SRGV8 Intel Xeon W-2255 3.70GHz 10-Core 8GT/s Processor

Compatibility

• PowerEdge T340
• PowerEdge R240
• PowerEdge R340

Intel SRGV8 Xeon W-2255 3.70GHz 10-Core 19.25MB Cache 8GT/s Bus Speed TDP 165W FCLGA2066 Processor Category Overview

The Intel SRGV8 Xeon W-2255 3.70GHz 10-Core 19.25MB Cache 8GT/s BUS SPEED TDP 165W FCLGA2066 Processor belongs to a specialized category of high-performance workstation processors engineered for advanced rendering, computational modeling, product development workflows, professional content creation, financial analytics, engineering simulation, and multi-threaded production tasks. This category emphasizes robust compute density, exceptional parallelism, highly stable performance under continuous load, and architectural capabilities optimized for workstation-class requirements. Positioned within the Intel Xeon W-2200 series, the W-2255 category is built for uncompromising users who demand powerful and predictable performance across specialized, memory-intensive, and multi-application workflows.

High-Frequency Architecture and Computational Speed

This processor category is defined by its exceptionally high 3.70GHz base frequency, which places the Intel Xeon W-2255 among the fastest workstation CPUs available in fixed-frequency performance. The high base clock allows the processor to excel in lightly threaded workloads, real-time engineering tasks, CAD applications, digital content creation, and simulation environments that depend heavily on high single-core performance. The architecture of the W-2255 processor incorporates Intel Turbo Boost Technology Max 3.0, enabling dynamic acceleration that exceeds its already high base frequency, delivering powerful bursts of performance for rendering, encoding, and compute-intensive workloads requiring immediate execution. These frequency advantages allow professionals to experience faster loading times, smoother modeling interactions, real-time previewing enhancements, and more efficient workflow transitions across complex applications.

Turbo Acceleration for Demanding Production Workflows

The category’s turbo frequency capabilities provide crucial advantages to engineering and creative professionals who require instantaneous performance boosts during demanding tasks. Applications such as high-end visualization engines, large dataset manipulations, scientific modeling, and software compiling leverage the processor’s elevated clock speeds to maintain responsive performance throughout intensive production cycles. The turbo acceleration capabilities also ensure faster iterations in progressive rendering tasks, enabling designers and animators to achieve higher productivity with shorter compute intervals.

Enhanced Responsiveness in Design and Simulation Tasks

The Xeon W-2255 processor category is engineered to maintain responsiveness when running sophisticated modeling applications that rely on real-time geometry calculations, texture processing, or large-scale datasets. The consistent frequency architecture ensures that professional tools like CAD suites, animation software, physics simulation engines, and real-time visualization programs maintain stable performance even when handling complex objects or multiple layered design components.

Stable Frequency Under Multi-Application Load

One of the defining strengths of this category is its sustainable performance even when multiple applications are running simultaneously. Engineers, editors, analysts, and technical artists often run several resource-intensive programs at once, and this category ensures that frequency levels remain stable without performance degradation. This leads to faster task-switching, improved multitasking, and seamless integration of diverse workflows across production environments.

10-Core Multi-Threading and Professional Parallelism

The Intel Xeon W-2255 category is built around a robust 10-core architecture designed to maximize multi-threaded execution across professional software suites. The ten physical cores support highly demanding workloads such as advanced rendering pipelines, simulation engines, machine learning preprocessing, media transcoding, and multi-layer visual effects production. With Hyper-Threading technology enabled, the category supports 20 threads of simultaneous processing, allowing workstations to handle parallel workloads with exceptional efficiency. This level of compute density supports distributed computing across professional tools, ensuring optimized performance for software dependent on multi-threading frameworks, including advanced production pipelines that process large batches of data concurrently.

Parallel Workload Across Professional Applications

The 10-core structure is well-suited for high-end workloads requiring intense parallel computation. Applications such as rendering engines, digital compositing tools, advanced engineering simulation software, and machine learning preprocessing benefit significantly from this multi-threaded performance profile. The processor category provides the necessary compute density to execute multi-layer tasks, solve complex mathematical operations, and perform iterative calculations with superior speed and stability.

Handling of Multi-Layer Rendering and Encoding Tasks

Rendering engines that rely on ray tracing, animation processing, and visual effect layer computation gain significant advantages from the core architecture within this category. With 10 cores and 20 threads, the processor ensures accelerated rendering times, enabling content creators to work with high-quality assets without prolonged wait times. Video editors also benefit from improved encoding performance, especially when using multiple codec layers and timeline effects.

