# Arrandale

> family of computer processors by Intel

**Wikidata**: [Q2345193](https://www.wikidata.org/wiki/Q2345193)  
**Wikipedia**: [English](https://en.wikipedia.org/wiki/Arrandale)  
**Source**: https://4ort.xyz/entity/arrandale

## Summary
Arrandale is a family of computer processors by Intel, part of the Westmere processor family. It succeeded the Nehalem microarchitecture and preceded the Sandy Bridge architecture, fabricated using a 32 nm lithography process. It includes models like the Intel Xeon X5670 and is related to the Clarkdale processor family.

## Key Facts
- Part of the Westmere processor family
- Succeeded the Nehalem microarchitecture
- Preceded the Sandy Bridge architecture
- Fabricated using a 32 nm lithography process
- Includes the Intel Xeon X5670 CPU model
- Related to the Clarkdale processor family
- Has 6 sitelinks in search results
- Wikipedia articles available in English, Spanish, French, Italian, Basque, and Ukrainian

## FAQs
### Q: What is the Arrandale processor family?
A: Arrandale is a family of Intel processors that succeeded the Nehalem microarchitecture and preceded the Sandy Bridge architecture, fabricated using a 32 nm lithography process.

### Q: What processors are part of the Arrandale family?
A: The Arrandale family includes models like the Intel Xeon X5670 and is related to the Clarkdale processor family.

### Q: How does Arrandale compare to Nehalem and Sandy Bridge?
A: Arrandale succeeded the Nehalem microarchitecture and was succeeded by the Sandy Bridge architecture, representing an evolution in Intel's processor lineup.

### Q: What is the significance of the 32 nm lithography in Arrandale?
A: The 32 nm lithography process in Arrandale allowed for improved performance and efficiency compared to its predecessor, Nehalem.

### Q: Where can I find more information about Arrandale?
A: More information can be found on Wikipedia, with articles available in multiple languages, and through Intel's official documentation.

## Why It Matters
Arrandale represents a significant evolution in Intel's processor technology, succeeding the Nehalem microarchitecture and preceding the Sandy Bridge architecture. Fabricated using a 32 nm lithography process, Arrandale offered improved performance and efficiency. As part of Intel's microprocessor family, it played a crucial role in advancing computing capabilities. The Arrandale family includes notable models like the Intel Xeon X5670, contributing to its relevance in both consumer and enterprise markets. Its relationship with other Intel processor families, such as Clarkdale, further underscores its importance in Intel's product lineup.

## Notable For
- Succeeded the Nehalem microarchitecture
- Preceded the Sandy Bridge architecture
- Fabricated using a 32 nm lithography process
- Includes the Intel Xeon X5670 CPU model
- Part of Intel's broader microprocessor family

## Body
### Overview
Arrandale is an Intel processor family that succeeded the Nehalem microarchitecture and preceded the Sandy Bridge architecture. It was fabricated using a 32 nm lithography process, representing a significant step in Intel's processor evolution.

### Relationships
Arrandale is part of Intel's microprocessor family and is related to the Clarkdale processor family. It succeeded the Nehalem microarchitecture and was succeeded by the Sandy Bridge architecture.

### Technical Specifications
Arrandale was fabricated using a 32 nm lithography process, which contributed to its improved performance and efficiency. The family includes notable models such as the Intel Xeon X5670 CPU.

### Availability
Arrandale has 6 sitelinks in search results, indicating its widespread recognition. Wikipedia articles on Arrandale are available in multiple languages, including English, Spanish, French, Italian, Basque, and Ukrainian.

### Significance
Arrandale played a crucial role in advancing computing capabilities, offering improved performance and efficiency. Its inclusion in Intel's microprocessor lineup and its relationship with other processor families highlight its importance in the tech industry.

## References

1. Freebase Data Dumps. 2013