Description
Product overview of the Intel BV80605001905AJ
The BV80605001905AJ Intel Xeon Up Quad-Core X3470 is a processor that has been designed and manufactured by Intel. It is a powerful processor that is commonly used in servers and workstations. In this article, we will provide an in-depth explanation of the specifications and features of the Intel Xeon Up Quad-Core X3470 processor.
Processor Architecture
The Intel Xeon Up Quad-Core X3470 processor is based on the Nehalem microarchitecture. This microarchitecture was introduced by Intel in 2008 and was used in a range of processors, including the Intel Core i7 and Xeon 5500 series. The Nehalem microarchitecture features an integrated memory controller, which enables faster access to memory and improved performance.
Processor Speed and Cores
The Intel Xeon Up Quad-Core X3470 processor has a clock speed of 2.93GHz. It is a quad-core processor, which means it has four processing cores. The processor also features Hyper-Threading technology, which allows each core to run two threads simultaneously. This means that the processor can handle up to eight threads at once.
Cache Memory
The Intel Xeon Up Quad-Core X3470 processor has a total of 9MB of cache memory. This includes 1MB of L2 cache and 8MB of L3 cache. The cache memory is used to store frequently accessed data and instructions, which can be quickly accessed by the processor. This improves overall performance and reduces the time taken to access data from the main memory.
Socket Type
The Intel Xeon Up Quad-Core X3470 processor is designed to be used with the LGA-1156 socket. This socket is also known as Socket H and is used in a range of Intel processors. The socket has 1156 pins and supports dual-channel DDR3 memory.
Manufacturing Process
The Intel Xeon Up Quad-Core X3470 processor is manufactured using a 45nm process. This refers to the size of the transistors used in the processor. A smaller transistor size generally results in better performance and lower power consumption. However, as the size of the transistors decreases, it becomes more difficult and expensive to manufacture the processor.
Power Consumption
The Intel Xeon Up Quad-Core X3470 processor has a thermal design power (TDP) of 95 watts. This is the maximum amount of power that the processor is designed to consume under normal operating conditions. The TDP can be used to determine the appropriate cooling system for the processor.
Virtualization Support
The Intel Xeon Up Quad-Core X3470 processor includes support for virtualization. This means that it can be used to create and manage virtual machines. Virtualization allows multiple operating systems to run on a single physical machine, which can improve efficiency and reduce costs.
In summary, the BV80605001905AJ Intel Xeon Up Quad-Core X3470 2.93GHz 1MB L2 Cache 8MB L3 Cache 2.5GT/S DMI Socket LGA-1156 45NM 95W Processor is a powerful processor that is designed for use in servers and workstations. It features a quad-core design with a clock speed of 2.93GHz, Hyper-Threading technology, and 9MB of cache memory. The processor is manufactured using a 45nm process and has a TDP of 95 watts. It also includes support for virtualization, which allows multiple operating systems to run on a single physical machine.
General Information about the Intel BV80605001905AJ
- Manufacturer: Intel
- Model Number or SKU# BV80605001905AJ
- Product Type : Server Processor
Technical Information
- Processor Core : Quad-Core
- Clock Speed : 2.93 GHz
- Max Turbo Frequency : 3.6 GHz
- Digital Media Interface(DMI) Speed : 2.5 GT/S
- Instruction Set : 64-Bit
- Instruction Set Extensions : SSE4.2
Cache Memory Detail
- L1 Cache : 256 KB
- L2 Cache : 1 MB
- L3 Cache : 8 MB
- Lithography : 45 NM
- Max Thermal Design Power (TDP) : 95 W
- Compatible Processor Socket : LGA-1156
Advanced Technologies
- Turbo Boost Technology
- Virtualization Technology(VT-X)
- Virtualization Technology For Directed I/O(VT-D)
- Hyper-Threading Technology
- Extended Memory 64 Technology
- Enhanced Speedstep Technology
- Trusted Execution Technology
Additional Information
- Demand Based Switching
- Execute Disable Bit
- Idle States