Parallel Execution for Technical and Engineering Solutions

Technical-oriented workloads such as engineering simulations, algorithm development, physics calculations, and statistical. analyses operate more efficiently due to the architecture’s superior parallel computation capabilities. The 10-core category delivers consistent multi-threaded output, ensuring accurate execution of multiple algorithmic operations running concurrently. This stability is crucial for businesses and professionals whose workflows rely on precision and reproducibility of compute results.

19.25MB Intel Smart Cache Category Depth

The Intel Xeon W-2255 category includes a large 19.25MB Intel Smart Cache, engineered to support intensive, memory-heavy workloads requiring fast and frequent access to critical data. The cache architecture minimizes latency in data retrieval, allowing applications to access information rapidly without repeated calls to system memory. This is essential for rendering engines, simulation software, and large dataset tools that rely on immediate access to frequently used data. The category’s large cache capacity significantly improves overall system responsiveness, enhancing multi-thread performance and accelerating professional workflows.

Production Environments

The Smart Cache system dynamically allocates resources based on workload needs, enabling the processor to handle multiple threads simultaneously while reducing congestion. This architecture allows programs to run smoothly even when handling layered datasets or compute-intensive operations. Applications such as 3D modeling, architectural visualizations, engineering simulations, and digital sculpting experience improved performance due to reduced retrieval times.

High-Volume Data Handling Across Professional Software

Large datasets used in engineering, medical imaging, data science, and analytical research benefit from the processor’s cache structure. The category ensures quick access to iterative dataset loops, accelerates mathematical computations, and provides consistent execution across data-heavy workflows. This is important for professionals who work with volumetric datasets, advanced simulation grids, or complex structural analysis models.

Reduced Latency in Multi-Threaded Operations

The cache architecture ensures that multiple cores can access needed data rapidly without creating memory bottlenecks. This reduces latency across multi-threaded workloads, enabling professional applications to manage more simultaneous operations effectively. The result is greater responsiveness and improved overall system efficiency for workstation-class computing environments.

8GT/s Bus Speed and Data Throughput Performance

The Intel Xeon W-2255 category features an 8GT/s bus speed, enabling fast communication between the processor and various system components. This enhanced data throughput ensures smooth workflow transitions, stable multi-application performance, and accelerated loading for professional software. The high bus speed supports continuous communication between the CPU, memory, storage controllers, and expansion components, creating an optimized environment for workstation productivity.

Improved System-Level Interconnects

The fast bus speed supports smooth operations across platforms that depend on high data-transfer rates. Workflows that interact with large files, high-resolution assets, or multiple device controllers benefit from uninterrupted communication. Applications such as film editing, game development, scientific simulations, and data visualization perform more efficiently due to the fast flow of data between system components.

Real-Time Processing Environments

Real-time systems such as live editing, color grading, motion capture processing, design previews, and simulation visualizations rely on fast data exchange. The 8GT/s category ensures reduced latency and improved performance in these complex settings, enabling professionals to maintain fluid production environments without delays.

Advanced Workstations

The processor category is compatible with high-bandwidth device configurations including advanced RAID controllers, NVMe storage arrays, high-performance graphics cards, capture systems, and PCIe expansion cards. The fast bus speed helps maintain throughput even under heavy system loads, preventing bottlenecks in data-intensive operations.

165W TDP for Professional Environments

The 165W TDP places this processor category into a high-performance thermal class designed for professional workloads requiring continuous, intensive computing power. The thermal design power ensures that the processor can sustain elevated frequencies and multi-threaded operations without throttling. Systems designed for this processor category typically include advanced cooling solutions to maintain stable performance during prolonged production and rendering cycles.

Workstations

The processor’s thermal characteristics support demanding workflows such as simulation, modeling, rendering, data computation, and architectural design. With the appropriate workstation cooling, the W-2255 category maintains stable temperatures under full workloads. This is crucial for industries requiring consistent uptime and long-duration rendering tasks.

Sustained Performance Under Heavy Workload Cycles

The 165W TDP allows the processor to operate at higher performance thresholds without losing stability. Professionals working with rendering engines, development platforms, or simulation frameworks benefit from sustained CPU frequency levels, ensuring faster production cycles and optimized workflow execution.

Advanced Cooling and Chassis Designs

Workstations that support the W-2255 processor category provide enhanced airflow channels, liquid cooling options, and optimized chassis layouts to maintain thermal consistency. This compatibility ensures that the processor can operate at its full potential, supporting demanding workloads across extended timeframes.

