Intel Xeon D1540 Vs Intel Xeon E3-1270v6
What To Know
- When choosing a processor for your next server or workstation, it’s essential to consider the Intel Xeon D1540 and Intel Xeon E3-1270v6.
- The Intel Xeon D1540 and Intel Xeon E3-1270v6 are both capable processors with distinct strengths and weaknesses.
- Yes, both the Intel Xeon D1540 and Intel Xeon E3-1270v6 support NVMe storage via PCIe 3.
When choosing a processor for your next server or workstation, it’s essential to consider the Intel Xeon D1540 and Intel Xeon E3-1270v6. Both processors offer impressive performance, but they differ in key aspects. This blog post will delve into an in-depth comparison of the Intel Xeon D1540 vs. Intel Xeon E3-1270v6 to help you make an informed decision.
Architecture and Cores:
- Intel Xeon D1540: Based on the Broadwell architecture, it features 8 cores with 16 threads.
- Intel Xeon E3-1270v6: Built on the Skylake architecture, it has 4 cores with 8 threads.
The Xeon D1540 offers more cores and threads, providing greater parallelism for demanding workloads.
Clock Speed and Cache:
- Intel Xeon D1540: Base clock speed of 2.2GHz, turbo boost up to 2.7GHz. 10MB L3 cache.
- Intel Xeon E3-1270v6: Base clock speed of 3.8GHz, turbo boost up to 4.2GHz. 8MB L3 cache.
The Xeon E3-1270v6 has a higher base and turbo boost clock speed, resulting in improved performance for single-threaded applications.
Memory Support:
- Intel Xeon D1540: Supports up to 128GB of DDR4-2133 ECC memory.
- Intel Xeon E3-1270v6: Supports up to 64GB of DDR4-2133 ECC memory.
The Xeon D1540 provides more memory capacity, essential for memory-intensive applications such as virtualization and databases.
I/O Connectivity:
- Intel Xeon D1540: 24 PCIe 3.0 lanes, 6 SATA ports, 2 USB 3.0 ports.
- Intel Xeon E3-1270v6: 16 PCIe 3.0 lanes, 6 SATA ports, 4 USB 3.0 ports.
The Xeon D1540 offers more PCIe lanes and SATA ports, providing greater flexibility for expansion cards and storage devices.
Power Consumption:
- Intel Xeon D1540: TDP of 45W.
- Intel Xeon E3-1270v6: TDP of 72W.
The Xeon D1540 consumes less power, making it suitable for energy-efficient servers and workstations.
Virtualization Support:
- Intel Xeon D1540: Supports Intel VT-x and VT-d virtualization technologies.
- Intel Xeon E3-1270v6: Also supports Intel VT-x and VT-d virtualization technologies.
Both processors provide robust virtualization support, enabling you to consolidate multiple virtual machines on a single physical server.
Use Cases and Applications:
- Intel Xeon D1540: Ideal for microservers, storage appliances, and low-power workstations.
- Intel Xeon E3-1270v6: Suitable for business workstations, small servers, and entry-level cloud computing.
The Xeon D1540 is better suited for applications that require high core counts, memory capacity, and I/O flexibility. The Xeon E3-1270v6 excels in single-threaded and performance-intensive tasks.
Wrap-Up:
The Intel Xeon D1540 and Intel Xeon E3-1270v6 are both capable processors with distinct strengths and weaknesses. The Xeon D1540 offers more cores, memory capacity, and I/O connectivity, making it ideal for memory-intensive and virtualization-heavy workloads. The Xeon E3-1270v6 provides higher clock speeds, making it suitable for single-threaded and performance-sensitive applications. By carefully considering your specific requirements, you can choose the processor that best meets your needs.
Questions You May Have
1. Which processor is better for gaming?
The Intel Xeon E3-1270v6 with its higher clock speeds is generally better for gaming.
2. Which processor is more energy-efficient?
The Intel Xeon D1540 consumes less power, making it more energy-efficient.
3. Can both processors support NVMe storage?
Yes, both the Intel Xeon D1540 and Intel Xeon E3-1270v6 support NVMe storage via PCIe 3.0 lanes.
4. Which processor is better for video editing?
The Intel Xeon D1540 with its higher core count and memory capacity is better suited for video editing.
5. Which processor is more expensive?
The Intel Xeon E3-1270v6 is typically more expensive than the Intel Xeon D1540.