to choose the appropriate system for specific business needs.

Starting with Option A, the claim that only the Superdome Flex 280 supports multiple nPars (logical partitions) is inaccurate. Both models support multiple nPars, which allow organizations to partition the hardware into isolated, flexible environments for running different workloads efficiently. This capability is vital for workload isolation and resource management, and it is not limited to one model.

Regarding Option B, it is incorrect to say that only the Superdome Flex supports HPE Persistent Memory. Persistent Memory, which enhances system performance and durability by retaining data even during power loss, is available on both the Superdome Flex and the Superdome Flex 280 systems. This feature is critical for improving the handling of demanding, data-intensive applications.

For Option C, the assertion that only the Superdome Flex 280 can be managed using HPE OneView is also false. HPE OneView is a robust infrastructure management tool designed for both systems, enabling administrators to monitor, automate, and optimize hardware resources seamlessly. Both models benefit from this unified management platform.

The correct answer is Option D. The HPE Superdome Flex is built to support up to 32 CPU sockets and 48 terabytes of memory, providing immense scalability for large, data-intensive workloads. In contrast, the Superdome Flex 280 is a more compact system designed for smaller environments with fewer sockets and less memory capacity. This makes the Superdome Flex ideal for enterprises requiring the highest levels of performance and scale.

In summary, the key distinguishing factor is that only the HPE Superdome Flex can scale to 32 sockets and 48TB of memory, confirming Option D as the correct choice.

Question 10:

An enterprise customer needs a scalable solution for their virtualized workloads. They want to deploy HPE ProLiant servers and require integration with HPE OneView for centralized management. Additionally, they need redundancy in power, efficient cooling, and compatibility with future compute expansions.

Which HPE solution best fits these requirements?

A. HPE Synergy with HPE OneView and HPE Virtual Connect
B. HPE Apollo 2000 Gen10 Plus platform with local management tools
C. HPE Edgeline EL8000 with iLO management only
D. HPE ProLiant DL325 Gen11 with manual configuration and no OneView integration

Correct Answer: A

Explanation:

This question evaluates your ability to match an enterprise customer's requirements with the right HPE compute infrastructure solution — a core skill measured in the HPE0-S59 exam.

The scenario describes a need for a scalable, virtualized environment using HPE ProLiant servers, with key features including centralized management, redundant power, efficient cooling, and future expansion. These are typical needs in modern data centers that rely heavily on virtualization.

Let’s assess the options:

• Option A: HPE Synergy with HPE OneView and HPE Virtual Connect
  This is the correct choice. HPE Synergy is a composable infrastructure platform designed for scalability, fluid resource allocation, and virtualized workloads. It integrates tightly with HPE OneView, offering centralized management, automation, and monitoring. Virtual Connect modules simplify network connectivity and add high availability, while Synergy’s frame design supports redundant power supplies and advanced cooling systems. It’s highly adaptable for future compute upgrades.

• Option B: HPE Apollo 2000 Gen10 Plus
  While the Apollo platform is good for high-density compute needs, it lacks the deep integration with OneView and composable features that the scenario demands. It's better suited for HPC workloads than virtualized enterprise infrastructure.

• Option C: HPE Edgeline EL8000
  This is an edge-optimized solution, not designed for large-scale virtualized data centers. It uses iLO for local management, which doesn’t meet the need for centralized control across multiple servers.

• Option D: HPE ProLiant DL325 Gen11
  While the ProLiant DL325 Gen11 is a strong performer for virtualization, this option suggests manual configuration and no OneView integration, which contradicts the customer’s requirement for centralized management and future scalability.

In summary, Option A offers the composability, integration, scalability, and enterprise-grade features best aligned with the customer’s requirements, making it the best fit and the correct answer.