Cisco Intel Xeon E5-2600 v4 E5-2680 v4 Tetradeca-core (14 Core) 2.40 GHz Processor Upgrade

Upgrade your data center with a premier Intel Xeon processor designed to deliver formidable multi-threaded performance, exceptional reliability, and energy-conscious efficiency. The Cisco Intel Xeon E5-2600 v4 E5-2680 v4 Tetradeca-core (14 Core) 2.40 GHz Processor Upgrade is built for demanding server workloads, virtualization, and database operations, providing a solid backbone for modern IT infrastructures. This upgrade combines the scalability of the E5-2600 v4 family with a precise 14-core configuration at 2.40 GHz, delivering a blend of raw compute power and efficiency that helps you consolidate workloads, accelerate analytics, and improve overall throughput in your data center. If you’re upgrading legacy servers or refreshing a virtualized environment, this processor upgrade offers a reliable path to higher performance without abandoning your existing ecosystem.

• Powerful 14-core performance for multi-threaded workloads - With 14 cores in a single socket, this Xeon E5-2600 v4 family processor handles threaded tasks with ease. It shines in virtualization environments, dense database workloads, and HPC-style computing where parallelism translates to tangible throughput gains. The 14-core configuration is designed to maximize concurrent processing, enabling more virtual machines, faster query responses, and quicker data processing without sacrificing stability or reliability.
• 2.40 GHz base clock with robust turbo capability - The 2.40 GHz base frequency provides a strong foundation for steady performance, while Intel Turbo Boost technology dynamically increases clock speeds for burst workloads. This combination yields responsive performance during peak demand, such as large-scale analytics, real-time data processing, or complex simulations, without the need for constant high-power consumption. The processor’s architectural efficiency translates to better performance-per-watt in typical data-center scenarios.
• Designed for data centers and enterprise reliability - The Xeon E5-2600 v4 family is engineered for mission-critical applications, featuring advanced reliability, availability, and serviceability (RAS) features. From error-correcting code (ECC) memory compatibility to robust fault-tolerance options, this upgrade is built to minimize downtime and maintain consistent service levels in dense server environments. Its engineering emphasizes long-term stability, predictable performance, and support for demanding workloads across virtualization, databases, and transactional processing.
• Energy efficiency to lower operating costs - Built on a modern microarchitecture, this 14-core processor offers efficiency improvements that help reduce power draw and cooling requirements in the data center. Fewer watts per operation mean lower electricity costs and cooler server rooms, which translates into lower total cost of ownership. For businesses running multiple servers or private clouds, the efficiency gains can compound into meaningful savings on energy consumption and cooling infrastructure.
• Flexible compatibility with existing Intel-based ecosystems - This upgrade is designed to fit into systems built on the Intel Xeon E5-2600 v4 platform, enabling a straightforward upgrade path for compatible servers. It supports virtualization technologies, hardware-assisted security features, and enterprise-grade reliability. Whether you’re refreshing a single rack or scaling a private cloud, this processor aligns with common enterprise configurations and software stacks, reducing the friction often associated with CPU upgrades.

Technical Details of Cisco Intel Xeon E5-2600 v4 E5-2680 v4 Tetradeca-core (14 Core) 2.40 GHz Processor Upgrade

• Get this information from the "specifications" section of the product from https://ec.synnex.com/ using product "UPC" or "SKU" as reference

How to install Cisco Intel Xeon E5-2600 v4 E5-2680 v4 Tetradeca-core (14 Core) 2.40 GHz Processor Upgrade

• Preparation and compatibility check: Before beginning, verify that your server motherboard supports Intel Xeon E5-2600 v4 processors and that the socket type matches the E5-2600 v4 family (e.g., LGA socket compatibility). Confirm BIOS version compatibility and ensure you have the appropriate cooling solution. Review vendor documentation and the server’s maintenance policies. This step helps prevent incompatibility issues and ensures your upgrade leverages the processor’s full capabilities.
• Power down and static-safe setup: Power off the server and unplug power cables. Use an anti-static wrist strap or touch a grounded metal surface to discharge static electricity. Back up critical data and note down any current BIOS settings that may require adjustment after the upgrade. This careful preparation reduces the risk of component damage and ensures a smooth upgrade process.
• Access and removal of the existing CPU: Open the server chassis or maintenance panel, locate the processor socket, and carefully release the CPU heat sink or cooler as per the manufacturer’s procedure. Gently lift the lever or locking mechanism to unlock the socket. Remove the existing processor if upgrading, taking care to avoid bending pins or damaging the socket. Keep track of any retention mechanisms and spacers that come with the cooling assembly.
• Install the new 14-core processor: Align the processor with the socket notches and carefully place it into position without applying excessive force. Secure the socket latch or lever to lock the CPU in place. If your system requires a specific orientation, ensure the CPU is seated correctly before proceeding. Apply an appropriate amount of thermal interface material if your cooling solution requires it, following the cooling system’s installation guidelines.
• Re-seat cooling solution and BIOS configuration: Reinstall the heatsink/fan assembly, making sure it is securely fastened and connected to the appropriate fan headers. Reconnect all cables and double-check airflow direction. Power on the server and enter the BIOS/UEFI setup. Verify that the new processor is recognized, adjust any relevant performance/RAID/Power Management settings as needed, and save changes. Run post-processor initialization checks and monitor temperatures to ensure proper cooling and stable operation. If your server supports Turbo Boost and P-state control, configure them to balance performance and energy efficiency according to your workload.
• Validation and deployment: After successful POST, run stability and stress tests appropriate to your environment, such as memory checks, CPU stress tests, and virtualization workloads. Validate that all server subsystems (RAM, PCIe devices, storage controllers) recognize the upgrade. Update firmware and BIOS if available to optimize compatibility and performance with the new processor. Document the upgrade for future maintenance and support.

Frequently asked questions

• What is the core count and clock speed of this upgrade? The Cisco Intel Xeon E5-2600 v4 E5-2680 v4 upgrade features a tetradeca-core (14 cores) configuration with a base clock of 2.40 GHz. Turbo capabilities on Xeon E5-2600 v4 processors provide higher burst speeds for demanding workloads, helping to accelerate virtualization, databases, and compute-intensive tasks.
• Is this upgrade compatible with my existing server? Compatibility depends on your motherboard’s socket type, BIOS version, and support for the Intel Xeon E5-2600 v4 family. Always verify socket compatibility (LGA type), motherboard BIOS readiness, and memory compatibility with the new processor. If in doubt, consult the server manufacturer’s compatibility matrix or check with a trusted IT professional.
• What workloads benefit most from this processor? Virtualization environments (multiple VMs), large-scale databases, data analytics, and high-concurrency workloads benefit from the 14-core multi-threaded performance. The processor’s architecture is designed to deliver strong throughput across parallel tasks, enabling more efficient consolidation and faster data processing.
• Does it support energy-efficient operation? Yes. The Xeon E5-2600 v4 family emphasizes efficiency alongside performance, enabling better performance-per-watt. When paired with an appropriate cooling strategy and power management settings, it can help reduce total energy consumption in dense server deployments and virtualized data centers.
• What are the typical steps to upgrade safely? Plan compatibility, back up critical data, power down and discharge static, remove the old CPU and heat sink, install the new processor, reseat the cooling system, boot into BIOS, verify detection and settings, run stability tests, and finally monitor temperatures and performance under typical workloads. Following vendor guidelines and best practices minimizes risk and ensures a successful upgrade.