3.6GHz-10.4GT-UPI
3.6GHz 10.4GT UPI Xeon Quad Core Processors
Overview
The 3.6GHz-10.4GT-UPI Xeon Quad Core processors are designed for high-performance computing tasks, offering a balance of speed and efficiency. These processors are built on Intel’s Xeon architecture, catering to data centers, servers, and advanced workstations that require reliable multi-threaded performance. With clock speeds up to 3.6 GHz and a high interconnect speed of 10.4 GT/s via UPI (Ultra Path Interconnect), these processors offer exceptional computational power for critical applications. The Xeon Quad Core processors with these specifications provide excellent performance for workloads ranging from virtualization and scientific simulations to complex database management and enterprise applications. Whether for cloud computing, artificial intelligence, or data analytics, these CPUs offer the performance needed to handle large volumes of data with low latency and high throughput.
Key Features
- Clock Speed: With a clock speed of up to 3.6 GHz, these processors can handle demanding tasks at high speed, reducing overall processing time.
- Quad Core Architecture: The four-core configuration allows for efficient multitasking and parallel processing, making them ideal for workloads that require simultaneous data processing.
- High Interconnect Speed: The 10.4 GT/s UPI enhances the communication between processors, improving data transfer speeds and overall system performance.
- Support for Hyper-Threading: Intel's Hyper-Threading Technology allows each core to handle multiple threads simultaneously, boosting performance for multi-threaded applications.
- Energy Efficiency: These processors are designed with power efficiency in mind, helping reduce operational costs without compromising performance.
- Scalability: The Xeon processors offer excellent scalability, supporting multi-socket configurations and large-scale server deployments.
3.6GHz-10.4GT-UPI Xeon Quad Core Processors
Enterprise-Level Virtualization
Xeon Quad Core processors are ideal for virtualization environments, providing the power to run multiple virtual machines (VMs) simultaneously. With their ability to handle multiple workloads with ease, they ensure high-performance and stability in virtualized data centers. These processors can efficiently manage high I/O requirements and resource-heavy applications across virtual environments, including VMware, Hyper-V, and KVM platforms.
Data Centers and Cloud Computing
Data centers rely heavily on multi-core processors for optimal server performance, and the 3.6GHz-10.4GT-UPI Xeon Quad Core processors deliver. Their high-speed UPI and quad-core architecture enable data centers to perform complex computations and manage large-scale infrastructure, ensuring minimal downtime and improved load balancing. The processors’ ability to handle large amounts of data efficiently makes them a top choice for cloud computing services that require high availability and scalability.
High-Performance Computing (HPC) Workloads
In HPC applications such as scientific research, weather modeling, and financial simulations, processing speed and parallel execution are crucial. The 3.6GHz-10.4GT-UPI Xeon Quad Core processors offer superior multi-threaded performance, making them ideal for environments that require large-scale data analysis, simulations, and complex algorithms. Their high clock speed and interconnect performance enable faster results while handling high-throughput data efficiently.
Artificial Intelligence and Machine Learning
The rise of AI and ML technologies has created a demand for powerful processors that can handle large datasets and process them at high speeds. The Xeon Quad Core processors, with their high interconnect speeds and multi-core architecture, are designed to efficiently manage AI workloads, from deep learning and neural networks to natural language processing and computer vision tasks. These processors provide the performance needed to train large models and process vast amounts of data in a short time.
Database Management
For database-intensive applications, the 3.6GHz-10.4GT-UPI Xeon Quad Core processors are an excellent choice. With their ability to manage concurrent queries, optimize transaction throughput, and handle complex queries with ease, these processors are perfect for enterprise-level database management systems (DBMS) like Oracle, SQL Server, and MySQL. The enhanced interconnect speed ensures that large databases are handled efficiently, providing faster data access and retrieval times.
Technical Specifications
Core Count and Hyper-Threading
The Xeon Quad Core processors come with four physical cores, which are capable of handling up to eight threads concurrently with Intel Hyper-Threading Technology. This allows for more efficient use of the processor's resources, enabling faster execution of multiple tasks and better performance in multi-threaded applications. Whether running demanding simulations or large-scale enterprise applications, the combination of core count and hyper-threading delivers a performance boost without the need for additional hardware.
