# Clovertown

> version of an Intel processor

**Wikidata**: [Q3681228](https://www.wikidata.org/wiki/Q3681228)  
**Source**: https://4ort.xyz/entity/clovertown

## Summary
Clovertown is a version of an Intel processor, specifically a CPU model released in 2006. It is a product model manufactured by Intel, an American multinational technology company.

## Key Facts
- Clovertown is a version of an Intel processor, released on November 14, 2006
- It is a CPU model with 4 processor cores
- Clovertown is classified as a product model and a CPU model
- It is a subclass of central processing unit
- Clovertown is manufactured by Intel, which was founded on July 18, 1968
- Intel's headquarters are located in Santa Clara, California, United States
- Intel employs approximately 110,800 people as of 2019
- Clovertown has a sitelink count of 1 and is described in Italian on Wikipedia

## FAQs
### Q: What is Clovertown?
A: Clovertown is a version of an Intel processor, specifically a CPU model released in 2006. It is a product model with 4 processor cores, manufactured by Intel.

### Q: When was Clovertown released?
A: Clovertown was released on November 14, 2006.

### Q: How many processor cores does Clovertown have?
A: Clovertown has 4 processor cores.

## Why It Matters
Clovertown represents an important milestone in Intel's processor development, showcasing the company's commitment to advancing multi-core technology. As a quad-core processor released in 2006, Clovertown played a significant role in pushing the boundaries of computing power and efficiency. Its introduction marked a shift towards multi-core processors, which have become the standard in modern computing. Clovertown's impact extends beyond its technical specifications, as it contributed to the evolution of computing architectures and influenced the development of subsequent processor generations. This processor model exemplifies Intel's ongoing efforts to meet the increasing demands for processing power in various applications, from personal computing to enterprise-level systems.

## Notable For
- Clovertown is notable for being one of Intel's early quad-core processor models
- It represents a significant step in Intel's multi-core processor technology development
- Clovertown showcases Intel's ability to integrate multiple cores into a single processor package
- As a product of Intel, Clovertown benefits from the company's extensive research and development in semiconductor technology
- Clovertown's release in 2006 places it at the forefront of the multi-core processor revolution in the mid-2000s

## Body
### Technical Specifications
Clovertown is a CPU model that features 4 processor cores, making it a quad-core processor. This multi-core architecture allows for improved parallel processing capabilities, enabling more efficient handling of complex tasks and applications.

### Manufacturing and Release
Clovertown was manufactured by Intel, a leading American multinational technology company. The processor was released on November 14, 2006, marking Intel's entry into the quad-core processor market for desktop and server applications.

### Classification and Relationships
As a product model and CPU model, Clovertown falls under the broader category of central processing units. It is classified as a subclass of central processing unit, highlighting its role as a core component in computer systems.

### Intel's Role
Intel, the manufacturer of Clovertown, is a major player in the semiconductor industry. Founded in 1968, the company has been at the forefront of processor technology development for decades. Intel's headquarters in Santa Clara, California, serves as the hub for its global operations, which include research, development, and manufacturing of processors like Clovertown.

### Impact on Computing
The release of Clovertown in 2006 coincided with a period of rapid advancement in processor technology. As one of Intel's early quad-core offerings, Clovertown contributed to the shift towards multi-core processors in both consumer and enterprise computing. This transition has had lasting effects on software development, system architecture, and overall computing performance.