2.7GHz-10.4GT-UPI
Overview of 2.7GHz-10.4GT-UPI Xeon 24 Core Processors
The 2.7GHz-10.4GT-UPI Xeon 24 Core processors are part of Intel's highly efficient server-grade processor line designed for high-performance computing, data centers, and enterprise applications. These processors provide an optimal balance of clock speed, core count, and interconnect bandwidth, making them ideal for demanding workloads such as virtualization, cloud computing, artificial intelligence (AI), and database management. Xeon 24 Core processors offer unmatched scalability and reliability, ensuring that businesses can handle large volumes of data and process-intensive tasks with ease.
Key Features
The Xeon 24 Core processors come equipped with a variety of features tailored for performance-driven environments. These include:
- 24 Cores: These processors feature 24 high-performance cores, enabling efficient multi-threading and parallel processing for simultaneous handling of multiple tasks and applications.
- Base Clock Speed of 2.7GHz: A base clock speed of 2.7GHz ensures that tasks are executed quickly, allowing for smooth operation of time-sensitive applications and workloads.
- 10.4GT/s Ultra Path Interconnect (UPI): The 10.4GT/s UPI provides high bandwidth connectivity between processors in multi-socket configurations, ensuring fast communication across cores and improved overall system performance.
- Support for Advanced Virtualization: These processors are optimized for virtualization technologies, making them an excellent choice for cloud environments and virtual machine deployments.
- Advanced Power Management: The processors include Intel’s dynamic power management technologies, which enable efficient power consumption without sacrificing performance.
Technical Specifications
Core Architecture
The Xeon 24 Core processors leverage Intel’s advanced microarchitecture to maximize performance across a range of use cases. These processors feature Intel’s multi-core technology, allowing them to handle multiple threads simultaneously. This architecture is built for high levels of parallel processing, making it ideal for workloads that demand significant compute power.
Base Clock Speed and Boost Performance
The base clock speed of 2.7GHz ensures a steady and reliable processing performance. The processors are also capable of dynamic boost functionality, automatically increasing the clock speed when needed for more demanding applications. This dynamic boost allows the processors to adapt to fluctuating workloads, delivering performance when it’s most needed.
Ultra Path Interconnect (UPI)
At 10.4GT/s, the UPI offers fast data transfer between multiple processors in multi-socket systems. This interconnect ensures that the Xeon 24 Core processors can handle large-scale operations in multi-processor environments, such as enterprise-grade servers, without bottlenecking communication between cores.
Advantages
Intel’s Xeon 24 Core processors deliver numerous benefits, especially for businesses that require robust computing power and reliability. Some of the primary advantages include:
High Scalability
With 24 cores, these processors provide outstanding scalability for a variety of workloads. Whether in single-processor or multi-processor configurations, Xeon 24 Core processors ensure that performance scales with workload demands, making them highly adaptable to future growth. This scalability is crucial for data centers, cloud environments, and large enterprise systems where performance needs grow over time.
Optimized for Virtualization and Cloud Computing
Due to their high core count and superior threading capabilities, Xeon 24 Core processors are optimized for virtualization. The processors can handle multiple virtual machines (VMs) simultaneously, reducing latency and improving the performance of virtualized environments. Whether running hypervisors like VMware, Microsoft Hyper-V, or other platforms, these processors ensure seamless operation of virtualized workloads.
Data Center and Enterprise Applications
Xeon 24 Core processors are designed for use in data centers and enterprise IT infrastructures. They deliver consistent and reliable performance under high loads, which is essential for operations like database management, business analytics, and large-scale web hosting. With multiple cores and high throughput, these processors can support the most demanding enterprise applications, ensuring high availability and low downtime.
Efficient Energy Consumption
Despite their high performance, Xeon 24 Core processors are engineered to minimize power consumption without compromising on performance. With built-in power management features, these processors adjust their power usage based on the workload, resulting in lower energy costs and reduced heat generation, which is critical in large-scale server deployments.
Use Cases
Xeon 24 Core processors are suitable for a wide range of applications that demand high performance and parallel computing power:
Virtualized Environments
These processors excel in virtualized environments, making them perfect for cloud service providers and enterprises running virtual machines. The 24 cores can manage multiple virtualized workloads without sacrificing processing power, allowing businesses to run many VMs concurrently without performance degradation.
Data Analytics and Business Intelligence
For companies that rely on big data and business analytics, Xeon 24 Core processors provide the compute power necessary for processing vast amounts of data. These processors can handle complex calculations, data mining, and real-time analytics, all while maintaining high throughput and minimal latency.
High-Performance Computing (HPC)
HPC applications such as scientific simulations, financial modeling, and engineering tasks can benefit from the Xeon 24 Core processors' ability to execute parallel tasks at a rapid pace. These processors allow researchers and engineers to run simulations faster and analyze data more efficiently, enabling breakthroughs in various industries.
Database Management
Database administrators can take advantage of Xeon 24 Core processors for managing large-scale databases. The multi-core architecture allows for efficient handling of multiple database queries, improving performance for transactional databases and analytics workloads, which is vital for business-critical applications.
Cloud Computing Infrastructure
Cloud service providers can scale their infrastructure with Xeon 24 Core processors, providing customers with the processing power they need to run resource-intensive applications. With efficient multi-threading and high bandwidth, these processors ensure that cloud environments can handle growing demands for storage and compute power.
Compatibility and Integration with Server Platforms
The 2.7GHz-10.4GT-UPI Xeon 24 Core processors are compatible with various server platforms, ensuring they can be integrated into different types of IT infrastructures. These processors can be installed in both single-socket and multi-socket configurations, allowing for flexibility depending on the needs of the business or data center. The processors also support advanced memory technologies, such as DDR4 RAM, and are compatible with modern server chipsets for optimal system performance.
Multi-Socket Configurations
In multi-socket systems, multiple Xeon 24 Core processors can be paired together to create powerful server configurations. The high interconnect bandwidth (10.4GT/s UPI) ensures seamless communication between processors in these setups, delivering enhanced computational power and ensuring that data flows quickly between cores.
Memory and Storage Integration
These processors support DDR4 memory, offering high bandwidth for demanding applications. With additional support for high-capacity memory configurations, businesses can ensure that their servers are equipped to handle large datasets and complex applications. The processors also integrate well with enterprise-class storage solutions, ensuring fast data access and efficient operations.
Server Compatibility
When paired with compatible server platforms, Xeon 24 Core processors are capable of supporting mission-critical workloads across a variety of industries. Whether integrated into rack servers, blade servers, or high-density tower systems, these processors ensure that businesses can rely on their infrastructure to handle the most demanding applications and workloads with ease.