The number of cores in an Intel Xeon E3 processor varies depending on the specific model and generation; however, a common and representative model like the Intel Xeon E3-1230 V3 features 4 cores.
The Intel Xeon E3 series is a line of server-grade processors designed primarily for single-socket entry-level servers, workstations, and small business solutions. While the E3 designation refers to a series, core counts can differ significantly across various models within this family, from dual-core to quad-core configurations, and in some later generations, potentially more.
Detailed Specifications for Intel Xeon E3-1230 V3
For detailed insight into one of the popular models in the E3 series, the Intel Xeon E3-1230 V3, consider the following specifications:
Feature | Specification |
---|---|
Brand | Intel Xeon |
Model Number | E3-1230 V3 |
Number of Cores | 4 |
Number of Threads | 8 |
Processor Base Frequency | 3.30 GHz |
This configuration indicates that while the Intel Xeon E3-1230 V3 processor has 4 physical cores, its Hyper-Threading technology allows it to handle 8 threads concurrently. This capability significantly enhances its multitasking performance, making it well-suited for server workloads where multiple processes need to run simultaneously. Further details on this specific processor model can be found through resources like Server Basket.
Understanding the Intel Xeon E3 Series
The Intel Xeon E3 processors are characterized by:
- Target Market: Primarily aimed at entry-level servers, small businesses, and professional workstations.
- Memory Support: They often support Error-Correcting Code (ECC) memory, which is crucial for data integrity and stability in server environments.
- Cost-Effectiveness: Compared to higher-tier Xeon series (like E5 or E7), E3 processors offer a more budget-friendly solution for less demanding server applications without compromising on server-grade features.
- Core Count Variability: As highlighted, the exact core count is model-specific, evolving with different generations to offer improved performance and efficiency.