Description
Introduction to the SRGSX Intel Xeon Quad-core W-2223 Processor
The SRGSX Intel Xeon Quad-core W-2223 Processor is a high-performance server-grade processor designed for demanding workloads in data centers and enterprise environments. It belongs to the Xeon W-series, which is optimized for workstation applications such as 3D modeling, video editing, and scientific simulations.
The W-2223 processor features four cores and eight threads, with a base clock speed of 3.6GHz and a maximum turbo frequency of 4.0GHz. It also includes 8.25MB of L3 cache memory, which enhances performance by reducing the time taken to access frequently used data.
This processor is built using the 14nm manufacturing process, which allows for higher transistor density and improved power efficiency. It is compatible with the Socket FCLGA-2066, which is widely used in high-end workstation and server motherboards.
With its high clock speeds, multiple cores, and efficient cache memory, the SRGSX Intel Xeon Quad-core W-2223 Processor delivers excellent performance and is suitable for demanding applications that require a lot of processing power.
Processor Architecture Overview
The SRGSX Intel Xeon Quad-core W-2223 Processor is based on the Skylake-X microarchitecture, which is optimized for high-performance computing and workstation applications. It features a modular design with up to 18 cores and 36 threads, but the W-2223 variant has four cores and eight threads.
The processor’s core architecture includes several key features that contribute to its performance. One such feature is the use of an enhanced branch prediction system, which helps to reduce the time spent waiting for instructions to complete.
The processor also features a larger instruction cache and a shared L3 cache, which improves the efficiency of data access and reduces the time spent waiting for memory access. The L3 cache also includes a higher associative level, which further reduces latency and improves performance.
Additionally, the processor includes support for AVX-512 instruction set extensions, which are designed to accelerate vector processing and improve performance in applications that make use of large data sets.
Cache Memory and Performance Benefits
The SRGSX Intel Xeon Quad-core W-2223 Processor includes a total of 8.25MB of L3 cache memory, which is shared among all four cores. The cache memory provides several performance benefits by reducing the time taken to access frequently used data and instructions.
One of the main benefits of cache memory is that it can reduce the number of times the processor needs to access main memory, which can be slow in comparison. When a processor needs to access data or instructions, it first checks the cache memory. If the data is present in the cache, the processor can access it quickly without needing to wait for the slower main memory.
Cache memory can also reduce the number of cache misses, which occur when the processor needs data that is not present in the cache. When a cache miss occurs, the processor must fetch the data from main memory, which can be a time-consuming process. By increasing the size of the cache memory, the processor can reduce the number of cache misses and improve performance.
In the case of the SRGSX Intel Xeon Quad-core W-2223 Processor, the 8.25MB of L3 cache memory provides a significant performance boost compared to processors with smaller caches. This is particularly beneficial in applications that require frequent access to large datasets, such as scientific simulations, machine learning, and data analytics.
General Information
- Product manufacturer : Hewlett Packard Enterprise
- Manufacturer part number : SRGSX
- Type: Processor
- Sub-Type: Intel Xeon Quad-Core
Technical information
- Processor core : quad-core
- Clock speed : 3.60GHz
- Max turbo frequency : 3.90GHz
- Instruction set : 64-bit
- Instruction set extensions : intel® SSE4.2, Intel® AVX, Intel® AVX2, Intel® AVX-512
Cache memory detail
- l3 cache : 8.25MB
- Lithography : 14nm
- Max thermal design power (TDP) : 120w
- Compatible processor socket : FCLGA-2066