872833-L21 HPE Intel DL560 Gen10 Xeon-Gold 6134 8 Core 3.20GHz 130W Processor

HPE 872833-L21 Intel DL560 Gen10 with Xeon-Gold 6134

The HPE 872833-L21 category highlights the Intel DL560 Gen10 platform configured with the Intel Xeon-Gold 6134 processor — an 8-core, 16-thread CPU running at a base frequency of 3.20 GHz with a maximum turbo capable of delivering higher single-thread performance, dissipating 130W of thermal design power. This category page is crafted to help systems integrators, IT managers, data center architects, and enterprise buyers quickly understand the technical strengths, deployment scenarios, and purchasing considerations for servers and spare processors that use this exact HPE SKU.

Processor Architecture and Features

Xeon-Gold 6134 microarchitecture details

The Intel Xeon-Gold 6134 is built on Intel’s server microarchitecture used in the second half of the Skylake-EP family and tailored for enterprise reliability and scalability. With 8 physical cores and Hyper-Threading enabled, it delivers 16 logical threads, making it suitable for multi-tenant virtualization and threaded application stacks. Key architectural features include large caches per core, support for Intel Velocity Boost (on suitable platforms), AVX-512 instruction support for vectorized workloads, and enhanced memory and I/O capabilities when paired with the DL560 Gen10 system.

Performance Characteristics

Single-thread vs. multi-thread behavior

With a 3.20 GHz base clock and strong per-core performance, the Xeon-Gold 6134 exhibits robust single-thread throughput — important for latency-sensitive transactional workloads and application servers that are not easily parallelizable. In multi-threaded scenarios, the 8 cores with Hyper-Threading provide predictable scaling for typical enterprise loads, while the high thermal budget (130W) ensures turbo boosting under sustained loads when adequate cooling is in place.

Vector and floating-point performance

Support for AVX-512 instruction sets substantially increases throughput for vectorized operations used in scientific computing, AI inference (on CPU), encryption, and media processing. When optimizing applications, developers can see significant gains by leveraging compiler or libraries that exploit AVX512 paths.

Ideal Use Cases and Workload Mapping

Virtualization and cloud hosting

The HPE DL560 Gen10 equipped with Xeon-Gold 6134 is a strong candidate for hypervisor hosts (VMware ESXi, Microsoft Hyper-V, KVM) where a balance of per-VM performance and greater VM density is needed. Eight performance cores help keep core-per-VM allocations efficient while providing headroom for workloads.

Databases and transactional systems

Relational databases, OLTP systems, and in-memory caches benefit from the processor's strong per-core performance and memory throughput. The 130W TDP supports the sustained turbo behavior required for transactional spikes if server cooling and power delivery are adequate.

Enterprise application tiers

Application servers (Java, .NET, Node.js) that host mid-weight application logic will achieve solid response times, especially when paired with tuned JVM settings or platform-specific JIT adjustments. The DL560 Gen10 chassis provides the I/O and memory scaling required for clustered middle tiers.

HPE DL560 Gen10 System Considerations

Chassis and modularity

HPE’s DL560 Gen10 platform is designed for dense 2U rack deployments with flexible I/O, storage sled options, and redundant power and cooling. Customers choosing items in the HPE 872833-L21 category should evaluate the specific chassis configuration: drive bay count (SFF vs LFF), HBA/RAID controller options, and backplane choices that affect maximum usable NVMe or SAS devices.

Power supplies and cooling

Because the Xeon-Gold 6134 has a 130W thermal envelope, ensure your DL560 Gen10 builds include power supplies and airflow designs capable of sustaining multiple such processors (if building dual-CPU systems). Proper rack placement, airflow management (blanking panels, cable routing), and intake/exhaust planning will prevent thermal throttling and extend component longevity.

Firmware and platform firmware considerations

Keep iLO, BIOS, and firmware current on HPE platforms to ensure CPU microcode, platform optimizations, and security fixes are applied. HPE iLO provides health monitoring and remote management features that make it easier to track TDP, temperature, and performance telemetry for the HPE 872833-L21 family deployments.

Deployment and Optimization Strategies

Operating systems and hypervisors

Commonly used OS and hypervisors for this platform include RHEL, CentOS/AlmaLinux, Ubuntu Server, Windows Server, VMware ESXi, and KVM. Choose kernel versions and hypervisor releases that explicitly list HPE Gen10 platforms and Xeon Scalable family CPUs in their hardware compatibility lists, and apply vendor patches for improved stability.

BIOS tuning and power profiles

BIOS settings that affect CPU power management (C-states, P-states) should be tuned according to workload: prioritize performance by limiting deep C-states for latency-sensitive services, or enable power saving for less time-critical batch processing. HPE iLO and BIOS provide predefined profiles (performance, balanced, power saver) that can be used as starting points.

Upgrade Paths and Compatibility

CPU upgrade considerations

When planning CPU upgrades on DL560 Gen10 systems, verify socket compatibility and platform TDP limits. While the Xeon-Gold 6134 is an excellent mid-range performer, higher core count Xeon Scalable SKUs may be supported if the system’s thermal and power design allow. Always cross-check HPE published server configuration guides before attempting multi-SKU upgrades.

Memory and firmware dependencies

Upgrading to higher density DIMMs may necessitate BIOS updates for full recognition and optimal performance. Firmware updates can also unlock additional memory speed support or platform features; schedule firmware upgrades during maintenance windows and validate on a staging system where possible.

Pricing and total cost of ownership

Beyond the CPU list price, include costs for: compatible memory kits, cooling upgrades, power supplies, SSD/HDD choices, networking adapters, RAID controllers, and HPE software licenses. Factor in maintenance contracts and potential downtime costs when comparing total cost of ownership across different platform options.

Benchmarking and Tuning Tips

Benchmark tools and metrics

For realistic performance assessments, use representative benchmarks such as SPEC CPU, Sysbench (for database-like loads), FIO (for storage interplay), and industry-specific load generators. Measure both single-thread and multi-thread throughput as well as latency percentiles to match user expectations.

Compliance Considerations

Firmware and microcode updates

Apply vendor-supplied microcode and BIOS updates to mitigate known speculative execution vulnerabilities and to ensure the platform receives security hardening relevant to the Xeon Scalable family. Coordinate updates with your security and change-control teams to minimize disruption.

Data protection and encryption

Consider hardware-assisted encryption features and use vetted HPE or third-party encryption appliances and software to protect data at rest and in transit. Review compliance requirements (PCI, HIPAA, GDPR) when designing storage and access controls for servers using the HPE 872833-L21 class hardware.

Keyword strategies for product pages

To maximize organic discoverability for the HPE 872833-L21 category, include keyword variants and long-tail phrases naturally: “HPE 872833-L21 Xeon-Gold 6134”, “DL560 Gen10 3.20GHz 130W processor”, “HPE DL560 Gen10 spare CPU”, “Xeon Gold 6134 performance”, and “server upgrade DL560 Gen10”. Use schema markup for product information (SKU, brand, availability, price) on the parent product page and ensure descriptive alt text for images that includes the SKU and model name.

Content & Metadata Tips

When evaluating HPE 872833-L21 category products, align the HPE DL560 Gen10 configuration with your workload profile: prioritize memory bandwidth and NVMe storage for latency-sensitive applications, invest in robust cooling and power for sustained performance when using 130W CPUs, and validate firmware compatibility when installing spare CPUs or upgrading. For procurement, request explicit HPE part cross-reference confirmation and consider HPE support contracts to maintain serviceability.