Base and Boost Clock Speeds
These processors are engineered to provide high base clock speeds, typically up to 3.6 GHz, ensuring fast execution of tasks that require a quick response time. The boost clock speed can go even higher, allowing the processor to dynamically increase its performance for heavy workloads, such as video rendering, 3D modeling, and real-time analytics. The ability to ramp up processing power when needed ensures that users get optimal performance regardless of the workload.
Interconnect Speed and UPI
One of the standout features of these Xeon processors is their high interconnect speed of 10.4 GT/s via Ultra Path Interconnect (UPI). UPI facilitates rapid data transfer between processors in multi-socket systems, improving overall server and workstation performance. This is especially useful in multi-node clusters, where quick communication between nodes is critical for minimizing latency and ensuring efficient data processing across the system.
Cache Memory
Cache memory plays a crucial role in speeding up access to frequently used data. The 3.6GHz-10.4GT-UPI Xeon Quad Core processors come with a significant amount of cache memory, including L1, L2, and L3 cache. The L3 cache, in particular, provides a shared pool of high-speed memory that helps reduce latency and increase the speed of data access across the cores. This ensures that applications experience fewer delays and more consistent performance.
Thermal Design Power (TDP)
The TDP of these processors is optimized for energy-efficient performance. With a TDP rating that ensures a balance between power consumption and heat generation, the processors are designed to work in a range of thermal environments. This makes them suitable for a variety of systems, from small business servers to large-scale enterprise environments, where maintaining an optimal thermal condition is essential for continuous uptime.
Compatibility and Integration
Motherboard and Socket Compatibility
To ensure proper functionality, the 3.6GHz-10.4GT-UPI Xeon Quad Core processors require specific motherboards with support for Intel’s server-grade chipsets and a compatible socket type. The processors are typically designed for LGA 2011 or LGA 3647 sockets, depending on the model. It's important to select motherboards that offer robust power delivery and support for high-speed data transfer, ensuring the best performance and stability.
Memory and RAM Support
These processors are compatible with high-performance DDR4 memory, offering support for speeds up to 2933 MHz or higher. The advanced memory technology ensures that the processors can handle large amounts of data quickly, providing optimal performance for multi-threaded workloads. In addition, these Xeon processors support ECC (Error Correcting Code) memory, which helps detect and correct errors that could otherwise lead to system crashes or data corruption.
Scalability and Multi-Socket Configurations
The 3.6GHz-10.4GT-UPI Xeon Quad Core processors are designed with scalability in mind. These processors can be used in multi-socket configurations to build high-performance computing systems. By using multiple Xeon processors, users can increase core count and memory capacity, providing the ability to scale up as workloads grow. Multi-socket systems are ideal for data centers, supercomputers, and other large-scale applications where performance and reliability are paramount.
Benefits
Improved Performance and Speed
By offering a combination of high clock speeds, multiple cores, and fast interconnects, these Xeon processors deliver superior performance for a variety of computing tasks. This increased processing power translates into faster application execution and more efficient resource utilization.
Energy Efficiency
Despite their high-performance capabilities, these processors are designed with energy efficiency in mind. With advanced power management features and low TDP ratings, these processors help reduce operational costs while maintaining consistent performance. This makes them an excellent choice for enterprises looking to optimize their energy consumption without sacrificing power.
Scalability and Flexibility
The ability to scale these processors in multi-socket systems ensures that businesses can grow their infrastructure as needed. This scalability, combined with support for high-speed memory and multiple cores, allows for more flexible deployments, whether in data centers or high-performance computing environments.
Reliability and Stability
Intel’s Xeon processors are renowned for their reliability and stability in mission-critical environments. With advanced error correction, high-quality components, and excellent thermal management, these processors can operate under demanding conditions with minimal downtime, making them the go-to choice for enterprise workloads.