FCLGA2066 Socket Platform and Expansion

The processor category utilizes the FCLGA2066 socket, supporting Intel C422 chipset motherboards designed for high-bandwidth workstation environments. This platform offers extensive expansion capabilities, including additional PCIe lanes, multiple memory DIMM slots, advanced connectivity, and storage scalability. The category is ideal for professionals requiring customizable workstation configurations tailored to demanding production pipelines or simulation frameworks.

Multi-GPU Workstation Architectures

Professionals working with rendering engines, machine learning models, or advanced graphical workloads benefit from the platform’s compatibility with multiple high-performance GPUs. The workstation’s expansion capabilities allow users to integrate professional-grade GPUs for accelerated rendering, visualization, compute performance, or AI training tasks.

Flexible I/O and Advanced Storage Integration

The platform supports high-speed storage solutions including NVMe SSDs, PCIe RAID controllers, multi-drive arrays, and large-scale workstation storage configurations. The category is built for teams managing heavy file operations, large project libraries, and multiple data pipelines simultaneously.

Upgradability for Professional Workstations

Systems built on the FCLGA2066 platform provide future-proofing for workstation users requiring long-term scalability. Professionals can expand memory, storage, GPUs, and additional PCIe components over time, maintaining productivity without immediate system replacement.

ECC Memory and Data Reliability for Critical Workflows

The Intel Xeon W-2255 category supports ECC memory, providing essential protection for data-critical workflows in engineering, architecture, healthcare, research, artificial intelligence, and scientific analysis. ECC memory detects and corrects potential memory errors, preventing system crashes, data corruption, and workflow interruptions. Professionals relying on precision, accuracy, and data consistency benefit significantly from this memory protection.

Data Integrity for High-Assurance Computing

ECC memory ensures that systems maintain accurate calculations, consistent dataset responses, and error-free operations across complex workloads. This category is ideal for environments requiring reliable data handling, such as research computing, analytics engines, engineering simulations, medical platforms, and financial modeling.

Prevention of Application Failures in Long-Duration Tasks

Many professional workloads require long hours of continuous computation, such as large-batch rendering, simulation sweeps, algorithmic calculations, and medical imaging processing. ECC memory reduces the risk of crashes due to memory corruption, enabling reliable execution across extended computational cycles.

Stability and Multi-Instance Workflows

Professionals running virtual machines, containerized workloads, or multi-instance environments benefit from the memory stability provided by ECC support. The category ensures that virtual environments maintain isolation, security, and integrity across all memory transactions.

Workstation-Class Graphics

The Intel Xeon W-2255 category is designed to support powerful professional GPU configurations, enabling advanced visualization, rendering, and accelerated compute tasks. While the processor does not include integrated graphics, it is optimized for professional GPUs utilized in design, engineering, simulation, and content creation workflows. The category’s compatibility ensures high performance across demanding visualization pipelines requiring multi-display support, GPU-accelerated rendering, or real-time simulation interactions.

Professional Graphics Workloads

Workstations powered by this category typically leverage high-end graphics cards used in CAD programs, animation suites, simulation tools, and complex modeling applications. These systems benefit from the processor’s multi-core performance and high throughput to deliver smooth visualization experiences across large project datasets.

Real-Time Rendering

Professionals working in real-time rendering engines, VR environments, or architectural visualization software experience improved performance due to the processor’s strong multi-threaded and single-threaded capabilities. The category supports fast viewport rendering, simulation playback, and interactive modeling performance across demanding visual workflows.

Multi-Monitor Work Environments

The processor category supports configurations with multiple displays, allowing professionals to expand their workspace. This is especially beneficial for editing, simulation review, analytics, and multi-application production environments.

Hardware-Level Protections

The Intel Xeon W-2255 category incorporates multiple security features designed to protect professional workflows against hardware attacks, malware, memory corruption, and unauthorized access. These security enhancements ensure that workstation environments maintain data integrity, compliance, and long-term operational reliability across sensitive workflows.

Trusted Execution and Secure Boot

Trusted Execution ensures that the workstation launches exclusively from verified firmware, preventing malicious modifications. Secure Boot protects system startup sequences, ensuring integrity across firmware and boot loaders.

Hardware-Accelerated Encryption

Intel AES-NI and related acceleration technologies improve encryption speed for data transfer, secure storage, and confidential workloads. These capabilities allow professionals to secure sensitive data without sacrificing performance.

Isolated Computation Protections

Security-enhanced virtualization allows multiple workloads or virtual machines to operate independently without risking cross-contamination or data leakage. The category supports hardware-based isolation that enhances protection for multi-user or cloud-like workstation environments.